StudentHANDBOOK 2014-2015

i BRIEF HISTORY OF THE FACULTY OF ENGINEERING AND TECHNOLOGY

Ladoke Akintola University of Technology (LAUTECH), formerly University of Technology (OSUTECH) Ogbomoso was established in 1990 by the then Old Oyo State (Now Oyo and Osun States).

PREFACE The Faculty of Engineering and Technology (FET) and three (3) other Faculties viz: Faculty of Pure and Applied Sciences (FPAS) Faculty of Agricultural Sciences (FAGS), Faculty of Environmental Sciences (FES) came into existence with the creation of the University while the College of Health Sciences was established later in 1993.

his handbook provides a general and useful information on a The Faculty of Engineering and Technology (FET) took-off from a brief of the Faculty of Engineering and Technology, very small beginning in a block, located in the northern part of the University Tphilosophy and objectives for the undergraduate which now houses the Department of Pure and Applied Physics. programmes available in the faculty. Admission requirements, course However, today, FET is strategically located on the eastern part of content, regulations governing the undergraduate programmes and list of the University close to the Senate Building, 250 seater lecture theatre and the academic , technical and administrative staff in each department staff in each University Central Library. Just as the University has developed over the department. Rules governing students on examination the come unit system years, FET has also expanded along with it. and regulations governing the award of degree and faculty code of conduct are also included. At inception, the Faculty has seven Departments. Six (6) of which run-eight degree (B. Tech) awarding programmes viz: Chemical The faculty has a long established reputation for excellence in Engineering (CHE); Computer Science and Engineering (CSE), Civil teaching research and community service. And operates in line with the Engineering (CVE); Electronic and Electrical Engineering (EEE); Food university's philosophy to produce graduates who will combine godliness and Science and Engineering (FSE), Mechanical Engineering (MEE); While the academic excellence with a strong sense of social responsibility towards the Management Science (MGS) Department was a service Department. development of the society at large. The motto of the university is “Excellence, Integrity and Service”. Presently, the Faculty has seven (7) departments running nine (9) degree awarding programmes. The Department of Management Sciences Student of the Faculty of Engineering and Technology are hereby has transformed into a full fledged Faculty, effective from January 2009. advised to carefully study the contents of this handbook and abide by the rules and regulations contained therein. Each Department has a block housing the Head of Department and Departmental office; and a 10 room block of offices which accommodates its Best wishes. academic staff. In effect, there are sixty (60) academic staff offices. Engr. Professor J. O. OLAJIDE Dean In the same vein, there has been expansion in the laboratory

ii iii facilities. These include five (5) blocks housing various laboratories and a donated Electrical Power Laboratory (Mic Com Lab), in addition to the Other facilities include, the University Central Library which existing laboratories viz: Owodunni Food Processing Lab and Chief L.A. accommodates about 2,400 students at a time and a rapidly growing stock of Gbadamosi Chemical Engineering Lab. engineering books and manuals. The Departments also stock relevant books in the Departments' Laboratories for consultation by both staff and students. Similarly, the Engineering workshop has been restructured and expanded to include machine shop. Wood workshop; metal workshop, The University Information and Communication Technology foundry, automobile Lab., Electronic and Electrical workshop and 132 Centre (ICT), has also been expanding to meet up with the demands of the capacity drawing studio. Faculty. It is pertinent to note that, all offices in the Faculty have been networked and linked with the University Internet System. The Central Indeed, there has also been a commensurate increase in the number of University Research Laboratory is also available for graduate students and equipment available for use in these laboratories and workshop. general instrumentation.

Currently, further restructuring and expansion of Facilities have been The students in the Faculty undergo a total of 40 weeks compulsory and are being carried out within the Faculty. These include the creation of the Students' Work Experience Programme (SWEP). This comprises of FET LIPID Research Laboratory in Food Science and Engineering, Process 200 (SWEP 1) and FET 300 (SWEP II) which take place during the long Systems Engineering Laboratory to accommodate Computer Science and vacation of 200 and 300 levels each spanning eight (8) weeks during which Engineering. students undergo apprenticeship training with local artisans/technicians and roadside processionals. The students' Industrial Work Experience Schemes A major leap in the provision of facilities for our programmes in very (SIWES) takes place during the 2nd Semester of the forth year and the long recent time is the provision of seven (7), 250-capacity departmental vacation (24 weeks). Students are placed in relevant industries and their laboratories and a metal workshop of the same capacity. These new facilities progress monitored by staff members and industry based supervisors. Feed will serve dual purposes, viz: increased laboratory workshop space, offices back from industries indicate good performance of these students during the for staff and indeed lecture spaces when the laboratories are not in use. At the SIWES programme. middle of the recently completed seven laboratories, a four (4) floor building complex will twelve (12) Nos Lecture Halls, Faculty Reading Room and The 1000 Seater Lecture theatre near the Faculty of Agricultural Library Hall and a total of twenty four (24) spacious offices was completed Sciences has tremendously eased pressures on virtually all other facilities in and commissioned early 2011. the Faculty. Another 1000 Seater Lecture theatre donated to the University is also under construction. The Faculty Computer Aided Design (CAD) centre with a capacity for 250 students has also been completed. The University Management In addition to the Central Internet Facilities, all offices in the Faculty donated 108 laptop Computer systems to the centre. The National have been networked and linked with the Faculty VSAT. This has enhanced Information Technology Development Agency (NITDA) Abuja also donated academic work and staff research activities. The Central University 22 desktop Computer System, software and accessories to the centre recently. Research Laboratory is also available for graduate studies and general The agency will also provide in a couple of weeks Internet Service facilities. instrumentation.

Indeed, there has also been commensurate increase in equipment Over the years, the Faculty has succeeded in attracting well qualified purchase which is still on-going for use in our Laboratories and workshops. and experienced staff into its Academic, Technical and Administrative Units. iv v Some of the lectures are engaged in doctoral programmes in the Universities automatically mean registration for the course and the examination shall be within and outside . A large percentage of the lecturers in the Faculty carried out. However, a student may drop a course, provided he/she formally are COREN registered while other have registreable qualifications. Also, applied to do so within five weeks of the commencement of lecture in the quite a number of the technologists are COREN registered, while others are course, and obtains the approval of the Head of Department. being encouraged to do so. 4. PENALTY FOR LATE REGISTRATION Presently, almost all the programmes run within the Faculty have Students who submit their registration forms within two weeks after both the National Universities Commission (NUC) and the Council for the stipulated period shall pay a late registration fine as prescribed by the Regulation of Engineering in Nigeria (COREN) Full Accreditation Status. university.

THE COURSE UNIT SYSTEM AND REGULATIONS GOVERNING EXAMINATION AND GRADING UNDER THE COURSE UNIT THE AWARD OF A DEGREE. SYSTEM Description of the course Unit system The course unit system is an operational system in which the entire 1. Continuous Assessment programme of course required by a student for a particular degree is packaged Assessment of student' performance shall be continuous. The final into a number of modules each consisting of a prescribed number of units. examination for each course shall normally be at the end of the Usually one module is to be offered in one semester. Thus, the student's semester in which the course is offered. The courses grade will as the workload in a semester is defined in terms of units where one unit represent up of the students' score in the continuous assessment shall carry a one hour of lecture or one hour of tutorials or two or three hour of practical maximum mark of 40% work per week throughout the semester normally of fifteen weeks duration. Mechanisms of the Course Unit System 2. Attendance In order to qualify for a course examination, a student shall be 1. REGISTRATION FOR COURSES required to achieve 75% attendance of all the scheduled classes This is normally at the beginning of each semester. Registration (Lectures and laboratory work) for the courses. guidelines shall be distributed to the students before registration begins. 3. Absence from Examination 2. SUBMISSION OF REGISTRATION FORMS A student who is absent from a course examination without the (a) Harmattan Semester permission of the Head of Department during or the end of the The submission of registration forms for the harmattan semester, will receive a grade of F. permission may be granted only semester shall end before matriculation in the case of freshmen and on substantial compassionate of medical grounds as approved by the two weeks after the University official date of resumption in the case University Health Services. of returning undergraduate. (b) Rain Semester 1. Terminologies A maximum of two weeks from commencement shall be (a) The unit of a course is defined in relation to the semester allowed for the acceptance of registration forms. duration; this is equivalent to a lecture duration of one hour weekly for one semester of about 15 teaching week, in the 3. REGISTERING/DROPPING A COURSE laboratory for one semester of same duration (15 weeks) or Registration for a course at the beginning of a semester shall the equivalent in workshop or filled work time. The size of vi vii course shall, as much as possible, be a maximum of four units particular semester. It is the summation of the load units on all and its duration shall be one semester except for projects and course carried during the semester, for example, a student who is design courses which may carry more than three units and taking courses of 2 units each has a T.L.U if8*2=16 for that may last more than one semester. semester.

(b) A core course is one which must be registered for and passed ii. Cumulative Load Units (C.L.U) by a student to get the degree, and is counted towards the This is the summation of total load units over all the semester from classification of his/her degree. the beginning to date. A student who is prone to repeating courses will finish (if he does not drop out) with a higher C.L.U. than his An elective course is either compulsory or optional. non-repeating colleagues, and will most likely require a longer time © A compulsory elective shall be counted towards the cl to complete requirements for the award of a degree. assification of students' degree. An optional elective is a co urse that may be taken by the student and may not be counted iii. Total Credit Point (T.C.P) towards the classification of his/her degree. This is the sum of the product of course units and rating in each course, for the entire semester. For example consider a student who For the purpose of determining the class of degree, the CGPA shall took 6 courses of 3 units each, suppose the grade he obtained in the cover 100 to 500 level courses for UME students and 200-500 for six courses were A, B, C, D, E and F respectively. The TCP of this Direct Entry students. students is obtained as (3*0.0) = 15+12+9+6+3+0 = 45.0 1. Grading System: A five-point grading system is currently adopted as shown. iv. Cumulative Grade Point (CGP) Mark Range Letter Grade Grade Point Interpretation This is summation of Total Credit Point over all semesters from the beginning to date. (%) 70-100 A 5 Excellent v. Grade Point Average (GPA) This is the Total Credit Point (TCP) divided by the Total Load Units 60-69 B 4 Very Good (TLU), for example, consider the student's score referred to in 50-59 C 3 Good section (iii), his T.C.P is 45.0 and has T.L.U of 18 (i.e. 5 course of 3 45-49 D 2 Satisfactory units each for the semester, his G.P.A is therefore 45/18 = 2.50. The highest possible GPA that can be earned is 5.0 and that is when a 50-44 E 1 Poor but passing student has earned and “A” grade in every course during the 0-39 F 0 Failure semester. The lowest G.P.A obtainable is 0.00, signifying and “F” grade all through. 2. Computation of Result The following terminologies and abbreviations are commonly used vi. Cumulative Grade Point Average (CGPA) in the progressive computation of students' results throughout his/her This is not the summation of GPA's for all semester, rather it is the four / five-year stay in the University. summation of TCP for all the semester to date divided by the i. Total Loading Units (T.L.U) summation of TLU for the said semesters. Like the GPA CGPA's This is the total number of course units carried by a student in a obtainable range from 0.00 to 5.00 in effect, CGPA = CCP/CLU viii ix where CCP is cumulative Credit Point and CLU is the Cumulative courses. Load Unit. (v) Only these students who are duly registered for a course shall be allowed to take the examination in that course. REGULATIONS GOVERNING UNDERGRADUATE PROGRAMMES THE FACULTY Add and Drop Form: Degree Awarded: The Add and Drop Forms are obtainable at the Faculty Office to enable The Faculty awards a Bachelor of Technology (B. Tech.) degrees to students add to their courses within the approved maximum Units for a successful students in relevant disciplines on the First Class Honours, Second semester, and to drop any course within a stipulated time as may be reflected Class Honours (Upper Division), Second Class Honours (Lower Division), on the University Calendar issued at the beginning of every Semester. Third Class Honours, and ordinary Pass as may be approved by the Senate of the University. Change of Programme: Students are allowed to seek change within and outside the Faculty. The Admission Requirements: form for this dispensation is obtainable at the Academic Affairs Unit of the The admission requirements into the Faculty are as reflected by each of the Registry for a fee and must be completed within a stipulated period of time Departments in their Curriculum. as may be fixed by the University. Students willing to change programme must satisfy minimum admission requirements of the new programme and Deferment of Admission: must have been duly released by their Departments and Faculties before Students with genuine reason(s) for deferment of admission must submit a they can be accepted in the new departments. formal application stating clearly the reason(s) for the request through their Heads of Departments to the Dean of the Faculty (Chairman of the Faculty Withdrawal From Department as a Result of Poor Academic Standing Board) for consideration and recommendation to Senate for approval. To Any student whose cumulative grade point average (CGPA) falls before qualify for this dispensation, a student must have matriculated and registered 1.00 for two (2) consecutive Semesters shall be advised to withdraw from for courses. the Department. Such a student would however be free to seek admission to any department of his choice in another faculty. Registration for courses:- (i) After admission, all students must be cleared at their Departments LIST OF EXAMINATION OFFENCES AND SANCTIONS and the Faculty to continue with their registration at the Admission Arising from the alarming rate of increase in examination office in the Registry. malpractices in the University, the Senate of the University has put in place (ii) All students (Fresh or Stale) must register for courses after due appropriate sanction for various offences as follows: consultation with their staff advisers in the Departments at the beginning of every semesters and within the stipulated period of registration as may be reflected in the University Calendar. Late registration may be allowed on payment of a penalty fee as prescribed by the Senate. (iii) All stipulated fee must be paid by all students before registration in the Departments and Faculty. (iv) All pre-requisite or co-requisite courses (where applicable) must be taken and passed by all students before they could register for higher x xi S/N Examination Offences Sanctions 9. Students should work hard, recreate and pray. 1. Examination Leakage Expulsion Final Assessment & Class of Degree 2. Illegal possession of answer scripts by students Expulsion Class CGPA First Class 4.50 – 5.00 3. Examination Scripts with more than one hand Expulsion 2nd Class Upper Division 3.50 – 4.49 4. Possession of illegal materials relating to writing Expulsion 2nd Class Lower Division 2.40 – 3.49 5. Examination in the examination venue Expulsion 3rd Class Division 1.50 – 2.39 6. Involvement of mercenary in writing Expulsion Pass 1.00 – 1.49 7. Examination Expulsion vii. Academic Probation 8. Impersonation Suspension for one A student whose CGPA at end of any semester is less than 1.00 shall Students Assault on Invigilators Session expulsion be placed on academic probation during subsequent semesters. 9. Harassment of Co-students for non-cooperation in Suspension for viii. Withdrawal from the University examination malpractices. One semester. A student who is on academic probation in a semester and fails to 10. Falsification of identity (i.e. Name and Matriculation Suspension of all achieve a CGPA of at least 1.00 at the end of that session shall be Number etc. by a culprit). parties involved. asked to withdraw from the university. 11. Girafing ix. Repetition of Courses Exchange of scripts Suspension for one Any course failed by a student must be repeated until passed. A Refusal to submit Examination Scripts session. student may repeat only those courses in which he has obtained a grade of F. The grade earned for a repeated course shall be recorded GENERAL FACULTY RULES AND ADVICE TO STUDENTS and used in the computation of the GPA and CGPA in the usual way. 1. Punctual and regular attendance at lectures, tutorials and seminars and practical classes is compulsory. 2. A student who has a genuine reason to be absent from any of the THE ROLE OF ENGINEERING, SCIENCE AND TECHNOLOGY activities listed above must first obtain permission of the lecturer or IN THE SOCIETY personnel in charge. BY ENGR. PROF. J.O. OLAJIDE 3. Students must consult with their level advisor or such persons that An engineer is an individual who combines sound knowledge of science, may be knowledge about the operation of the course unit system for mathematics and economics to solve technical problems that confront necessary information. society. 4. Students should learn how to compute their semester GPA as well as Therefore, in addition to practical mathematical knowledge and science, CGPA and keep accurate records of their academic performance. economics (cost-consciousness) is also fundamental to engineering 5. Student should not distinct the peace and order of the faculty through endeavour when making ordinary objects for consumer use in a competitive noise making, operating musical instants or dry. market. However, there are programmes and problems of national 6. Handsets must be switched off during lectures tutorial, seminar, emergency when costs become secondary. An example is: practical etc. Student should shin flighty as any other violent acts. When President Kennedy decided that America will land a man on the moon 7. Students must treat one another with respect. before 1970. This was after the Soviet Union launches men who orbit the 8. Students should maintain an honest life earth successfully beating the Americans. National pride and safety became xii xiii a primary consideration and cost secondary. understanding of engineers and scientists. Typical qualification is HND, We can define an engineer as a problem solver who assembles the necessary B.Tech and B.Sc. resources to achieve a clearly defined technical objective. Technicians: who are generally supervised by engineers and The role of a Technology Team in solving societal problems scientists in the performance of specific tasks such as drafting, There are many technological challenges that are facing the society and so laboratory and workshop procedures. Typical qualifications are complex that only rarely is a lone engineer able to tackle significantly. A below the HND and Associate Degree or diplomas. technology team is the norm. Coordination of such team assigned to solve a Artisans: have manual skills (welding, machining, carpentry, problem is an important factor in technology development. A technology painting etc) to construct devices specified by scientists, engineers, team consists of the following: technologists and technicians. A typical qualification is Technical Scientists: who study nature to advance knowledge. Although some Educational Certificates/trade tests. of their work have immediate practical application to industry, medicine, agriculture, etc., many do not. Their work enlarges the QUALITIES OF THE PROFESSIONAL ENGINEER body of scientific knowledge. They hold B.Sc., B. Tech., M.Sc. and Interpersonal Skills: Necessary for communication and effectiveness in a Ph.D degree. work environment where people of different professions must work together Engineers: As civilization has progressed and become more productively. technological, the engineers' impact on society has increased. Communication Skills: Engineers spend up to 80% of their work time Engineers are part of a technology team that includes scientists, technicians, communicating orally and in written form. Versatile skills in oral and and artisans. Historically, various disciplines within engineering have written communication using computers and other audio visual aids are a (evolved e.g. civil, mechanical, industrial). Regardless of their discipline, must in today's work place. Drawing is a great communication asset for the engineers fulfill many functions (research, design, sales, etc). Because of engineer. engineer's importance to society, their education is regulated by COREN and Leadership: An engineer is a leader at some level in any organization. A professional licenses are a requirement. There are many engineering good leader assess a situation and develops a plan or strategy to meet the professional societies serving a variety of roles, such as providing continuing group's objectives. Part of good leadership is good followership. education courses and publishing technical journals. Competence: this means being knowledgeable and skilled and an ability to In meeting the needs of society, engineers use the engineering method. An demonstrate these attributes on a sustainable basis. important step in the engineering method is to formulate models of reality. Logical thinking: Is required to make decisions devoid of emotions. The These models can range from simple quantitative relationship to detailed engineer's strength here is founded in his/her training in mathematics, quantitative codes in digital computer. science, experimental methods and analysis. To be successful, engineers need to cultivate many traits, such as competence Quantitative Thinking: Quantitative skills transform quantitative ideas into and communication skills. Among the more important skills creativity, hard quantitative data, information and models that help decision making. which is needed to solve the more difficult problems faced by society. The Follow-through: Means persistence, endurance and staying power to see creative process involves interplay between quantitative models that are through a project from start to finish sometimes taking several years. understood by the subconscious and quantitative models understood by Continuing education: helps to cope with change and maintain skills and conscious. These quantitative models may be viewed as tools that engineers competence at the cutting edge of knowledge. keep in their toolbox to help guide their creativity in productive directions. Maintaining a professional library: the engineer is a learned profession. Typical qualifications are B.Sc., B.Tech, M.Sc. and Ph.D. Therefore engineering practice is anchored on library based research from Technologists: who apply science and mathematics to address and texts, handbooks, regulation etc. the engineer must have a library of those solve all defined problems that do not demand the depth of scientific materials he/she uses most often. xiv xv ADDRESSES

University: University of Technology, P.M.B. 4000, Ogbomoso, Oyo State, Nigeria. CONTENTS 038 720285, 720754, 720714 Liaison Office, : 15, Ojo “Badan Avenue Bodija, Ibadan.

National Universities Commission Preface…………………………………...... ………………..ii Plot 430, Aguiyi Ironsi Street, Maitama Brief History of the Faculty ……………...... ………………iii District, The Course Unit System and Regulations governing P.M.B. 237, the award of a degree………………...... ………………….vi Garki, Abuja, Regulations governing undergraduate programmes 09-5233176-83 in the Faculty …………………………...... ………....………..x List of Examination offences and sanctions………...... …xi Joint Admissions and Matriculation General Faculty rules and advice to Students…...... …..xii Board, The Role of Engineering, Science and Technology Suleja Road, Bwari, in the Society ………………………………………...... ….xiii P.M.B. 189, Garki, Table of Contents ……………………………………...... …xvi Abuja, Addresses ……………………………………...... …………..1 09 – 5232747, 090 – 806904 – 5 Faculty Staff List …………………………………………………3 Federal Ministry of Education, Departmental Staff Lists ………………………………………….4-22 Higher Education Section, P. M. B. 12573, Departmental programme and Admission Requirements: Lagos, Nigeria. Departmental Agricultural Engineering ………………………….23 Departmental of Chemical Engineering ………………………….35 Council for the Regulation of Engineering Departmental of Civil Engineering ………………………………46 in Nigeria. (COREN) Departmental of Computer Science and Engineering ……………65 PLOT 21/23, 14 Road, Off 1st Avenue. Departmental of Electronics and Electrical Engineering …………87 Gwarinpa Phase II P.O. Box 8461, Wuse, Abuja. Departmental of Food Science and Engineering ……………….....111 Department Of Management Science Programmes Introduction...139 Departmental of Mechanical Engineering ………………………..177 xvi 1 VISITORS AND PRINCIPAL OFFICERS OF THE UNIVERSITY

THE VISITORS The Executive Governor of Osun State Engr. Rauf Adesoji Aregbesola

The Executive Governor of Oyo State S/N NAMES QUALIFICATION PRESENT STATUS Senator Isiaka Abiola Ajimobi 1. Mr. K. Olagbemi B.Sc. Economics Administrative Officer I 2. Mrs. M. F. Adio HND, Sec. Admi. (Ibadan Poly), Chief Confidential PRO-CHANCELLOR AND CHAIRMAN OF COUNCIL PGD MPA (Uni Cal.), B.Sc. (Ed.) Secretary Social Studies (UNAD) ______3. Mrs. S. A. Ojewola B. Ed. (Hon), OND, WASC, Gd Chief Data Management Ag. VICE CHANCELLOR II Officer. Prof. A. S. Gbadegesin 4. Mrs. R. T. Obisesan Typewriting 50wpm and 25wpm Principal Data Management B. Sc., M.Sc., Ph.D (Ibadan), Computer Word Processing and Officer. Word Desktop. Ag. REGISTRAR 5. Mrs. L. O. Lawal HND, PGD (Business Principal Executive Officer Administration) II (Admin.) Mr. J. A. Agboola 6. Mrs. J. O. Odeleke ‘O’ Level Typewriting 25, 35 and Typist 1 B. A., M.A., M.DIV. 50 words per minute – ND Accounting B, Sc. in viewed Cert. Ag. BURSAR in Word Processing / Desktop Mr. A. A. Okediji Publishing OAU & ViTbad 7. Mr. Bolade ‘O’ Level Result ND in public Caretaker B. Sc., (Ago Iwoye), PGD (LAUTECH) ACA Administration

Ag. UNIVERSITY LIBRARIAN Mr. I. O. Ajala B. Ed., MLIS (Ibadan)

2 3 DEPARTMENT OF AGRICULTURAL ENGINEERING TECHNICAL STAFF ACADEMIC STAFF S/N Nam es Q ualificat ion Status S/N Names Qualification Status 1 . M r. E .A. Owoo OND Agricultural E ngineering Senior T echno logist 1. Dr. F. B. Akande B. Eng, M. Eng (Minna), Ph.D Senior Lecturer HND Agricultural E ngineering (UPM) MNSE (16463), MNIAE (M733), MASABE Farm Power & M achin ery o ption (M1030679) COREN Registered Engineer (R. 12970). 2 . M r. Ad ebayo J. M . OND Agricultural E ngineering Tech nolo gist II 2. Prof. J. O. Ojediran B. Sc. (Ibadan), M. Sc. (Silsoe), Professor HND Agricultural E ngineering Adv. Cert., Dip. Com. Stud, Ph.D 3 . M r. Olowolagba, W .I. B. T ech. ( Og bomo so), SSSC Agricultur al Officer II (Ibadan), MNIAE, COREN Reg. (R. 4710), M. Solar Energy 4 . M r. Jekayinfa, J. B. T ech. ( Og bomo so), SSSC Agricultur al Officer II Society of Nigeria (SESN), Ass. Member Institution of Agric. 5 . M r. Oyewale J. A. OND Agricultur al M echan ization , Prin cip al Tractor Engineers Silsoe Uk. (R.N. 6156). Tractor Grade II Certificate, Nation al Driver M ech anic 3. Prof. S. O. Jekayinfa B. Eng (Ilorin), M.Sc., Ph.D (Ibadan), Professor Driver’s M achin ery (AM M OT RAC) , Reg. Eng. COREN (R. 8104), MNSE (No. 07824), MNIAE Trade Test Grade III, II, I. (No. M678/1999), MASABE (No. 1009876), MNIEM (No. 6 . M r. E . O. Adegboy e OND Agr icultural M echanization Senior T racto r Driv er M ech anic Em0404), MIAGE (No. 8709). (FASOLA), Federal T rade T est III, II 4. Dr. A. B. Fashina B. Sc (Ife), M. Sc (Reading), Ph.D (Ibadan), Reader & W AE C F. NIAE, F. NSE. 7 . M r. I. O. Owosho Federal L abo ur T rade T est II Senior T echnical 5. Dr. A. Taiwo B.Sc. (Califonia) M.Sc. (Ibadan), M.Eng, Senior Lecturer Federal Craft Cer tif icate Assistant in T rainin g Ph.D (Ilorin) MNSE (02410), MNIAE (M153), West Af rica Certificate MASAE (132636), COREN Registered Engineer (R.4092). 8 . M r. J. B . Adeyem o Federal L abo ur T rade T est II I, II & I Senior T echnical 6. Dr. O. O. Oniya B. Sc., M. Sc., Ph.D (Ibadan), MNIAE, MNSE, MASABE, Lecturer I Federal Craft Cer tif icate (NAE C) Assistant in T rainin g COREN Registered Engineer (R. 21,998) City & Guild 7. Dr. Adebayo, A.O. B. Tech. (Ogbomoso), M.Sc, (Ibadan), Ph.D, (Ogbomoso) Lecturer II 9 . M r. Oke A. B . Federal L abo ur T rade T est II I, II & I Senior T echnical MNSE (M23023), MNIAE (M1355), MASABE (M1040149), WAE C, Craft Cert. Au to-M ech. AB U Assistant in T rainin g Registered Engr. (R22, 670) (Zaria), 8. Dr. R. A. Ola B.Sc., M.Sc. (ABU), Ph.D (Ogbomoso) MNSE, 2000, MNSE Lecturer I Tech nician Cert. in Au go-M ech. (M12340), MNIAE (M639), COREN Registered Engineer (R, Ag. HOD ABU (Z aria) 11875). 1 0. M r. Oyinlola W . B. Federal T rad e T est III, II W AE C Senior T echnical 9. Dr. O. I. Ojo B. Eng (Ilorin), M. Sc. (Ibadan), Ph.D (SA) MNIAE (M838), Assistant in T rainin g MNSE (003149) A1AgrE (7988), COREN Registered 1 1. M r. G. A. Ogunkanm i OND (OFFA) , W AEC. Laborator y Atten dan t Engineer (R12, 696). 1 2. M rs. L . O. Oladapo Scho ol C ertificate Laborator y Atten dan t 10. Dr. K. O. Oriola B. Eng., (Akure), M. Sc., (Ibadan), Ph.D (Ibadan), MNSE Lecturer I (M17245), MNIAE (M830), MASABE, COREN Registered ADMINISTRATIVE STAFF Engineer (R15, 043). S / N N a m e s Q u a l if i c a t io n S t a t u s 11. Dr. T. P. Abegunrin B. Sc. (OAU), M.Sc. (Ibadan), Ph.D (Ibadan), MNIAE, Lecturer I 1 . M r . A . O . O g u n n i y i C e r tif ic a t e in I n f o r m a t io n C o m m u n it y C h ie f D a t a T e c h n o lo g y M a n a g e m e n t O f f i c e r MNSE, MASABE, COREN Registered Engineer (R20,432). C e r tif ic a t e i n W o r d P r o c e s s in g & D e s k t o p 12. Engr. D. O. Idowu B. Eng. (Ilorin), M. Sc. (OAU), MNIAE, MASABE, COREN Lecturer I P u b li s h in g Registered Engineer (R. 21,239) T y p in g : S ta g e I , I I & I I I W e s t A f r i c a n S c h o o l C e r ti f ic a t e . 13. Engr. Mrs. Adejumobi M. Tech. (Ogbomoso), M.Sc (Netherland), (Ph. D in view), Lecturer II 2 . M r s . S . O . I d o w u H N D ; O N D ; N E C O & G e n e r a l S c h o o l E x e c u t iv e O f f i c e r M.A. MICE (P60722388) M. ASCE, MASABE C e r tif ic a t e . 14. Engr. J. A. Olaniran B. Eng., (Ilorin), M. Sc., (Ibadan) Assistant Lecturer 3 . M r s . F . A . A d e r i n to O N D ; C e r t if i c a te i n W o r d P r o c e s s i n g & T r a i n i n g D a ta D e s k t o p P u b l is h i n g ; S c h o o l C e r t . C e r ti f ic a t e M a n a g e m e n t O f f i c e r 15. Engr. T. B. Onifade B. Eng., (Ilorin), M. Sc., (Ife), MNSE. Assistant Lecturer N E C O ; T y p in g S ta g e s I I, & I I I . 4 . M r s . T . I . L a w a l W A E C S e n io r O f f ic e A s s is t a n t .

4 5 CHEMICAL ENGINEERING DEPARTMENT 18. Engr. Olu- B.Tech, (UNILAG) M.Sc (UNILAG) Lecturer I ACADEMIC STAFF Arotiowa, O.A. MBA R.Eng. S/N Na mes Q ualification St atus 19. Mr. Salam K. K. B. Tech (LAUTECH) M.Sc. Lecturer I 1 . D r. (M r s.) A rem u, M . O. B .Sc ( If e), M .Sc (If e); Ph.D (Ife); Senior (Petroleum Eng. Ibadan); MNPE: N SE , M N SChe, R. Eng L ecturer /H O D 2 . Professor L ayoku n S.K . D ip-ing (C hem ical E ng.) (Rum an ia); M .Sc. A ssociate Lecturer R.Eng. D U C (B iochemical E ng) U niv. Co l. 20. Mr. Dada E.O.** B. Tech (LAUTECH) M.Eng. (Minna) Lecturer II L ond on); FN SchE , R. Eng., M A IChE 3 . Professor O nifade, K .R. B .Sc. (Ch em istry) Ife; M .Sc Chemistry A ssociate Lecturer MNSE: R.Eng. E ng) U niv. of A sto n, E ngland; Ph.D 21. Mr. Agbede, O.O. B. Tech (LAUTECH) M.Sc. Lecturer II ( Chemical E ng) ( Un iv. of A ston, England; (UNILAG), R.Eng M N SE , M N Ch E), R. E ng. 4 . D r. Son ibare B .Sc (Ife), M .Sc ( If e); Ph.D ( Ife) ; M N SE A ssociate Lecturer 22. Mr. Arinkoola B. Tech (LAUTECH) M.Sc. Lecturer II M N SC he, R.E ng (Petroleum Eng. Ibadan); MNSPE: 5 . D r. (M r s.) A folabi T.J. B .Sc (If e), M .Sc (Ife); Ph.D (U N IL A G ); R eader M N SE M N Ch e, R .Eng R.Eng 6 . D r. O gun leye, O .O . B . T ech (O gbom oso); M .Sc (Ind ustrial E ng. R eader 23. Mrs. Aworanti B. Tech (LAUTECH) M.Sc. Lecturer II Ib adan); Ph. D (industrial Eng . Ib adan) M N IE , M A IC H E, R .En g. (UNILAG), R.Eng 7 . D r. L atin wo , G .K . B .Tech ( O gbom oso); M .Sc (U N IL A G ); Senior L ecturer Ph .D (U N ILA G ) M N SE R. Eng. A M ICH E 8 . D r. L .A . Jim oda B .Sc ( Ife), M .Sc (If e); Ph.D (Ife); N SE, Senior L ecturer M N SC he, R. E ng. ** On Study Leave 9 . D r. A rarom i, D .O . B .Sc., (Ife) , M .Sc ( U N IL A G ) M N SC he Senior L ecturer ADMINISTRATIVE STAFF 1 0. D r. Salaw udeen, T .O . B .En g (M inn a); M .E ng. (M inna); M N SE, Senior L ecturer Ph .D (M alay sia) , R.E ng. S/N Names Qualification Status 1 1. En gr. L atin w o, I. B .Sc (Ife), M . Sc ( If e); M N SE , M N C he L ecturer I 1. Mrs. S. O. Oyedele B.Sc. (Ed) Cert. in Computer, M.Ed (in Senior Confidential R .En g view) Secretaty 1 2. D r. A garry S.E . B .Sc ( Bio chemistry , Benin M .E ng (B enin) Senior L ecturer 2. Mrs. R. B. Aderinto B.Sc. (Ed) Cert. in Computer Chief Typist C hem ical Eng, Benin) M B A (O gb omo so ); 3. Mrs. Y. A. Ajayi HND (Public Administration) Chief Clerical Officer M N SE , R.E ng 4. Mrs. O. A. Olayiwola SSCE Diploma in Cooperating Studies Senior Office Assistant 1 3. D r. A lade, A .O . B . T ech (L A U T ECH ) M .Sc. Industrial L ecturer I Cert. in Desktop Publishing and Printing C hem istry, O gbom oso); Ph.D (M alaysia) Technology. M N SE ; R.En g 1 4. M rs. A jani, A .O . B .Sc ( If e), M .Sc (U nilag) M N SE ; R .En g L ecturer I 1 5. En gr. A lagb e S.O . B . T ech (LA U T EC H ) M .Sc. ( U NIL A G ), L ecturer I M N SE , R.E ng 1 6. En gr. A gunlejika, B . T ech (LA U T EC H ) M .Sc. ( U NIL A G ), L ecturer I E. K .** M N SE , R.E ng 1 7. M r. B abatun de, K . A . B . T ech (LA U T EC H ) M .Sc. ( U NIL A G ), L ecturer I 6 7 TECHNICAL STAFF DEPARTMENT OF CIVIL ENGINEERING S/N Names Qualification Status ACADEMICS/N Na mSTesAFF Qualification Status 1. Dr. J.A. Ige B.Sc. (Ogbomoso); M.Sc. (Ibadan); Ph.D Lecturer I / Acting 1. Mr. Adebayo, G. A. OND, HND (Bida), PGD (Minna) (M.Sc. Chief Technologist (Ilorin) H.O.D in view) 2. Prof. A.A. Adegbola B.Sc. (Ife); M.Sc. Ph.D (Ibadan); MNSE, Head of Dept./ MASCE, R.Eng. M.IAHS Professor 2. Mr. Azeez, W.O. OND (Bida) HND, PGD (M. Sc. in view) Principal Technologist 3. Dr. A.A. Raheem B.Sc. (Ife); M.Sc. (Lagos); Ph.D (Ife); Associate Professor 3. Mrs. Blessed Agboola OND (Bida) PGE Chemical (Minna) Senior Technologist MNSE 4. Dr. O.S. Oladeji B.Sc. (Ilorin); M.Sc. (Ibadan); M. Tech. Senior Lecturer O.A. (M.Sc. in view) (Akure) Ph.D. (Aston) 4. Mr. Oyekunle O. S. OND (Bida); PGD (Education Ibadan) Senior Technologist 5. Dr. S. O. Ojoawo B.Tech (Ogbomoso); M.Sc. (Ibadan); Ph.D 5. Mr. Olabode, O.S. HTD (Ibadan), HND (Ibadan) Technologist II (Ibadan); PG Dip (Comp. Sc.) MNSE; Senior Lecturer MNICE; AMASCE, R.Eng. 6. Mr. Abolowotan, J. HND (Ibadan) Senior Lab. Supervisor 6. Dr. O.S. Oladejo B.Tech (Ogbomoso); M.Sc. (Ibadan); Ph.D Senior Lecturer 7. Mr. Lapo, O. A. SSCE Laboratory Supervisor (Ibadan); 7. Dr. O. M. Osuolale B.Tech (Ogbomoso); M.Sc. (Ibadan); Ph.D Senior Lecturer 8. Mrs. Babarimisa SSCE Laboratory Supervisor (Ibadan); 9. Mrs. Odediran, SSCE Laboratory Supervisor 8. Prof. A.A. Adedeji B.Sc. M.Sc., Ph.D (ABU); MNSE; Associate Lecturer MNICE, R.Eng. 10. Mrs. Adigun, E. O. SSCE Laboratory Supervisor 9. Dr. F.A. Olutoge B. Eng (Ilorin); M.Sc (Lagos) Ph.D Associate Lecturer (Ibadan); MNSE, R.Eng. CAL, ICI. 10. Dr. B.I.O. Dahunsi B.Sc (Ife); M.Sc (Ibadan); Ph.D (Ibadan); Associate Lecturer MNSE, MASCE, MNIAE, MIEE, MMSN 11. Dr. K. A. Adeniran B.Sc. (Ibadan); M.Sc. (Ibadan); Ph.D Associate Lecturer (Ibadan) 12. Engr. R. O. Oduola B.Sc. (Ife); M.Sc.(Lagos); MNSE, Lecturer I MASCE. R.Eng. 13. Engr. (Mrs.) O.K. B.Sc. (FUTY); M.Sc. (UNIBEN); R. Eng. Lecturer I Fagbenro** 14. Dr. S. O. Ajamu B. Eng., M. Eng. (Ilorin); Ph.D (Ilorin) R. Lecturer I Eng; 15. Mrs. R.A. Olaoye B.Tech. (Ogbomoso); M.Sc. (Ibadan) Lecturer I 16. Engr. J.R. Oluremi B.Tech. (Ogbomoso); M.Sc. (Ibadan) Lecturer I 17. Dr. O. S. Olaniyan B.Tech. (Ogbomoso); M.Sc. (Ibadan); Lecturer II M.Sc. (Belgium); Ph.D (Ogbomoso); 18. Mr. S. I. Adedokun** B.Tech. (Ogbomoso); M.Sc. (Ibadan) Assistant Lecturer

** On Study Leave 8 9 TECHNICAL STAFF DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING S/N Names Qualification Status ACADEMIC STAFF S/N Names Qualification Designation 1. Mr. J.O. Akinyemi HND (Ibadan) Chief Technologist 1. Dr. O. T. Arulogun B. Tech (Ogbomoso), M. Sc (Ibadan), Ph.D SeniorLecturer 2. Mr. K. H. Ibrahim HND (Oyo) Chief Technologist (Ogbomoso), MCPN, R. Engr. /Acting H.O.D 3. Mrs. E. O. Fadahunsi HND (Ibadan) Asst. Chief Technical 2. Prof. O. J. Emuoyibofarhe B. Tech (Minna), M. Tech (Ogbomoso), Professor Officer Ph.D (Minna), MNCS, MCPN 4. Mrs. F. V. Onawumi B.Sc. (Ife); PGD (Ogbomoso) Principal Technical 3. Prof. E. O. Omidiora B. Sc (Ife), M. Sc. (Lagos), Ph.D Professor Officer (Ogbomoso), MNSE, MCPN, R. Engr. 4. Dr. S. O. Olabiyisi B. Tech (Ogbomoso), M. Tech Reader 5. Mr. P. S. Adepoju HND (Ibadan) Higher Technical (Ogbomoso), M. Sc (Ibadan), Ph.D Officer (Ogbomoso), MCPN 6. Mr. A. L. Abogunde NCE (Oyo) Asst. Technical 5. Prof. G. A. Aderonmu B. Sc., M.Sc., Ph.D (Ile-Ife) Associate Lecturer Officer 6. Dr. O.A. Fakolujo B.Sc., Ph.D, MNSE, R. Engr. Associate Lecturer 7. Mr. O. O. Ibikunle HND (Ibadan; Cert. in Electronic Snr. Laboratory 7. Dr. (Mrs.) A. B. Adetunji B. Sc (Ibadan), M.Sc (Ife), Ph.D Senior Lecturer Data Processing Supervisor (Ogbomoso), MCPN 8. Dr. A. O. Afolabi B. Sc. (Ife), M. Tech (Ogbomoso), Ph.D Senior Lecturer 8. Mr. S. O. Onadiran OND Asst. Technical Officer (Ife), MCPN

9. Dr. (Mrs.) A. A. Adigun B. Tech (Ogbomoso), M. Tech Senior Lecturer (Ogbomoso), Ph.D (Ogbomoso), MCPN ADMINISTRATIVE STAFF 10. Dr. O. O. Adeosun B. Tech (Akure), M. Tech (Ogbomoso), Senior Lecturer M.Phil (Ife), Ph.D (Ife), MCPN S/N Names Qualification Status 11. Mr. A. O. Ajayi B. Tech (Ogbomoso), M. Tech Lecturer 1 1. Mrs. V. A. Oyeniyi B. Ed. (Ado Ekiti); NCE (Oyo); Shorthand Senior Confidential (Ogbomoso), MCPN (120 wpm), Typewriting (50 wpm) Secretary 12. Mrs. I. O. Omotosho B. Sc. (Ilorin), M. Tech (Ogbomoso), Lecturer 1 2. Mr. L. A. Akanbi B. Tech. (Ogbomoso), WAEC ‘O’ Level, Principal Data MCPN Certificate in Word Processing and Desktop Management Officer 13. Dr. J. B. Oladosu B. Tech (Ogbomoso), M. Tech (Ibadan), Senior Lecturer Publishing Ph.D (Ogbomoso), MCPN, R. Engr. 3. Mr. A. Ajani ‘O’ Level Certificate Asst. Chief Clerical 14. Dr. W. O. Ismaila B. Tech (Minna), M.Sc. (Akure), Ph.D Senior Lecturer (Akure), MCPN Officer 15. Dr. (Mrs.) O. D. Fenwa B. Tech (Ogbomoso), M. Tech Senior Lecturer 4. Mrs. O. H. Olabode ‘O’ Level Certificate, NCE Certificate Senior Office Assistant (Ogbomoso), Ph.D (Ogbomoso), MCPN 16. Dr. (Mrs.) F. A. Ajala B. Tech (Ogbomoso), M. Tech Senior Lecturer (Ogbomoso), Ph.D (Ogbomoso), MCPN 17. Dr. A. S. Falohun B. Tech (Ogbomoso), M. Tech Senior Lecturer (Ogbomoso), Ph.D (Ogbomoso), MCPN R. Engr. 18. Dr. (Mrs.) A. O. Oke B. Tech (Ogbomoso), M. Tech Senior Lecturer (Ogbomoso), Ph.D (Ogbomoso), MCPN R. Engr. 10 11 21. Dr. C. A. Oyeleye B. Tech (Ogbomoso), MBA (Ogbomoso), M. Lecturer I DEPARTMENT OF ELECTRONIC AND ELECTRICAL Tech (Ogbomoso), Ph.D (Ogbomoso), MCPN ENGINEERING 22. Dr. I. A. Adeyanju B. Tech (Ogbomoso), M. Sc. (U.K), Ph.D Lecturer II Academic Members of Staff (U.K), R. Engr. S/N Name of staff Rank Professional Association Area of 23. Mrs. O. O. Alo B. Tech (Ogbomoso), M. Tech (Ogbomoso), Lecturer I Specialisation MCPN Ag. Head of Ph.D. (Ogbomoso), M.Sc. (Lagos), B. Communication and 24. Mrs. O. M . Alade B. Tech (Ogbomoso), M. Tech (Ogbomoso), Lecturer II 1. Dr. J. A. Ojo Dep artment Tech . (Ogbomoso), MNSE, MIEEE, Signal Processing. MCPN and Senior COREN Registered Engineer 25. Mrs. O. T. Adedeji B. Tech (Ogbomoso), M. Tech (Ogbomoso), Lecturer II Lecturer MCPN Ph.D., M .Eng. (Ilorin), B. Eng Signal Processing 2. Dr. D. O. Aborisade Reader 26. Miss E. A. Adewusi B. Tech (Ogbomoso), M. Tech (Ogbomoso), Lecturer II (Owerri), MNSE, C OREN R egistered and Control System MCPN Engineer. 27. Dr. O. A. Odejobi B.Sc (Ife), M.Sc. (Ife) Ph.D. (U.K.) Associate Lecturer Ph.D. (Ogbomoso), M.Eng., B.Eng. Communication 3. Dr. Z. K. Adeyemo Sen ior (Ilorin), M NSE, MIEEE, C OREN Systems Lecturer TECHNICAL STAFF Registered Engineer S/N FULLNAMES QUALIFICATION DESIGNATION Ph.D. (Ogbomoso), M .Sc. (Lagos), 1. Mr. Z. K. Arowoyele HND (Ife), PGD (Ogbomoso), MCPN Chief Technologist 4. Dr. G. A. Adep oju Sen ior B.Tech (Ogbomoso), MNSE, MIEEE, Power Systems. 2. Mr. S. A. O. Ogirima HND (Ilorin), PGD (Ogbomoso), B.Sc. Chief Technologist Lecturer COREN Registered Engineer (Ilorin) M. Tech (Ogbomoso), MCPN. Ph.D. (Ogbomoso), M.Eng. B.Eng. 5. Dr. G. A. Ajenikoko Sen ior Power Systems 3. Mr. A. O. Afolabi B. Tech (Ogbomoso), PGD (Ogbomoso), M. Senior Programmer (Ilorin), M NSE, MIEEE, C OREN Lecturer Tech (Ogbomoso) Registered Engineer 4. Mr. A. Adeyemi B. Tech. (Ogbomoso) Programmer I M.Eng. B.Eng. (Ilorin), C OREN Communication 6. Osen i, O. F. Lecturer I Systems 5. Mr. K. O. Agboola HND (Ibadan), B. Tech (Ogbomoso), Senior Technologist Registered Engineer MNATE Ph.D. (Ogbomoso), M.Sc. (Ife), Communication 7. Dr. Abolade, R. O. Lecturer 1 B.Tech (Ogbomoso), MNSE, MIEEE, 6. Mrs. F. F. Alabi WAEC, NCE Lab. Assistant Systems COREN Registered Engineer M.Sc. (Lagos), B .Tech (Ogbomoso), ADMINISTRATIVE STAFF Power Systems 8. Okelola, M.O. Lecturer 1 OND (Ibadan), MNSE, MIEE, S/N FULLNAMES QUALIFICATION DESIGNATION COREN Registered Engineer 1. Mrs. C. B. Haastrup WAEC, 120 WPM in Shorthand, Pitman’s Assistant Chief M.Sc. (Lagos), B .Tech (Ogbomoso), College Diploma, Diploma in Word Processing Confidential 9. Adeyemo, I. A. Lecturer 1 Electronic MNSE, MIEEE, C OR EN R egistered and Desktop Publishing. Secretary Engineering Engineer 2. Mrs. V. A. Alabi RSA Stages I and II (Typewriting) – 1988, Open Principal Data M.Sc. (Lagos), B .Tech (Ogbomoso), Grade Test Stage III (Typewriting) – 1995, Management Officer 10. Adegbola, O. A. Lecturer 1 Control Systems MNSE, C OREN Registered Engineer National Examination Council (GCE) – 2005, Ph.D (Malay sia), M.Sc. (Lagos), Certificate in Word Processing and Desktop 11. Dr. Semire, F. A. Lecturer 1 B.Tech (Ogbomoso), MNSE, C OREN Publishing – 2006, Ordinary National Diploma – Communication Registered Engineer Systems 2007. D. Tech. (Pretoria), M.Sc. (Lagos), 3. Mr. A. O. Adekanbi SSCE Supervisor Control and Power 12. Dr. Yusuff, A. A. Lecturer II B.Tech (Ogbomoso), MNSE, MIEEE, Systems 12 13 M.Sc. (Lagos), B.Tech (Ogbomoso), Technical Members of Staff 13. Akanbi, I. A. Lecturer II Communication MNSE, MIEEE, MIEE, COREN Qualification and Membership Systems S/No Name Rank/Designation Registered Engineer of Professional Association 1. Mr. O. O. Ojesanmi Chief Technologist PGD, HND, FTC Agunlejika, M.Sc. (Ife), B.Tech (Ogbomoso), 14. Lecturer II Communication 2. Mr. L. K. Olarewaju Chief Technologist PGD, HND, NIST, Oluwafunmilayo MNSE, MIEEE, MNSE, COREN Systems 3. Mrs. Funmi James Assistant Chief Technologist PGD, HND Registered Engineer 4. Mr. O. A. Oyedokun Assistant Chief Technologist PGD, HND Ph.D (Malaysia), M.Tech., B.Tech 5. Mr. A. T. Adeagbo Principal Technologist PGD, HND 15. Dr. Adeleke, A. O. Communication Lecturer 1 (Ogbomoso), COREN Registered Systems 6. Mr. I. A. Badmus Senior Technologist HND, COREN Registered Engineer 7. Mr. Gabriel Iyanda Principal Technical Officer II B. Tech, MNSE, COREN Assistant M. Tech., B. Tech. (Ogbomoso), OND, Registered 16. Adebayo, I. G. Power Systems Lecturer MNSE, MIEEE. 8. Mr. S.A. Adegoke Senior Technologist PGD, HND 17. Assistant Communication 9. Mr. Taiwo Balogun Technologist I HND Akande, O. A. M. Eng. (Akure), B. Tech. (Ogbomoso). Systems Lecturer 10. Mr. Y. A. Adeyemo Technologist I HND Assistant Communication 11. Mrs. R. A. Lawal Technologist I HND 18. Ojo, F. K. M. Eng. (Akure), B. Tech. (Ogbomoso). Systems. Lecturer 12. Mr. O. A. Balogun Technologist I PGD, HND 13. Mr. S. A. Folorunso Technologist II HND, TRADE TEST

14. Mr. I. A. Oke Technologist II HND Administrative Members of Staff 15. Mrs. V. T. Alabi Technologist II HND 16. Mr. O. O. Akanni Technologist II HND 1. Mrs. O. I. Oyekanmi Senior Confidential Secretary 17. Mr. S. A. Adekeye Technologist II HND 2. Mrs. B. O. Tiamiyu Senior Data Management Officer 18. Mr. A. A. Odeniran Technologist II HND, HTD, OTD 19. Mr. Oladosu Gbenga Technologist II HND, HTD, OTD 3. Mrs. E. F. Falade Senior Office Assistant 20. Mr. N. O. Alade Technologist II HND 21. Mr. A. A. Aderinto Chief Technical Assistant I OND, NCE, Trade Test I, II & III 22. Mr. J. T. Sona Assistant Technologist OND 23. Mrs. S. F. Adeleru Senior Technical Assistant II OND, NCE, Trade Test I, II & III 24. Mr. O. A. Tiamiyu Technical Assistant HND, HTD, OTD 25. Mrs. Akinboyeje L. O. Laboratory Assistant Trade Test I, II & III 26. Mrs. T. A. Adeniran Laboratory Assistant OND, Trade Test I, II & III 27. Mrs. T. Amoo Laboratory Attendant Trade Test I, II & III 28. Mr. A. A. Akinpelu Laboratory Attendant WASC 14 15 DEPARTMENT OF FOOD SCIENCE AND ENGINEERING TECHNICAL STAFF LIST OF STAFF S/N NAME PRESENT STATUS ACADEMIC STAFF 1. Mr. Moses Ayodele Ojo Chief Technologist S/N NAME PRESENT STATUS 1. Dr. (Mrs.) Bolanle Aishat Akinwande Reader/HOD 2. Mrs. Oladoyin Rebecca Ohijeagbon Principal Technologist 2. Prof. Isaac Adebayo Adeyemi Professor 3. Mr. Adekunle Oluwasegun Adeoye Principal Technologist 3. Prof. Ezekiel Tejumola Otunola Professor 4. Mrs. Abigail Oluseye Oladipo Principal Tech. Officer I 4. Prof. Micheal Olusayo Ologunde Professor 5. Miss Olushola Janet Oyedele Senior Technologist 5. Prof. John Oluranti Olajide Professor 6. Mrs. Grace Mosunmola Adegbola Technologist I 6. Prof. (Mrs.) Beatrice Iyabo Olayemi Ade-Omowaye Professor 7. Prof. (Mrs.) Toyosi Yewande Tunde-Akintunde Professor 7. Mrs. Comfort Jumoke Akanfe Technologist I 8. Prof. Omololu Oladele Fapojuwo* Professor 8. Mr. Joseph Olusegun Omotayo Technologist II 9. Dr. Olusegun James Oyelade Reader 9. Mr. Ezekiel Oyekale Oyetunji Technologist II 10. Dr. Emmanuel Adedapo Akande Reader 10. Mr. Adesola Idowu Technologist II 11. Dr. Hameed A. Agboola Senior Lecturer 11. Mr. Adebayo Manase Faleke Technologist II 12. Dr. Moruf Olanrewaju Oke Senior Lecturer 12. Mr. Segun O. Ojo Technologist II 13. Dr. (Mrs.) Elizabeth Oluyemisi Adelakun Lecturer 1 14. Mr. Adekanmi Olusegun Abioye Lecturer 1 13. Mr. Bamiji Amos Ayanbimpe Senior Assistant Technologist 15. Mr. Johnson Akinwumi Adejuyitan Lecturer 1 14. Mrs. Catherin Adebisi Arotiowa Lab. Assistant 16. Mrs. Victoria Funmilayo Abioye Lecturer 1 15. Mr. Isaac Olabisi Ogunyiola Lab. Attendant 17. Mr. Sulaiman Adebisi Olaniyan Lecturer 1 18. Mrs. Bosede Folake Olanipekun Lecturer 1 19. Mrs. Grace Oluwatoyin Ogunlakin Lecturer 1 ADMINISTRATIVE STAFF 20. Mr. Stephen Adeladun Ajala Lecturer 1 S/N NAME PRESENT STATUS 21. Mrs. Grace Oluwakemi Babarinde Lecturer 1 22. Dr. (Mrs.) Islamiyat Folasade Bolarinwa Lecturer 1 1. Mrs. Bello, Asabe Ojuolape Asst. Chief Confidential 23. Mr. James Abiodun Adeyanju Lecturer II Secretary 24. Miss Tawakalit Ayobami Oyadare Assistant Lecturer 2. Mrs. Adisa, Serah Afolake Principal Data Mgt. Officer 25. Mr. Sogo James Olatunde Assistant Lecturer 3. Mrs. Folayowon, Rukiat Olawumi Senior Clerical Officer

*On Contract Appointment 4. Mrs. Fayoyiwa, Iyabo Olubunmi Head Office Assistant

16 17

DEPARTMENT OF MECHANICAL ENGINEERING Technical Staff LIST OF STAFF (Academic Staff) Rank/Designa tion Q ualification, m em bership of No Nam e o f Staff Professional Association 1. Mr. J.A. Ipadeola Ch ief Technologist W AEC Technical Certificate, C & G S/ Name of Staff Rank Qualification and Specialization Membership of N Pro. Association and No of Publication Mech. En grg Technical, Fu ll Tech. Cert. 1 Dr. J.T. Oladeji Senior Lecturer B. Sc.,M.Sc. Ph. D , MNSE, Reg. Engr. COREN in Engineerin g Produ ction, C OREN 2 Prof. E. B. Lucas Professor B.Sc., M .Sc, F.N.S.E, Reg. Engr. COREN R egistered Eng rg Technologist, 3 Dr. K. A. Adebiyi Reader B.Eng., M.Sc., Ph. D., MNSE, Reg. Engr. COREN MNATE 4 Dr. A.S. Senior Lecturer B.Sc., M.Sc., Ph .D, MNIMechE, MNSE, Reg. Engr. PGD in Mechanical Engineerin g Onawumi COREN 2. Mr. S.G. B aba Ch ief Technologist OND Pro ductio n Engin eering, HND 5 Dr. M. O. Senior Lecturer B.Sc., M.Sc., MNSE, Ph .D, MASME, Reg. Engr. Mechanical Engineering, C ert. I.T.P. Durowoju COREN Graduate N.A.T.E., Reg. COREN, PGD 6 Dr. P.O. Okekunle Lecturer I OND, B. Tech B. Sc.,M.Sc. Ph. D , MNSE, Reg. (Mech. Eng),. M.Eng Engr. COREN 3. Mr. A.D. Senior Tech nolo gist PGD Mech anical, Final Dip lom a in 7 Mr. E. O. Lecturer I B. Sc.,M.Sc. Ph. D , MNSE, Reg. Engr. COREN Ogunsola Phy sics with En gineering Pro ductio n, Olafimihan In termediate Diplo ma in SLT, NATE, 8 Mr. L.O. Lecturer I B. Tech.,M.Sc., MNSE, Reg. Engr. COREN Mudasiru M.Tech in Mechanical Engrg. 9 Mr. A.O. Lecturer I B. Tech.,M.Sc., MNSE, MNIMechE, Reg. Engr. 4. Mr. W .O. Sanusi Senior Tech nolo gist PGD Mech anical, Final Dip lom a in Ajayeoba COREN Phy sics with En gineering Pro ductio n, 10 Mr. E.O. Lecturer I B. Tech.,M.Sc., MNSE, Reg. Engr. COREN In termediate Diplo ma in SLT, HND, Sangotayo NATE. 11 Mr. A.A. Lecturer I B. Sc.,M.Sc., MNIMechE , MNSE, Reg. Engr. 5. Mr. A.A. Senior Tech nolo gist HND, Mechanical Eng. Aderibigbe COREN Adeyem o OND, Mechanical Eng 12 Dr. T.B. Asafa Lecturer II B. Tech.,M.Sc. Ph. D , MNSE, Reg. Engr. COREN 6. Mr. H.T. Adedayo Technologist I HND Mech anical 13 Dr. O.S. Olaoye Lecturer I B. Tech.,M.Sc. Ph. D , MNSE, Reg. Engr. COREN C & G Techn ician, H.T.D. Mech. Engrg , 14 Mr. A.A. Lecturer II B. Tech.,M.Sc., MNSE, Reg. Engr. COREN NATE Adekunle 7. Mr. I.A. Oro wole Senior Tech nolo gist ND in Science Lab Technology, WAEC, 15 Mr. A.A. Lecturer II B. Tech., M.Sc., MNSE, Reg. Engr. COREN Adegbola Technical C ity an d Guilds Certificate, 16 Mr. S.O. Adetola Assistant B. Tech., M.Sc., MNSE, Reg. Engr. COREN Trade Test Grade II & III. Federal Craft Lecturer Training Certificate, BSc. 17 Mr. O.R. Oyetunji Assistant B. Tech., M.Sc., MNSE, Reg. Engr. COREN 8. Mr. K. O. Olad osu Technologist II M. Eng , PGD Mechanical , HND, Lecturer Mechanical Eng. , OND, Mechanical 18 Mr. E.O. Itabiyi Assistant B. Tech., M.Sc., MNSE Eng , COREN Registered Engrg Lecturer Techno logist 19 Mr. A.T. Assistant B. Tech., M.Sc., MNSE 9. Mr. Adeyemo T. Higher Tech nical B .Tech . Mechanical, PGD Mech.Engrg. Olasumboye Lecturer Officer 18 19 10. Mr. O.A. Ogunniyi Chief Technical OTD in Mech. Engrg, City Guilds Craft 23. Mr. M.O. Ogunlaran Snr. Technical WASC ‘O’ Level certificate, Labour Assistant Training Certificate, Labour Trade Test II Assistant Trade Test I, II, III, NABTEB. and III, WAEC Technical Examination. 24. Mr. J.O. Ajagbe Snr. Technical Trade Test I, II & III

Assistant 11. Mr. J.B. Fakorede Chief Technical WASC ‘O’, Technical city & Guelds, 25. Mr. M.O. Folorunso Snr. Technical Trade Test III, II & I, NABTEB Officer Cert I&II, Trade Test III,II&I, AMIE Assistant (lond) 12. Mr. G.A. Dada Snr. Laboratory Diploma in Library Studies, Modern III 26. Mr. A. Faleye Senior Technical Primary School Testimonial and Supervisor Certificate, WAEC Result, Senior Sec. Assistant Certificate, Certificate of Apprentices, Cert. Exam. Trade Test I, II, III Certificate of Competence Grade III & 13. Mr. R.A. Jimoh Technologist II HND, OND, OTD, Modern II, Trade Test II III, Cert. of Competence. 27. Mr. I.G. Waheed Laboratory WAEC 14. Mr. M.A. Olopade Chief Technical OND Mechanical, NABTEB Attendant Office Trade Test 1II, II & I

15. Mr. M.A. Akinola Chief Technical OND Mechanical Engrg , WASC O’L, Office Trade Test III, II, I 16. Mr. O.A. Oladayo Chief Technical Secondary Sch. Cert., Trade II, III in Arc Assistant Welding, Fuel Injector Training Cert. NABTEB 17. Mr. K.O. Oke Technologist II OND, Technical city & Guild cert. I&II, Trade Test III, II & I, NABTEB 18. Mr. Azeez Lukman Senior Technical Trade Test II & III, WAEC, NABTEB Assistant II 19. Mr. Adetunji M.O Assistant Technical OND, Federal craft certificate, NABTEB, Officer Trade Test I, II&III 20 Mr. Olanrewaju J.B Assistant Technical OND, NECO Officer 21. Mrs. Alamu K.R Snr. Laboratory School Leaving Certificate, National Assistant Examination Council, NCE 22. Mr. G.G. Snr. Technical Technical cert. NABTEB Adegboye Assistant II Trade test III,II, I 20 21

Administrative Staff DEPARTMENT OF AGRICULTURAL ENGINEERING PHILOSOPHY S/N Name of Staff Rank/Designation Salary Qualification & Date obtained Agricultural Engineering is becoming increasingly important with the growth of agriculture and highly automated methods of operation. Since Scale & Date of First agriculture includes all operations and facilities utilized from the planting of Appointment seed to the packaged processed foods, many challenges await the 1. Mrs. A. T. Adegoke Confidential Secretary II Open Grade Test 120WPM agricultural engineer. (Shorthand), National Diploma in Opportunities abound in Nigeria and in fact the whole of West African sub- Secretarial Studies, Diploma in region for the students who specialize in soil and water conservation engineering. Irrigation, drainage, flood and erosion control, as well as water Computer Training, West African supply all of which require the study of soil mechanics, movement of water Examination Council, Senior through the soil, and design criteria for canals, ditches and dams. Secondary School Certificate The need to replace nomadic technique of cattle rearing with modern day 2. Mrs. B. O. Fasola Senior Typist I Desktop Publishing with Printing rearing of large dairy and beef cattle in feedlots in addition to modernized Technology, Secretarial/Business swine and poultry enterprises has necessitated the automation of feed handling and processing equipment. A knowledge of electric power and subject, Examination, Ordinary, electronic controls is necessary to engineer these complex systems. Intermediate and Advanced The students selecting the power and machinery option later in their career Secondary School Certificate, will learn how to design, operate and maintain machines for conservative Primary Six School Certificate land clearing, automatic harvesting of fruits and vegetables. They will study the power testing of agricultural tractors, hydraulic system, and the effects of 3. Mr. A.O. Oyeleye Caretaker B.Sc. Economics noise and vibrations on the equipment operator. CONTISS 4 Step 6 Associate chartered Economics of 4th October, 1999 Nigeria, AIMS/OBJECTIVES The primary objective of setting up an Agricultural Engineering Certificate in desktop publishing Department is the training of individuals who could combine the knowledge with printing technology of Engineering and basic sciences to solve problems associated with all agricultural operations and facilities utilized from the planting of seed to the packaged processed foods. Specifically, the objectives are: (1) To enable the University offer to all interested students of the University, the technological and engineering phases of agriculture, including agricultural mechanics, power and machinery, processing, soil and water, as well as surveying. (2) To enable the University contribute its quota in the training of manpower needed to support the growth of agriculture through 22 23 highly automated methods of operation which is becoming subjects at the Joint Admissions and Matriculation Board Examinations: increasingly important in our society. English Language, Chemistry, Physics and Mathematics. (3) To create an enabling environment for the University to maintain and manage fleet of agricultural and construction equipment for For Direct Entry, Candidates must have passes in Mathematics Physics and instructional and farm use. Chemistry at G.C.E 'A' Level or equivalent. NCE/OND certificate holders (4) To produce graduates in agricultural engineering with sufficient (Upper Credit) in related disciplines will be admitted provided they satisfy academic background coupled with sufficient practical experience the SSCE requirements. and who are able to rise to the challenges of a developing economy. COURSE CONTENT RATIONALE/JUSTIFICATION COURSE OUTLINE (i) LAUTECH is an institution set up to disseminate knowledge in 100 LEVEL COURSE HARMATTAN SEMESTER the area of Science, Engineering, Technology, Agriculture and Medicine. Since the engineering profession is dedicated to Course Code Course Title Pre. Req. Hours Units L T P meeting challenges as they arise, the prime challenge now is to BIO 101 General Biology I 2 1 0 3 create enabling environment here in LAUTECH where the BIO 103 Experimental Biology 0 1 3 1 education of future agricultural engineers would be part of the CHE 101 General Chemistry I 3 1 0 4 CHE 191 Experimental Chemistry I 0 0 3 1 remarkable contributions the University is currently making to FAA 101 Fundamentals of Drawing 2 0 0 2 the manpower development in Nigeria. GNS 101 Use of English I 2 0 0 2 (ii) Since the importance of the rapidly expanding field of MTH 101 Elementary Mathematics I 4 1 0 5 PHY 101 General Physics I 3 1 0 4 Agriculture in Nigeria, cannot be over emphasized. Effective PHY 103 Experimental Physics I 0 0 3 1 solutions to a major portion of agricultural production, LIB 101 Use of Library 1 0 0 0 processing, storage and numerous marketing problems currently Total Number of Units 23 plaguing our country require the gradually emerging need for increased mechanization and automation, in production, processing, material handling, storage and transportation; the 100 LEVEL RAIN SEMESTER need for greater attention to the engineering aspects of these Course Code Course Title Pre. Req. Hours Units operations has greatly accelerated in recent time. L T P (iii) The University (LAUTECH) admits students through two BIO 102 General Biology II 2 1 0 3 media: (i) Her Pre-degree Science Programme run by the Faculty BIO 104 Experimental Biology II 0 0 3 1 of Pure and Applied Sciences (ii) JAMB. The Department of CHM 102 General Chemistry II 3 1 0 4 CHM 192 Experimental Chemistry II 0 0 3 1 Agricultural Engineering will also admit students through these CSE 100 Introduction to Computer Technology 1 0 0 1 routes. GNS 102 Use of English II 2 0 0 2 GNS 104 Science and Technology in Africa 2 0 0 2 MTH 102 Elementary Mathematics I 4 1 0 5 ADMISSION REQUIREMENT PHY 102 General Physics II 3 1 0 4 Candidates seeking admission into the programme must possess passes at PHY 104 Experimental Physics II 0 0 3 1 credit level in the Senior Secondary School final year examination or GCE '0' Total Number of Units 24 level in English Language, Mathematics, Chemistry, Physics and Biology/Agricultural Science. Candidates must have passed the following 24 25 HARMATTAN SEMESTER 300 LEVEL RAIN SEMESTER 200 LEVEL COURSES Course Code Course Title Pre. Req. Hours Units L T P Course Course Title Pre. Req. Hours Units EEE 332 Engineering Analysis III EEE 234 3 0 0 3 Code L T P MEE 314 Workshop Practice I 2 0 0 2 EEE 201 Basic Electrical Engineering I 3 0 0 3 MEE 316 Engineering Drawing III MEE 204 1 0 3 2 EEE 203 Basic Electrical Engineering Laboratory I 0 0 3 1 MEE 300 Mechanical Maintenance and Repairs 1 0 0 1 EEE 231 Engineering Analysis I 4 0 0 4 AGN 204 Principle of Crop Husbandry 2 0 0 2 MEE 201 Engineering Drawing I 1 0 3 2 AGE 326 Processing & Storage of Agricultural Products 2 0 0 2 MEE 203 Workshop Technology I 1 0 3 2 AGE 318 Agricultural Surveying 2 - 3 3 MEE205 Engineering Material I 3 0 0 3 AGE 344 Agricultural Hydrology 2 0 3 3 MEE 207 Fluid Mechanics Laboratory 0 0 3 1 CVE 308 Soil Mechanics CSE 301 2 0 0 2 MEE 211 Engineering Thermodynamics I 2 0 0 2 GNS 202 Minds Machines and Society 2 0 0 2 MEE 213 Engineering Mechanics 3 0 0 3 Total Number of Units 22 Total Number of Units 21 RAIN SEMESTER 200 LEVEL 400 LEVEL COURSE HARMATTAN SEMESTER Course Course Title Pre. Req. Hours Units Code L T P Course Code Course Title Pre. Req. Hours Units EEE 232 Engineering Analysis II EEE 231 3 0 0 3 L T P MEE 202 Engineering Drawing II MEE 201 1 0 3 2 MGS 201 Technology and Society 1 0 0 1 MEE 204 Workshop Technology II MEE 203 1 0 3 2 CVE 401 Project methodology 2 0 0 2 MEE206 Mechanics of Machines I 2 0 0 2 AGE 407 Hydraulic Engineering I 2 0 3 3 MEE 208 Engineering Material II MEE 205 2 0 0 2 AGE 411 Irrigation Engineering I 2 0 0 2 AGE 413 Agricultural Power I 2 0 0 2 MEE 210 Engineering Materials Lab I 0 0 3 1 AGE 415 Agricultural Machinery I 2 0 0 2 MEE 212 Engineering Thermodynamics II MEE 211 2 0 0 2 AGE 417 Farm Structures and Environmental Control 3 0 0 3 MEE 214 Strength of Material I MEE 213 2 0 0 2 AGE 421 Farm Electrification 3 0 0 3 MEE 216 Strength of Material Lab. I 0 0 3 1 EEE 401 Electrical Repair & Maintenance 1 0 0 1 AGE 200 Introduction to Agricultural Engineering 1 0 3 2 Total Number of Units 19 Total Number of Units 19 HARMATTAN SEMESTER 300 LEVEL COURSE 400 LEVEL COURSE RAIN SEMESTER / LONG VACATION Course Course Title Pre. Req. Hours Units STUDENT INDUSTRIAL WORK EXPERIENCE SCHEME (SIWES) – 4UNITS Code L T P PLAN FOR 500 LEVEL COURSE HARMATTAN SEMESTER CSE 201 Basic Computer Programming 2 0 3 3 AGE 313 Agric Mechanization 1 0 3 2 Course Code Course Title Pr e. Req. Hours Units APH 203 Animal Husbandry 2 0 0 2 L T P CSE 331 Engineering Statistics 2 1 0 3 MGS 511 Industrial Economics 2 0 0 2 MEE 321 Strength of Materials II MEE 214 2 1 0 3 MGS 513 Principles of Management 1 0 0 1 MEE 323 Machine Design I MEE 204 2 1 0 2 MGS 515 Principles of Accounting 1 0 0 1 MEE 391 Metallurgy MEE 208 2 0 0 2 AGE 521 Design of agricultural Machinery 2 0 0 2 AGN 303 Soil Pedology: Classification and Physics 1 0 3 2 Department Electives 8 CVE 301 Engineering Geology 2 0 3 3 AGE 591 Assigned Project I 1 0 6 3 GNS 207 Science in History (Bio-Historical Approach) 2 0 0 2 CHE 519 Inventions and Patents 2 0 0 2 Total Number of Units 24 Total Number of Units 19

26 27 DESCRIPTION OF COURSES RAIN SEMESTER 500 LEVEL AGE 200 – Introduction to Agricultural Engineering (1 Unit) Course Code Course Title Pre. Req. Hours Units Professional opportunities in Agricultural Engineering. Introduction to L T P various fields of engineering Practices with special emphasis on Agricultural MGS 500 Technology, Policy and Law 2 0 0 2 Engineering. Roles of Agricultural Engineering in the development of AGE 508 Soil and Water Conservation 3 0 0 3 Nigeria. Kaleidoscope of Farm Tractors and implements Tractor Driving. Departmental Electives 8 AGE 592 Assigned Project II 1 0 6 3 Faculty Electives 2 AGE 313 – Agricultural Mechanization (2 Units) Total Number of Units 18 Agricultural Mechanization concepts. Framework, meaning and classification of agricultural mechanization in Nigeria. Analysis of DEPARTMENTAL ELECTIVES production systems. Case studies of selected farms. 30h (T); C. 500 LEVEL (LIST OF COURSES) HARMATTAN SEMESTER Course Code Course T itle Pre. Req. Hours Units AGE 326 – Drying of Agricultural Materials (2 Units) L T P Principle of moisture movement and removal from fruits, vegetables, hays, AGE 501 Special Problems in Agricultural 2 0 0 2 and grains. Freeze drying, vacuum drying and dehydrofrigidation. Moisture Engineering content and moisture determination methods equilibrium moisture content. AGE 503 Farm Transportation 2 0 0 2 AGE 511 Agricultural Power II AGE 413 2 0 0 2 Drying processes, Heat and Mass Balance. Dryer types and Drying AGE 513 Operation and Management of Farm Power 2 0 0 2 procedures. Heat and mass transfer. and Machinery System PR. EEE 332 AGE 523 Agricultural Land Drainage 2 0 0 2 AGE 531 Rural Water Supply and Sanitation 2 0 0 2 AGE 541 Design and Analysis of Storage Systems 2 0 0 2 AGE 328 – Agricultural Surveying (3 Units) AGE 533 Engineering Properties and Handling of 2 0 0 2 Introduction and definitions. Measurement of horizontal distances. Agricultural Materials Leveling. Random errors. Direction of lines and measurement of angles. DEPARTMENT ELECTIVES Traverse surveys. Triangulation. Topographic surveys. Theodolite 500 LEVEL (LIST OF COURSES) RAIN SEMESTER traversing. Plane table surveying. Stadia measurements. Land Shaping and Course Code Course Title Pre. Req. Hours Units earthwork. Water leveling. L T P 30h (T); 45 (P); C. AGE 512 Agricultural Machinery II AGE 415 4 0 0 4 AGE 514 Design of Agricultural Machinery 2 0 0 2 AGE 344 – Agricultural Hydrology (3 Units) AGE 522 Hydraulics II AGE 407 4 0 0 4 AGE 524 Irrigation Engineering II AGE 411 4 0 0 4 Components of the hydrologic cycle. Solar and earth radiation. AGE 532 Design of Irrigation Water Management and Soil 2 0 0 2 Precipitation. Evaporation. Infiltration. Rainfall – run off over agricultural Conservation Structures land. Stream gauging. Hydrographs. Stream flow routing. Groundwater AGE 534 Processing and Storage of Agricultural Products 2 0 0 2 hydraulics. Watershed management. Flood control. AGE 541 Design and Analysis of Storage Systems 2 0 0 2 AGE 542 Solar Energy Application to Processing and Storage 2 0 0 2 APH 203 General Animal Husbandry (2 Units) FACULTY ELECTIVE Man and the history and development of animal in agriculture. Common breeds of Cattle, Sheep, Goats, Pigs, Poultry and Rabbit and General Course Code Course Title Pre. Req. Hours Units principle of their husbandry including housing, record keeping, feeding L T P breeding and health management processing and marketing and animal AGE 544 Food Engineering 2 0 0 2 products.

28 29 AGN 204 – Principles of Crop Husbandry (2 Units) of crop production equipment. Machinery test procedures. Test Codes. Crop production and its development. The principles, problems and Research and development trends in agricultural machinery industry. prospects of crops production. Importance of crop rotation, cultural practices, water and soil conservation, irrigation and drainage. General types AGE 417 – Farm Structures and Environmental Control (3 Units) and characteristics of arthropods, micro-organisms and other pest affecting Analysis of farm structures existing in Nigeria. Environmental and crops. Weeds and their effect on crop production. Pest disease and weed structural requirements of crops and livestock. Design of structural members. Specifications, selection and handling of farm building control. Basic mendelian genetics. Principles of crop production, harvesting, materials. Bill of quantity and economic considerations. Farm stead processing and storage. Soil forming rocks and minerals, weathering of rocks Planning and layout. and minerals, factors and processes of soil formation, soil morphological 45h (T); C. characteristics, profile description. Soil profile approaches to soil classification Bulk density, particle size analysis, soil structure, aggregate AGE 421 – Farm Electrification (3 Units) stability, porosity, soil water relations. Infiltration – PF curve, infiltration Electrical Codes, tariffs and regulations. Electrical power transmission and rate, soil and the hydraulic cycle. farm stead planning. Testing procedures. Power factor corrections. Selection and use of electric motors. Transformers. Energy conversion. AGE 407 – Hydraulic Engineering I (3 Units) Application of electricity to handling processing and storage of agricultural Fluid properties: pressure, density, viscosity, equation of state, fluid statics; products. Basic electronic applications to farm electrical processes. pressure variation; hydrostatic forces, buoyancy, stability of bodies. Fluid 45h (T); PR EEE 308; C. motion: momentum, Bernoulli and energy equations. Engineering applications. Laminar and turbulent flows. Reynolds number. Dimensional AGE 501 – Special Problems in Agricultural Engineering (2 Units) Independent Study within the context of the student's chosen option analysis and similitude. bordering on the application of appropriate technology for solving specific 30h (T); 45h(P); PR: MEE 207 agricultural engineering problems. 39h (T);

AGE 411 – Irrigation Engineering I (2 Units) AGE 503 – Farm Transportation Basic equation of flow important to irrigation. Design of open channels: Farm roads, Farm transportation system. Development and construction of Nonerodible, Erodible, and grassed, channels. Water flow measurement. farm transport equipment. Farm transport systems standards and Pumping power requirements and pump efficiency. Windmill for pumping specifications. Ergonomics. 30 h (T); water. Water requirements. Frequency and amount of irrigation method of irrigation. AGE 508 – Soil and Water Conservation (3 Units) 30h (T); PR; MEE 207 Definition and historical background. Soil and water conservation development in Nigeria. Types of erosion. Soil erosion by water. AGE 413 – Agricultural Power I (2 Units) Universal soil loss equation. Soil erosion by wind. Control of soil erosion Analytical study of farm power sources. Historical development, design, use by water. Design of control structures. Earth dams and farm ponds. Economics and legislative principles of soil conservation and maintenance of agricultural tractors. Tractor systems, criteria for 45h (T); PR: C. selection, use and maintenance of other power sources. 30h (T); C. AGE 511 – Agricultural Land Clearing and Development (2 Units) AGE 415 – Agricultural Machinery I (2 Units) Land resources and land use. Act in relation to Nigerian agriculture. Classification of farm equipment and field operations. Force analysis and Objectives, methods and equipment for land clearing and development power measurements on typical tillage tools. Field performance evaluation Machinery selection, mechanics of operation and vegetation types. 30 31 Performance criteria. Economics of land clearing. Machinery maintenance and flumes. Pumps and turbines. procedures. Site studies. 30h (T); PR: AGE 407. 30h (T); C. AGE 523 – Agricultural Land Drainage (2 Units) AGE 512 – Agricultural Power II (2 Units) Introduction: Purpose of drainage, causes of drainage problems; effect of poor drainage on plants and soils; drainage requirements of crops. Surface Review of prime movers and power trends in Nigeria agriculture. Hitches drainage systems. Subsurface drainage. Design of drainage systems. and hitch systems. Tractor power outlets. Designs considerations of single- Envelope materials and their design. Loads on conduits. Drainage axle, two – wheel drive and crawler tractors. Tractor mechanics. Power pumping. Well of drains. Economic and legal aspect of drainage. measurements. Fluid controls. Ergonomic considerations. Tractor testing 30h (T); PR: and test codes. 30h (T); PR; AGE 411 AGE 524 – Irrigation Engineering II (4 Units) Design of irrigation systems: Basin, furrow, level and graded border, AGE 512 – Agricultural Machinery II (4 Units) sprinkler, drip etc. evaluating irrigation systems and practices. Irrigation Design, operation and maintenance procedures for crop harvesting machines, water scheduling. Seepage from canals and canal living. Salinity and quality of irrigation water. Reclamation of saline and alkali soils. Machinery selection in relation to size of enterprise. Field evaluation, cost Feasibility studies of an irrigation project. Economic and financial estimation and criteria for replacement. Soil machine interactions and soil feasibility of a farm irrigation system. Design of an irrigation project. compaction. Test procedures. Stand and size specifications. Review of trends in research and development. 30h (T); PR; AGE 412 AGE 531 – Rural Water Supply and Sanitation (2 Units) Water requirements. Water quality standards. Water bone diseases. AGE 513 – Operation and Management of Farms Power and Machinery Biochemical oxygen demand. Portable water impurities. Sources and System (2 Units) treatment method of water for rural hones. Water lifting devices. Integrated approach to machinery usage and agricultural production Transportation and distribution systems. Pipe sizes waste disposal in rural sequences, equipment selections and scheduling of operations, seasonally communities. Collection, convenance, treatment and disposal of sewage from rural homes, septic tanks, digestion ponds and family privies. factors. Machinery analysis. Optimization of machinery input 30h (T); PR: AGE 407 combinations. Management of farm enterprise. Case study of typical production systems. 30h (T); PR; AGE 419 AGE 532 – Design of Irrigation Water Management and Soil Conservation Structures (2 Units) AGE 514 – Design of Agricultural Machinery (2 Units) Factors affecting efficient farm water management. Review of hydraulic Review of recent developments in agricultural machinery design and theories relevant of the design of water management structures. Design of agricultural mechanization. Analysis and design of agricultural machine irrigation structures (water measuring structures. Water dividing structures, elements and mechanisms. Materials selections. Strength factors in design. etc). design of soil conservation structures. Cost analysis of typical designs. Role of government and 30h (T); PR; AGE 411. commercial/Industrial concerns in the development of agricultural AGE 533 – Engineering Properties and Handling of Agricultural machinery.30h (T); PR: Materials (2 Units) AGE 522 – Hydraulic II (2 Units) Properties and characteristics of agricultural materials in relation to their Pipe in parallel and in series. Water hammer. Branched pipes simple pipe handling. Materials cleaning, sorting and grading techniques. Handling network. Hardy Cross method of water distribution. Open channel flow. methods. Design consideration and construction of appropriate materials Channel transitions and control. Hydraulic jump. Backwater curves Weirs handling equipment for tropical products. Economics of materials handling. 32 33 30h (T); PR; AGE 326 CHEMICAL ENGINEERING DEPARTMENT PHILOSOPHY AND OBJECTIVES OF THE DEPARTMENT AGE 534 – Processing and Storage of Agricultural Products (2 Units) Processing techniques. Factors influencing quality of agricultural Our mission is to develop high quality programmes of teaching and products. Moisture in crops Equilibrium moisture content. Psychometric research that will enable our students to play leading roles in the chart and its applications. Theory and methods of crop drying. Storage of chemical, biochemical, materials and environmental industries and to educate future generations of our discipline. Recognizing the nature of Tropical crops. Crop conditioning and quality control. Economic our society and the drive towards self sustaining technological considerations. 30h (T); PR; AGE 533. advancement, at the undergraduate level, our main objective is to provide our students with a solid education and the analytical skills necessary to AGE 541 – Design and Analysis of Storage Systems (2 Units) address modern problems in their field with technical competence and social responsibility. This we hope to achieve through academic Review of indigenous and modern crop storage systems. Design of suitable programme seeking to address the following: storage systems for tropical crops. Storage facilities distribution criteria. ·Development and utilization of solid mineral resources which are Economic analysis of storage systems. Statistical and computer aided abundant in our nation. approach to the development of storage for tropical crops. ·Development and utilization of diverse energy sources and 30h (T); integration of energy related issues. ·Development of process techniques AGE 542 – Solar Energy Application to Processing and Storage (2 ·Integration of information, communication and Technology (ICT) into Process Engineering and Technology Units) ·Development of Computer Aided Process Engineering and Design. Overview of solar energy thermal systems, solar heating and cooling ·Developing University –Industry collaborative research. fundamental of solar radiation. Heat transfer and principle of solar Our educational training covers the areas of specialization like collectors. Solar heat storage systems for tropical crops. Solar energy Biochemical Engineering, Environmental Engineering, Thermodynamics, conversion efficiency. Cost analysis of solar applications. 30h (t); PR: Heat and Mass Transfer, Petrochemical/Petroleum Engineering, Reaction Engineering, Unit Operations, Process Economics and Design, Process Control and Optimisation, Polymer Engineering. AGE 591 – Assigned Project 1 (3 Units) Original individual student project to a proscribed Agricultural Engineering ADMISSION REQUIREMENTS problem involving literature review, identification, definition and (a) UME Candidates The minimum requirements for admission to courses leading to B. formulation of the problem, theoretical investigations, modeling, simulation Tech. Degree in the Department of Chemical Engineering are those analysis and design. for entry into the Faculty of Technology. Candidates are required to 15h (T); 180h (P): C have a minimum of credits in five subjects at the SSCE or WASC or AGE 592 – Assigned Project 2 (3 Units) NECO level or GCE 'O' Level including Mathematics, Physics Second phase of project investigations involving the fabrication of the Chemistry and English Language. Such candidate must designed model, debugging, calibration, testing, data collection and analysis meet the JAMB cut –off mark for such admission period. and presentation of a comprehensive written report of the investigations. (b) Pre-Degree Candidates: 15h (T): 180 (P): C. The requirement is as that of the UME candidate above. © Direct Entry Candidate Candidates are required to have good passes at Advanced Level of AGE 544 - Food Engineering (2units) Definition, heat and mass transfer, GCE (or equivalent) in Physics, Chemistry, Pure Mathematics or insulation. Heat exchanger - design and applications. Heat and cold Applied Mathematics or the combined pure and applied Mathematics, preservation of Foods. Food packaging, Food quality control principles and or approved equivalent qualifications (such as OND Upper Credit). design of food equipment. HND Upper Credit holders may be admitted to part III of the five 34 35 year undergraduate programme. Such candidates are also expected to 200 LEVEL HARMATTAN SEMESTER have minimum of credit pass in the five O Level science subjects as required by the Faculty. (d) Inter/Intra School Admission This type of admission is into 200 level. Candidates from recognized Course Course Title Prerequisite L T P Units institutions may be allowed to transfer to 200 level provided they Code have relevant qualification as judged by the Department and their EEE 231 Engineering Analysis I MTH 101 4 1 0 4 exit from such school should not be on disciplinary action. CHM 231 Basic Physical/Inorganic CHM 101 3 1 0 4 However, candidates transferring within the school are expected to have passed all their 100level courses before they can be considered Chemistry (i. e. no CSO).They are also expected to meet the departmental CHM 291 Experimental - 0 0 3 1 requirements for such session. Physical/Inorganic Chemistry COURSES OUTLINE MEE 201 Engineering Drawing I - 1 0 3 2 100 LEVEL HARMATTAN SEMESTER MEE 203 Workshop Technology I - 1 0 3 2 Course Course Title Prerequisite L T P Units MEE 211 Engineering - 2 1 0 3 Code Thermodynamics I MTH 101 Mathematical Methods I - 4 1 0 5 MEE 213 Engineering Mechanics - 2 1 0 3 PHY 101 General Physics I - 3 1 0 4 MGS 201 Technology and Society - 1 0 0 1 PHY 103 Experimental Physics I - 0 0 3 1 GNS 209 Citizenship Education - 2 0 0 2 CHM 101 General Chemistry I - 3 1 0 4 CHM 191 Experimental Chemistry I - 0 0 3 BIO 101 General Biology I - 3 0 0 3 Total 22 BIO 103 Experimental Biology I - 0 0 3 1 GNS 101 Use of English I - 2 0 0 2 FAA 101 Fundamental of Drawing - 2 0 0 2 200 LEVEL RAIN SEMESTER LIB 101 Use of Library - 1 0 0 0 Total 23 Course Course Title Prerequisite L T P Units

100 LEVEL RAIN SEMESTER Code Course Course Title Prerequisite L T P Units EEE 232 Engineering Analysis I MTH 102 2 1 0 3 Code MEE 202 Engineering Drawing II MEE 201 1 0 3 2 MTH 102 Mathematical Methods II - 4 1 0 5 MEE 204 Workshop Technology II MEE 203 1 0 3 2 PHY 102 General Physics II - 3 1 0 4 MEE 212 Engineering MEE 211 2 0 0 2 PHY 104 Experimental Physics II - 0 0 3 1 Thermodynamics II CHM 102 General Chemistry II - 3 1 0 4 CHM 232 Basic Organic Chemistry CHM 102 3 1 0 4 CHM 192 Experimental Chemistry II - 0 0 3 1 CHM 292 Experimental Organic - 0 0 3 1 BIO 101 General Biology I - 3 0 0 3 Chemistry BIO 102 General Biology II - 0 0 3 1 EEE 200 Applied Electricity - 2 1 0 3 GNS 102 Use of English II 2 0 0 2 - EEE 202 Applied Electricity - 0 0 3 1 GNS 104 Science and Technology in - 2 0 0 2 Laboratory Africa through the Ages CSE 100 Introduction to Computer - 1 0 0 1 CHE 200 Chemical Engineering - 2 0 0 2 Technology Process Analysis I Total 24 TOTAL 22

36 37 300 LEVEL HARMATTAN SEMESTER 400 LEVEL RAIN SEMESTER Course Course Title Prerequisite L T P Units Code FET 400 - SIWES - Rain Semester CSE 201 Basic Computer Programme CSE 100 2 0 3 3 SWEP III - Long Vacation MEE 205 Engineering Materials I - 2 0 0 2 GNS 207 Science in History Bio- - 2 0 0 2 500 LEVEL HARMATTAN SEMESTER Historical Approach CHE 301 Separation I (Particulate System) - 2 1 0 3 CHE 303 Transport Phenomena I - 2 1 0 3 Course Course Title Prerequisite L T P Units CHE 305 Reaction Kinetics CHM 231 2 1 0 3 Code CSE 331 Engineering Statistics - 2 1 0 3 CHE 501 Chemical Process - 3 1 0 4 Total 19 Dynamics and Control 300 LEVEL RAIN SEMESTER CHE 503 Process Design I CHE 411 2 0 0 2 C o ur se C ourse Tit le Pr er equisite L T P U nits CHE 507 Assigned Project I - 0 0 6 2 C o de M E E 208 Eng ine ering M ate rials I I M EE 205 2 0 0 2 CHE 509 Process Optimization - 2 1 0 3 M E E 210 Eng ine ering M ate rials - 0 0 3 1 CHE 505 Transport Phenomena IV CHE 304 2 1 0 3 La bora tor y M E E 214 Stre ngth of M a te ria ls - 2 0 0 2 (Separation III) M E E 300 M ec ha nic al M ainte na nce - 0 0 3 1 CHE 519 Inventions and Patients - 2 0 0 2 and Re pairs MGS 511 Industrial Economics - 2 0 0 2 M E E 332 Eng ine ering A n alysis III - 2 1 0 3 C H E 30 4 Sepa ra tio n II 2 1 0 3 MGS 513 Principles of Management - 1 0 0 1 C H E 30 6 Che mica l E ngine ering - 0 0 6 2 MGS 515 Principle of Accounting - 1 0 0 1 La bora tor y II C H E 30 8 Tra nsport Phe nom ena II CH E 3 03 2 0 0 2 Departmental Elective - 2 0 0 2 C H E 31 0 Che mica l E ngine ering CH E 2 00 2 0 0 2 TOTAL 22 Proc ess A nalysis II Tota l 2 0 400 LEVEL HARMATTAN SEMESTER C o ur se C ourse Tit le Pr er equisite L T P U nits 500 LEVEL RAIN SEMESTER C o de C H E 40 1 Che mica l R ea ction CH E 3 05 4 1 0 4 Course Course Title Prerequisite L T P Units Eng ine ering Code C H E 40 3 Tra nsport Phe nom eno n III CH E 3 08 3 1 0 4 CHE 502 Industrial Chemical - 2 1 0 3 (H ea t T ra nsfer O pera tions) CHE 504 Operation and CHE 503 0 0 9 3 C H E 40 5 Che mica l E ngine ering 0 0 6 2 Management Process La bora tor y III Design II C H E 40 7 Basic Biotec hnology - 2 1 0 3 CHE 506 Industrial Hazards and - 2 0 0 2 C H E 40 9 Che mica l E ngine ering M EE 212 2 0 0 2 Environmental Pollution Th erm odyna m ic s III CHE 508 Assigned Project II CHE 507 0 0 6 2 C H E 41 1 Prin cip le s o f Pla nt De sign - 3 0 0 3 MGS 540 Technology Policy and - 2 1 0 3 I Law C H E 41 3 Che mica l E ngine ering EE E 3 32 2 1 0 3 Departmental and Faculty - 4 0 0 4 A nalysis III Electives C V E 4 01 Project M ethod olo gy - 2 1 0 2 TOTAL 17

Tota l 21 38 39 ELECTIVES CHE 301 - Separation I (3,0) Stroke's and Newton's Laws, Flow in particle beds. Characteristics of HARMATTAN SEMESTER packed columns. Estimation of fluidization point and bed expansion. Course Course Title Prerequisite L T P Units Code Regions of fluidisation pressure drop, heat and mass transfer in fluidized (A) DEPARTMENTAL beds. Sedimentation, flocculation, particle properties, filtration, screening CHE 511 Petroleum Production - 2 0 0 2 and classification, grinding, centrifuging and electrostatic precipitation. and Refining CHE 513 Introduction to Polymer - 2 0 0 2 CHE 302 - Chemical Engineering Laboratory I (0,2) Engineering Distribution Coefficient cooling tower Sedimentation. Fluid flow in packed CHE 515 Pulp and Paper 2 0 0 2 columns Flow Measuring Apparatus. Technology CHE 517 Sugar Technology 2 0 0 2 (B) FACULTY CHE 303 - Transport Phenomena I (3,0) MEE 500 Engineering 2 0 0 2 Units and dimensions. Properties of fluid momentum and energy equations. Risk/Benefit Analysis Vortex motion in liquids. Friction. Types of low. Flow in open channels. CHE 519 Inventions and Patients 2 0 0 2 Dimensional Analysis. Flow measurement devices. Pumps, Compressors, CSE 500 Computer Models of Valves and Piping. Physical and Engineering Systems CHE 304 - Separation II (0,3) RAIN SEMESTER Physical properties of importance of Separation process. Stage wise Course Course Title Prerequisite L T P Units exchange and Equilibrium stages. Leaching Extraction with Immiscible Code Solvents. Binary Distillation. Continuous contact columns, NTU and (A) DEPARTM ENTAL HTU. Application to Isothermal Gas Absorption. Packed and Plate CHE 510 Biochemical Engineering 2 0 0 2 columns. Hydrodynamic limitation and performance data. CHE 512 Petrochemicals 2 0 0 2 CHE 514 Polymer Processing 2 0 0 2 CHE 305 - Reaction Kinetics (3,0) (B) FACULTY General principles of experimental techniques. Homogeneous reactions. FSE 500 Elements of Food 2 0 0 2 Processing and Interpretation of kinetic data. Homogeneous catalysis. Chain reactions. Preservation Photochemistry Absorption of gases on solids. Kinetics of heterogeneous MGS 500 Entrepreneurship 2 0 0 2 and catalytic reactions. Principle of surface chemistry Application to gas CVE 500 Elements of Civil 2 0 0 2 chromatography, detergency, emulsion, settings, froth flotation of minerals Engineering EEE 500 Electrical Installation 2 0 0 2 Lyophilic and hypnotic colloids. PRE – CHM 231

DESCRIPTION OF COURSES CHE 306 -Chemical Engineering Laboratory II (0,2) Fluid circuit system, specification in a batch reaction, vortex tube, fluid CHE 200 - Chemical Engineering Process Analysis I particle system, Double pipe heat exchange. Introduction to Chemical Engineering Unit Operations and auxiliary CHE 308 -Transport Phenomena II (0,2) facilities. The basic equation of process industries. The principles of Compressible flow: Normal short waves, flow in pipes and nozzles. conservation of energy and matter applied to Industrial Processes. Chemical Cooling Tower Design: psychometric charts, estimation of tower heights, Engineering Process flow charts and process symbols. humidifying tower. Drying: Drying mechanisms, estimation of drying 40 41 periods, description and function of industrial drying. Conduction: The molar quantities, Gaseous and liquid non-reactive multi-component Fourier equation and application to composites, cylinders and sphere. systems. Chemical equilibria – multicomponents, multiphase systems. Analytical and numerical solutions of steady and unsteady state conduction Phase transitions. PRE – MEE 212 equations. PRE – CHE 303 CHE 411 - Principles of Plant Design (3,0) CHE 310 - Chemical Engineering Analysis II (0,2) Process Design Principles, flow sheets, chemical Engineering Design of The use of various forms of thermo chemical, Chemical Kinetic and physical Mass and Heat Transfer Equipment (Plate columns, absorption towers, data. Use of various forms of plotting data (ternary diagrams, log-log, semi- distillation columns, heat exchangers, evaporators etc). Mechanical Design log, etc) of energy and matter conservation. PRE-CHE 200 of Equipments – Pressure vessels, columns, storage tanks, heat exchanger, etc. piping and instrumentation. Costing and Project Evaluation CHE 401 - Chemical Reaction Engineering (4,0) Classification and types of reasons. Methods of operation and design CHE 413 -Chemical Engineering Analysis III (3,0) equations. Temperature stability. Optimization of yield. Departures from Use of Mathematical Tools for the Analysis of Chemical Engineering plug, mixing and RTD. Fluid-solid reaction mass transfer and reaction in Operations. Process Modelling and Dynamic Analysis. Statistical Test. porous solids. Fixed and fluidized reactor design. Catalyst deactivation. Regression Design of experiments. PRE – EEE 332 PRE – CHE 305 CHE 501 -Process Dynamics and Control (4,0) CHE 403 - Transport Phenomena III (Heat Transfer Operations (4,0) Review of Mathematical concepts )Laplace Transform Process Dynamics (Linear lumped and distributed parameter systems, non-linear system). Mass transfer: Fick's law, diffusion in stationary media, additivity of Feedback control and experimental cases studies. Introduction to Computer resistances, diffusion of vapours. Convention: Principles of free and forced Control. convection. Determination of film transfer coefficients. Heat exchanger design. General diffusion and convection equations Navier-Stokes equation, CHE 502 - Industrial Chemical Operations and Management (0,3) problems formation and solution. Radiation: Mechanism of radiative heat Process Calculation on Management of materials and energy – integration of transfer, shape factors, heat exchange between radiating surface, is radiating processing steps and equipment on practice. Encyclopaedic Review of the networks.Boiling and Condensation: Different phase of boiling, heat transfer Manufacturing Process of various heavy chemical and intermediates. These coefficient, condensation number, boiler design. PRE – CHE 308 include sulphuric, hydrochloric and nitric acids, ammonia, caustic soda and potash, soaps and detergents, petrochemical, fertilizers, cement, pulp and CHE 405 - Chemical Engineering Laboratory III (2,0) paper, industrial fermentation processes and metal ore processing. Laboratory experiments designed to teach basic and advanced laboratory techniques and practices in Chemical Engineering. Design of experiments. CHE 503 - Chemical Engineering Process Design I (2,0) Errors in measurement of experimental results. Selected experiments in Heat A design problem involving the study of process. Preparation of flow sheets, Transfer, Mass Transfer, and Chemical Reaction. Engineering Biochemical heat and materials/mass balances and detailed design of some plant items. Engineering, Process Dynamics and control. Economics and safety considerations must be stressed. PRE – CHE 411 CHE 407 - Basic Biotechnology (4,0) CHE 504 -Chemical Engineering Process Design II (0,2) Aspects of Microbiology and Biochemistry of interest to fermentation and This is a continuation of CHE 503. PRE – CHE 503 food industries. Classification and growth characteristics of micro organisms. Physico- chemical properties of biological compound. CHE 505 - Transport Phenomena IV (Separation III) (3,0) Metabolism and Biochemical Kinetics. Boundary layer theory. Turbulence. Penetration theorises. Application of CHE 409 - Chemical Engineering Thermodynamics III (2,0) Mass Transfer Principles to Multicomponent Separation Process (Solvent The Euler Equation, Gibbs – Duhem Equation. Phase Equilibria, Partial extraction, distillation of multicomponent mixtures, extractive and 42 43 azeotropic distillation, crystallization, etc). PRE - CHE 304. molecular weight measurements, configuration and conformation, transition temperatures, solid state properties, dynamics mechanical testing. CHE 506 - Industrial Hazards and Environmental Pollution (0,2) Rubber elasticity, Rheology, Polymer Processing. Gaseous, liquid and solid pollution: Measurement air pollution control, water pollution control, solid water control. Design and objectives of pollution CHE 514 - Polymer Processing (0.2) control system. Cases studies, waste recycling. Continuous processes: Calendaring, Single-Screw extrusion, flow in dies, fibre spinning, film costing, and film blowing. CHE 507 - Chemical Engineering Assigned Project I (2,0) Cyclic Operations: Infection moldings, Blow moulding, structural foam Individual assigned projects under the supervision of an academic staff, moulding, structural wets moulding. projects should focus on national and state industrial problems. CHE 515 - Pulp and Paper Technology (2,0) CHE 508 - Chemical Engineering Assigned Project II (0,2) Structural, physical and chemical properties of raw materials for the A continuation of CHE 507 industry. Preparation of pulpwood. Mechanical, semi-chemical, chemical- mechanical, sulphite, sulphite/Kraft pulping processes. Recovery processes CHE 509 - Process Optimization (0,3) of energy and chemicals from pulping processes residuals. Bleaching of A Chemical Engineering Treatment of the popular forms of the calculus of pulps and stock preparation. Paper making and finishing operations. Variations, Maximum Principles, Dynamics Programming. Optimization of Economics and ecological aspects of paper manufacture. staged System, Optimum Seeking Methods. Network Analysis and Queuing Theory. CHE 517 - Sugar Technology (2,0) Description of equipment and consideration of the operation involved in CHE 510 - Biochemical Engineering (0,2) the manufacture of refined sugar from came. Methods of solving processing problems imposed by both physical and biological factors in food industries. Theory and design of microbial culture CHE 519 - Inventions and Patients (2,0) process in the manufacture of pharmaceuticals, commercial enzymes, Discoveries, inventions and their contributions to Development. The alcoholic beverages and biological waste treatment. Background History of Inventions and their Economic impacts on World- wide development. Examples of inventions in various field of Technology, CHE 511 - Petroleum Production and Refining (2,0) Management, Socio-economic and Political systems. Patents and Need for Origin of oil and gas. Oil exploration, drilling and production. Chemistry Patency. Procedure to obtain the various types of cover. Rights and and physics of petroleum, crude oil and gas processing. Catalytic processes. Trademarks interferences. Breaches of Patient Rights – the Legal Angle. Heavy oil processing, oil blowing, chemical feed stocks. Patency in Developing Economics. CHE 512 - Petroleum Science and Technology (0,2) The oil industry and its relevance to the petrochemical industry. The non-oil fossil fuels and their relevance to the petro-chemical industry. Petrochemical precursors, socio-economics, socio-political and geographical implication of the petrochemical industry. Planning petrochemical industries for a developing country CHE 513 - Introduction to Polymer Engineering (2,0) Polymer chemistry and polymerization systems. Polymer characterization,

44 45 DEPARTMENT OF CIVIL ENGINEERING JME subjects shall be Use of English, Mathematics, Physics and Chemistry. OBJECTIVES Civil Engineering is one of the oldest engineering disciplines and (b) Pre-Degree Candidates has had a long and distinguished history as a people – serving profession in which facilities that are used everyday by everyone are planned, Candidates must score a minimum of 250 marks in the final designed and constructed. Such facilities include, but not limited to examination to qualify for admission. Where a candidate score less than buildings and bridges, water collection appurtenances, treatment and 50 marks in a subject, he/she must pass it at credit level in S.S.C.E., distribution, highways and transportation, environmental protection and N.E.C.O. or G.C.E. '0' Level to qualify for admission. control, urban and regional planning and many other public utilities that are so important to human quality of life. © Direct Entry Candidates (200 or 300 Level) (i) Candidates must have good passes in Mathematics, The general philosophy of the civil engineering programme therefore Physics and Chemistry at GCE 'A' Level or equivalent in is to produce resourceful and creative graduates with high academic addition to UME entry requirements to be admitted to standard, adequate practical experience and of immediate value to industry 200 level. and society. The programme is hence designed primarily to provide the graduates with a broad based training in the application of modern (ii) Candidates with HND Upper Credit or OND Upper technological techniques profitably to design, construction, supervision and Credit (or management of civil engineering projects and basic needs of the society. Equivalent qualifications) in Civil Engineering from recognised institutions may be admitted to 300 level or The broad range of disciplines covered is reflected in the four options 200 level respectively provided such candidates satisfy of study indicated in the final year. However, the programme is essentially UME entry requirements. common for all students throughout the five-year duration to maintain career (I) Candidates from recognised Institutions may be allowed flexibility by avoiding over-specialization during the under-graduate years. to transfer to 200 or 300 level provided they possess the relevant qualifications. However Each case shall be considered Graduates of the programme shall possess qualifications registrable on its own merit. with the Council of Registered Engineer of Nigeria (COREN), other National and International professional bodies. The graduates shall be adequately equipped with working knowledge to practice in private DEGREE OFFERED consulting firms, industrial firms of various types, governmental agencies at the local, state and Federal levels, construction firms, research and The undergraduate programme in the department shall lead to development organizations or to be self-employed and hence become job the award of a Bachelor of Technology (Honours) degree in Civil creators and employers of labour. Engineering which shall be designated as B.Tech. (Hons.) Civil ADMISSION REQUIREMENTS Engineering.

(a) UME Candidates (100 Level) REQUIREMENTS FOR THE AWARD OF ADEGREE

The minimum admission requirements shall be passes at credit To be eligible for the award of the Bachelor of Technology level in the Senior Secondary School (SSSC) final year examination or GCE 'O' Level in five subjects including Mathematics, Physics, Honours Degree in Civil Engineering, a candidate must past a minimum Chemistry, and English Language and one other Science subject. of 192 units which are distributed as follows:- 46 47 CURRICULUM 100 RAIN SEMESTER

(i) Compulsory Courses COURSE COURSE TITLE PRE REQ. HOURS UNITS CODE L T P A. University Requirements (Basic Science) 37 Units MTH 102 Elementary Mathematical II - 4 1 0 5 General Studies 16 Units CHM 102 Introductory Chemistry II - 3 1 0 4 Computer Studies 04 Units CHM 192 Experimental Chemistry II - 0 0 3 1 B. Faculty/Department Requirements 133 Units PHY 102 General Physics II - 3 1 0 4 PHY 104 Experimental Physics II - 0 0 3 1 (ii) Electives CSE 100 Introduction to Computer Tech - 1 0 0 1 GNS 102 Use of English II - 2 0 0 2 Restricted Elective 04 Units GNS 104 Sciences and Technology in Free Electives 02 Units Africa through the Ages - 2 0 0 2 BIO 102 General Biology II - 3 0 0 3 Grand Total:- 196 Units BIO 104 Experimental Biology - 1 0 0 1 Total Number of Units 24 (iii) Successful Completion of Industrial Training Programmes. 200 – LEVEL HARMATTAN SEMESTER B. TECH. (CIVIL ENGINEERING COURSE OUTLINE COURSE COURSE TITLE PRE HOURS UNIT 100 – LEVEL CODE REQ. L T P HARMATTAN SEMESTER MEE 201 Engineering Drawing I - 1 0 3 2 MEE 203 Workshop Technology I - 1 0 3 2 MEE 205 Engineering - 2 1 0 3 Materials I MEE 207 Fluid Mechanics I - 2 0 0 2 COURSE CODE COURSE TITLE PRE REQ. HOURS UNITS MEE 209 F luid Mechanics Lab. - 0 0 3 1 L T P MTH 101 Elementary Mathematics 1 - 4 1 0 5 MEE 211 Engineering - 2 0 0 2 CHM 101 Introductory Chemistry 1 - 3 1 0 4 Thermodynamics CHM 191 Experimental Chemistry 1 - 0 0 3 1 MEE 213 Engineering Mechanis I - 2 1 0 3 PHY 101 General Physics 1 - 3 1 0 4 EEE 231 Engineering Analysis I - 3 1 0 3 PHY 103 Experimental Physics 1 - 0 0 3 1 GNS 209 Elements of - 2 0 0 2 FAA 101 Fundamentals of Drawing 1 - 2 0 0 2 Admin.Science GNS 101 Use of English 1 - 2 0 0 2 Citizenship Education. BIO 101 General biology 1 - 3 0 0 3 MGS 201 Technology and - 1 0 0 1 BIO 103 Experimental Biology 1 - 0 0 3 1 Society LIB 101 Use of Library - 1 0 0 0 CVE 201 I n t roduction to Civil - 1 0 0 1 ngineering Total 23 Total Number of Units 23 48 49 RAIN SEMESTER RAIN SEMESTER COURSE COURSE TITLE PRE HOURS UNITS CODE REQ. L T P COURSE COURSE TITLE PRE HOURS UNITS CVE 202 Theory of Structures - 2 0 3 3 CODE REQ. L T P MEE 202 Engineering Drawing II - 1 0 3 2 ARC 302 Elements of Architecture MEE 204 Workshop Technology II - 1 0 3 2 MEE 208 Engineering Materials II MEE 205 2 0 0 2 For Engineering students - 1 0 6 3 MEE 210 Engineering Materials Lab. - 0 0 3 1 CVE 304 Hydraulics Hydrology I MEE 207 2 0 3 3 MEE 214 Strength of Materials I - 2 0 0 2 CVE 306 Design of Structures I CVE 203 1 0 3 2 MEE 216 Strength of Materials Lab. - 0 0 3 1 CVE 308 Engineering Surveying & EEE 200 Applied Electricity - 2 1 0 3 Photogrammetry II - 2 0 3 3 EEE 202 Applied Electricity Lab. - 0 0 3 1 CVE 310 Soil Mechanics - 2 0 3 3 EEE 232 Engineering Analysis II - 2 1 0 3 CVE 312 Civil Engineering Materials MEE 205 2 0 3 3 GNS 208 Family, Marriage and MEE 300 Mechanical Maintenance & Kinship structure in Repairs - 0 0 3 1 Comparative perspective - 2 0 0 2 EEE 332 Engineering Analysis III - 2 1 0 3 Total Number of Units 22 Total Number of Units 21

FET 200-SWEP - LONG VACATION 2 Units FET 300-SIWES 1I LONG VACATION 2Unit 300 – LEVEL HARMATTAN SEMESTER 400 – LEVEL HARMATTAN SEMESTER COURSE COURSE TITLE PRE HOURS UNITS CODE REQ. L T P CVE 301 Engineering Geology - 2 0 3 3 COURSE COURSE TITLE PRE HOURS UNITS CODE REQ. L T P CVE 303 Engineering Surveying & EEE 401 Electrical Maintenance and Photogrammetry I - 2 0 3 3 Repair of Equipment - 0 0 3 1 CVE 305 Structural Analysis I CVE 200 2 0 3 3 CVE 401 Project Methodology - 2 0 0 2 MEE 313 Workshop Practice MEE 204 1 0 3 2 CVE 403 Quantity Surveying and MEE 321 Strength of Materials II MEE 214 2 0 3 3 Estimating - 2 0 0 2 CVE 405 Foundation Engineering CVE 310 2 0 3 3 CSE 331 Engineering Statistics MTH 102 2 1 0 3 CVE 407 Design of Structures II CVE 306 2 0 3 3 CSE 201 Basic Computer CVE 409 Structural Analysis II CVE 305 2 0 3 3 Programming - 2 0 3 3 CVE 411 Environmental Engineering CVE 304 2 0 3 3 GNS 207 Science in History CVE 413 Highway Engineering CVE 312 2 0 3 3 CVE 415 Civil Engineering Practice 2 0 0 2 Bio-Historical Approach - 2 0 0 2 Total Number of Units 22 Total Number of Units 22

50 51

RAIN SEMESTER AND LONG VACATION DEPARTMENT ELECTIVES (OPTIONS) FET 400SUPERVISED INDUSTRIAL WORK EXPERIENCE SCHEME COURSE COURSE TITLE PRE HOURS UNITS (SIWES) (4Units) CODE EQ. L T P 500 – LEVEL ELECTIVE (OPTION) I – STRUCTURAL ENGINEERING HARMATTAN SEMESTER CVE 510 Advances Structural COURSE COURSE TITLE PRE HOURS UNITS Analysis (R) - 2 0 0 2 CODE REQ. L T P CVE 511 Prestressed Concrete CVE 501 Hydraulics & Hydrology II CVE 304 2 0 3 3 Structure (H) - 2 0 0 2 CVE 503 Structural Analysis III CVE 409 2 0 0 2 CVE 512 Advances Reinforced CVE 505 Geotechnical Engineering I CVE 310 2 0 3 3 Concrete (R) - 2 0 0 2 CVE 507 Assigned Project I - 0 0 9 3 CVE 509 Traffic & Highway Engineering I CVE 413 2 1 0 3 ELECTIVE (OPTION) 2 - GEOTECHNICAL ENGINEERING MGS 511 Industrial Economics - 2 0 0 2 CVE 513 Construction Tech. I - 2 0 0 2 MGS 513 Principles of Management - 1 0 0 1 CVE 514 Geotechnical Eng. II (R) - 2 0 0 2 MGS 515 Principle of Accounting - 1 0 0 1 CVE 516 Construction TEC.II (R) - 2 0 0 2 Departmental Elective (Option) - 2 0 0 2 CHE 551 Inventions and Patents - 2 0 0 2 ELECTIVE (OPTION) 3 – WATER RESOURCES AND Total Number of Units 22 ENVIRONMENTAL ENGINEERING CVE 515 Environmental Polution (H) - 2 0 0 2 CVE 518 Water Power and System RAIN SEMESTER Engineering (R) - 2 0 0 2 COURSE COURSE TITLE PRE HOURS UNITS CVE 520 Irrigation and Drainage CODE REQ. L T P Engineering (R) - 2 0 0 2 CVE 502 Design of Structure III CVE 407 - 2 0 3 3 CVE 504 Unit Process in water & Wastewater Engineering CVE 411- 2 0 3 3 ELECTIVE (OPTION) 4 – TRANSPORTATION AND HIGHWAY CVE 506 Hydraulic Structures - 2 0 0 3 CVE 517 Transportation Engineering (H) - 2 0 0 2 CVE 508 Assigned Project II - 0 0 9 3 CVE 522 Highway Materials (R) - 2 0 0 2 CVE 550 Technology Policy & Law - 2 0 0 2 Departmental Elective (Option) - 2 0 0 2 CVE 524 Traffic and Highway Faculty Elective (Free) - 2 0 0 2 Engineering II (R) - 2 0 0 2 Total Number of Units 17

52 53 NOTE: H – Harmattan Semester CVE 301: Engineering Geology - 2.0.3 (3Units) R - Rain Semester The relevance of geology to Civil Engineering. The role of Civil Engineer in the systematic exploration of a site. The common rock formation minerals – Silicate and non-silicate minerals. Rock – Igneous, metamorphic and FACULTY-WIDE ELECTIVE (FREE) sedimentary rocks. Geological structures and mapping. Stratigraphy and COURSE COURSE TITLE PRE HOURS the geological time scale. The theory of plate tectonics. Geological UNITS exploration of an engineering site – Preliminary investigation, Applied CODE REQ. L T P geophysical Surveys, Drillings, Boring, Trenching and Pitting. CSE 552 Computer Models of Physical Classification of rocks for engineering purposes. The engineering & Engineering System (R) - 2 0 0 2 properties of rocks, Blasting and rock excavation. The principal geological FSE 552 Elements of Food Processing factors affecting the following engineering projects: The stability of slope And Presentation (R) - 2 0 0 2 and cutting, the stability of new excavation. Types of failures in soil slopes MEE 552 Engineering Risks/Benefit and natural rocks slopes: Stabilization of slopes. Impounded surfaces water Analysis (R) - 2 0 0 2 – the geology of reservoir, dam sites and tunnels. CVE 552 Elements of Civil Engineering Practice (R) - 2 0 0 2 Practical: EEE 552 Electrical Installations (R) - 2 0 0 2 Rocks and mineral identification. Microscopic works to identify the MGS 552 Entrepreneurship (R) - 2 0 0 2 structure of minerals. Geological field work and visit to any geological museum. NOTE: H – Harmattan Semester R - Rain Semester. ARC 302: Elements Of Architecture 1.0.6 (3Units) Introduction – Dimensional awareness, Graphic Communication, relation to DESCRITIONS OF COURSES CVE 201: Introduction To Civil Engineering 1-0-0 - (1 Unit) environments. Free hand drawing – Form in terms of light and shadow. Introduction to the various fields of engineering practice with particular Orthographics: dimetrics, perspective projections Applications: Common emphasis on Civil Engineering. Requirements for registration with Curves, Elementary Designs. professional bodies. Duties and code of conduct for the Civil Engineer. The role of the Civil Engineer in the planning of urban and rural settlements. CVE 303: Engineering Surveying And Photogrammetry I 2-0-3 Technical report writing for Laboratory tests, field test and Industrial Work (3units) Experience schemes. Presentation of engineering data. Introduction to the Principle and Practice of Surveying. Engineering survey equipment such as chains, Tapes, EDM, Compass, Levels, Theodolite, CVE 202: Theory Of Structures 2.0.3 - (Unit) Ranging Rod, Abney level, Optical squares etc. Chain Survey: Principle and Definition and determination of the degree of statistically indeterminacy and Method, obstacles and sources of errors, Detailing by offset method. stability. Analysis of determinate trusses, beams and simple frames by Compass traverse orientation in surveying. Method of compass traverse. various methods. Application of Williot-Mohr diagram. Shear force, Adjustment and sources of errors. Levelling by different methods. Spirit bending moments, slope and deflection of simple beams and cantilevers by leveling, reduction errors in leveling, Curvature and refraction correction. various analytical methods. Deflection of trusses by the method of virtual Contouring, uses of Maps and Plans. Route surveying, calculation of areas work. Fixed end moment and moment distribution method for simple and volume, mass-haul diagram. Practical:- Surveying of a small area with continous beams. Practical tests for the determination of forces in chain and compass. Detailing of the area. Profile leveling, cross-section, equilibrium, simple beams, frames, trusses, etc. Graphical determination of calculations of earthwork. Setting out of building, roads etc. using compass forces in relevant topic above. and chain. 54 55 CVE 304: Hydraulics And Hydrology I 2-0-3 (3units) Hydraulics codes of practice. Design philosophy with regards to elastic, load factors Fluid: statics, continuity, energy, momentum equations and Bernoulli's and limit state methods. Design and detailing of structural elements in theorem. Dynamics of fluid flow, conservation of mass and mometum reinforced concrete. Shear, bond and anchorage considerations. Bar equations. Different devices for flow measurements and Manning's bending schedule. Studio works on practical designs. formulae. Reynolds number and turbulent flow. Losses in pipes and pipe network analysis. Uniform flow and non-uniform flow in open channels. CVE 308: Engineering Surveying And Photogrammetry II 2-0-3 Unsteady flow in channels, rivers and backwater cones. Similitude, (3units) dimensional anaylsis and hydraulic modeling. Pums and Turbines, flow in Theodolite traversing. Tacheometry surveys. Simple curve ranging. parallel plates. Laboratory experiments on coefficients of discharge and Topographical surveying. General principles of application of photography mathematical exponents in rectangular and V-notch weir, pressure drop in to surveying. Basic definitions in Photogrammetry. Simple pipelines, flow measurements in venturi, orifice, energy drop due to hydraulic photogrammetric Instruments. Basic mathematics of Photogrammetry. jump in an open channel. HYDROLOGY:- The Hydrologic cycle – Methods of acquisition of aerial photographs and its uses for heighting and components e.g. radiation, wind, precipitation, evaporation, transpiration, mapping. Introduction to hydrographical surveying. Practical: Route infiltration, percolation, surface runoff and water shed characteristics. surveying by the use of Theodolite and tapes for alignment and setting out. Meterorology:- Precipitation – rainfall and snowfall. Measurement of Contouring and topo-plan production. Simple photogrammetric exercises. rainfall. Rain gauges – manual and automatic recording. Rain guage networks. Point rainfall and average area rainfall. Methods of determining CVE 310: Soil Mechanics average rainfall e.g. simple arithmetic average, isohyetal, Thiessiens, Formation of soils and deposits. Transported and residual soils. Laterites, Polygons, Triangulation, weighted mean etc. Air temperatures, methods of black cotton soils, etc. Classification and identification properties of soils: determining average temperatures thermal gradient with respect to attitude, phase relationships, gradation, relative density. Atterberg Limits and maximum and minimum temperatures. Recording instruments for Plasticity index. temperature measurements. Hydrology:- Stage and Discharge Hydrographs Soil water: Capillarity and permeability of soils. Daroy's Law, Quick Analysis of hydrographs. Base flow and its separation from the main flow. condition. Steady state seepage. Flow net, flow through earth dams. Recession curves and empirical formulae. Stream flow gauging methods. Laboratory tests on each of the topics considered above. Use of statistics in hydrology. Frequency, probability and average return period. Methods of determining discharges of a given return period with CVE 312: Civil Engineering Materials 2-0-3 (3 Units) different probalilities of non-eceedence. Flood forecas and monitoring. Concrete technology – Constituent materials of concrete, Concrete mix Drought studies and flows analysis. design, qualify control, properties and their determination. Steel technology – Production, fabrication and properties: Corrosion and its prevention. Tests CVE 305: Structural Analysis I 2-0-3 (3 Units) on steel, qualify control and uses. Timber technology – Types of timber, Degree of statical indeterminacy and releases in trusses beams, frames, etc. characteristics, defects, stress grading, preservation and fire protection. Analysis of indeterminate trusses, frames and arches by energy and virtual Uses of timber. Bituminous materials, polymers, Bricks and Blocks. work method. Analysis of indeterminate beams by moment distribution, Production, properties and uses. Laboratory investigations on the strength conjugate beam and elastic load methods: determination of reactions, final and other properties of the various materials studied in CVE 312. bending moments and shear force distributions. Influence lines for reactions, shear and bending moments in statistical determinate beams, trusses and frames. Laboratory measurements of forces, slopes, deflections and reactions CVE 401: Project Methodology 1-0-0 (1 Units) on models of frames, beams, trusses, arches, bridges etc. Further Project proposal – Aims and objectives, scope and methodology. Research experimental works on topic studied in CVE 305. work – Review of previous works and justifications for the project. Main investigations – Theoretical consideration, experimental works, field works CVE 306: Design Structures I 1-0-3 (2 Units) and data collection, and designs. Fundamentals of design process, materials selection, building regulations and Analysis of data/results – Collation of findings, assessment of accuracy, 56 57 further investigations, results consideration and objective. periods, population studies. Water consumption, variation in demand, fire Documentation – Format of write-up, major headings and sub-headings, demand, coincidental draft, hydrant flow test and flow calculations. Sewage Citing of references, Tables, figures, listing of references, Appendices and flow rate. Design principles of separate, combined and semi-separate phraseology. sewage systems. Estimation of dry weather flows and storm water flows. Sizing and construction of sewer pipes. Manhole chambers and storm water CVE 403: Quantity Surveying And Estimating 2-0-0 (2 Units) overflows, pumping systems and invited siphons. Maintenance of sewers. Scope of Civil Engineering works and standard methods of Measurements. Characteristics and composition of industrial wastewater, sampling and Duties of the Quantity Surveyor. Setting down dimensions, cut and Shuffle. methods of analysis of industrial wastewater, measures for treatment of General principles of rules of taking-off. Taking-off quantities from industrial wastewater. Domestic, industrial and agricultural solid waste. Drawing – substructures, walling, floors, roofs, finishing and external works. Planning and scheduling. Abstracting and billing. Preparation of Bill of Storage, collection, transport and disposal. Refuse processing and recovery. Quantities. Specification writing, examples on complete building and civil Introduction to Environmental Impact Assessment (EIA). Practical engineering works. Work:- Experiments related to comprehensive analysis of water and wastewater includes: – Physical - colour, odours, solids (dissolved solids, CVE 405: Foundation Engineering 2-0-3 (3units) suspended solids, total solids) etc. Chemical – alkalinity, hardness, D. O., Concept of effective stress. Stress at a point. Shear strength of soils Mohr – BOD, COD etc. Biological – E. coli. Contous theory of failure. Shear strength parameter of sands; shear strength of clays. Compaction of soils: General principles, standard and modified CVE 413: Highway Engineering 2-0-3 (3 Units) Proctor tests, maximum dray density and optimum moisture content, zero- Engineering aspects of Highways. Route location and survey. Geometric air-voids curve, field control tests, percent compaction. Earth pressures and design, pavement design, interchange design and spacing. Highway earth retaining structures. Rankine theory, Coulomb's theory. Active and information systems, freeway, networks and safety. Design, construction passive pressures, graphical solution: stability of slope and embankments. and maintenance of culverts. Design of drainage appurtenances. Different Carry out experiments both in the laboratory and on site on the topics cross-sections of roads. Construction equipment types. Carry out practical describes above. in the design studio and on site on various items studied in CVE 413.

CVE 407: Design Of Structures II 2-0-3 (3 Units) CVE 415: Civil Engineering Practice 2-0-3 (2 Units) Limit state philosophy and design in steel; basic concepts of elastic and plastic design. Design and detailing of structural steel elements, tension Civil Engineering works standards and measurements. Contracts and sub- member strut, beams, girders and columns, Design of connections and joints contracts. Works construction and supervision. Job planning and control- in structural steel. Beam and columns in flecture. Design of foundations. programme, charts, bar charts, critical path methods, etc. Construction, Carry out Studio work on practical designs. bridges, highway, industrial buildings, sewage works. CVE 409: Structural Analysis II 2-0-3 (3 Units) CVE 501: Hydraulics and Hydrology II 2-0-3 (3 Units) Application of influence line in the analysis of indeterminate structures and Hydraulics Muller-Breslau principle, influence line diagrams for reactions, shear force, Brief Review of Hydraulics I Siphon, equivalent pipes, pipes in series moments and deflections. Advanced moment distribution, sway effects and and parallel, branching pipes, methods of sections. Hardy-cross method, modified stiffness methods for multi-bay and/or multi story frames. balancing, pipe lengths methods, reservoir and pumping station. Ultimate load analysis. Elastic instability. Introduction to matrix methods of analysis and computer application. Hydrodynamics Some advanced topics. Harmonic water waves, deep water (short) and CVE 411: Environmental Engineering 2-0-3 (3 Units) shallow water (long) waves, shape of orbits etc. Sediment transportation in Sources of water and wastewater. Physical, chemical and biologic open channels. Properties of sediments, threshold of particle movement, characteristics of water and wastewater. Water quality standards. Design critical velocity and shear stress, Shields diagram, Bed load movement, 58 59 critical velocity and shear stress, Shields diagram, Bed load movement, Du engineering (completely mixed flow, plug flow and dispersed of mass Boy's bed load formular and brief discussion of other bed load formulae. transfer and oxygen transfer coefficients. Equalization, Floatation, iron and Suspended sediment – one-dimensional steady equation of suspended manganese removal, water softening, taste and odour removal. sediment (Rouse equation) evaluation of total suspended load etc. Empirical Introduction to treat ability studies: activated sludge process, biological method of stable alluvial channels design, local scour and channel-erosion, filteration, stabilization ponds, anaerobic sludge digestion, thickening and Reservoir sedimentation. disposal removal. Site visit to water and waste treatment plants. Hydrology Surface Hydrology CVE 505: Geotechnical Engineering I 2-0-3 (3 Units) Unit Hydrograph – concept, definition and development. Instantaneous Unit Stresses in soils. Stress distribution below flexible and rigid foundations Hydrograph (IIUH) Flood Routing through reservoir and river channels. due to various types of loading. Houssiness and Westergard theory. Muskingum method. Consolidation and compressibility of soils. Primary and secondary consolidation, consolidation settlement, preconsolidation, over Ground Water Hydrology consolidation, recompression. One-Dimensional Theory of consolidation. Hydraulics of wells. Single well in unconfined and confined aquifers. Time rate of settlement, Tolerable settlement in buildings. Bearing capacity Multiple well in confined and unconfined aquifers. Effect of aquifer of soils: determination of ultimate and allowable bearing capacities for boundaries (streams and impervious barriers) on the well hydraulics, method shallow and deep foundations. Design of shallow foundations, raft of images. Unsteady flow in wells. Transmissivity co-efficient. Draw down foundations, pile foundation and drilled pier foundations for bridges, tall and pumping test. Analysis of pumping test data for evaluating storage and buildings, etc. Compensated foundations. Soil establilization by the transmissivity coefficients. Recovery of wells. Use of complex variables in admixture of cement, lime and bitumen. In-situ soil improvement analysis of ground water flow. Brief description of drilling methods. Screens techniques, vibroflotation, precompression, sand drains, geotextiles, soil and other parts of a borehole. Different types of pumps used for pumping water from a borehole, water prospecting methods, Geophysical prospecting nailing and soil reinforcement. Site investigations, laboratory and field in- etc. situ testing of characteristics studied in CVE 505 CVE 502: Design Of Structures III 2-0-3 (1 Unit) CVE 506: Hydraulic Structures 2-0-3 (3 Units) Review of Limit state philosophy and Elastic methods and design in concrete. Reservoir Study with reference to types, selection of sites, storage capacity, Yield line theory and strip method for slabs. Design of continuous beams and operations, siltation and silt removal. Discuss various types of dams, columns. Design of TDA type of timber structures. Composite design and techniques for site location, classification and types selection. Seepage and construction in steel and reinforced concrete. Introduction to Prestressed causes of failures in dams. Design of various types of hydraulic structures: concrete design, modern structural form. Tall buildings, lift shafts, shear wall Conveyance Structures – Pipe lines and pipe systems siphons, draft tubes, and system buildings. Design projects. canals, sewers, spillway, chutes, culverts, reservoir outlet, conduit). Energy Dissipating Structures – Surge tanks, stilling basins, drop structures, check CVE 503: Structural Analysis III 2-0-0 (2 Units) dams. Flow Measuring and Control Structures – Weirs, sluices, gates and Analysis of Indeterminate structure using stiffness and flexibility matrix valves turnout. Collecting and Difusion Structures – Intake structures, infiltration galleries, drains, surface drainages, intakes perforated pipes. methods. Computer applications to practical structures. Continum of plane Water Stabilization Structures – Levees, cutoff, dikes, breakwaters and strain, elastic flat plates, solution by series, finite differences, finite element seawalls. Channel Lining – Seepage from channels, design, methods. Beams on elastic foundation. Partial differential equation. construction and maintenance of linings (vegetative, impervious soils, Membrane theory masonry, concrete and bituminous materials).

CVE 504: Unit Processes In Water And Waste Water Engineering 2-0-3 CVE 507: Assigned Project I 0-0-9 (3 Units) (3units) Literature review and bench work on final year project. A first report on Theory and application of physical, chemical and biological operations and detailed task to be carried out, their schedule works carried out up to date and processes in water and waste water treatment. Topics include: Reactor 60 61 the findings shall be submitted for evaluation. CVE 514: Geotechnical Engineering II2-0-0 (2units) Review of lateral earth pressure theories of Rankine and Coulumb \. Lateral CVE 508: Assigned Project II 0-0-9 (3 Units) pressure due to surcharge loads. Design and stability of retaining walls. Bench work on project, seminar and final year report presentation. Sheet pile walls: Cantilever sheet pile and anchored sheet pile. Free earth and fixed-earth support methods of analysis. Lateral earth pressured in CVE 509: Traffic and Highway Engineering I 2-0-3 (3 Units) braced cuts. Stability of braced excavations. Buried conducts analysis, Highway planning and traffic surveys. Administration and finance of design and construction. Earth Dams; Planning, design, construction, Highways. Coordination of all transportation media. Transportation instrumentation. Sub-surface exploration scope, site reconnaissance, planning and economics. Traffic management and design of traffic signals, boring, test pite, sampling, field test, logs, Soil Report. control systems and safety devices. CVE 515: Environmental Pollution 2-0-0 (2 Units) Parking and Parkways. Different types of road construction materials and Water Pollution construction methods. Carry out practical exercises on each of the topics Types and sources of water pollution, self-purification of streams; Analysis treated above; perform laboratory tests on different types of road of the dispersal of pollutants in streams and estuaries. The effects of construction materials. pollutants on the chemical quality and the ecology of receiving streams. Europhication and control of water pollution. Stream and effluent standards CVE 510: Advanced Structural Analysis 2-0-0 (2 Units) Analysis of thin-stretched membrane. Theory of thin shells: Classification, Air Pollution structural action, shells of revolution and shells of translation. Examples: Theory, principles and practices related to engineering control of particulate Cylindrical shells. Applications and limitations of membrane theory. and gaseous emissions from natural, individual, agricultural, commercial Introduction to folded plate structures, different types and structural and municipal sources of atmospheric pollution. The effects of atmospheric behavour. Structural dynamics. Introduction to cured members and non- pollution on various forms of life including both direct and secondary prismatic structures. effects, Control devices of air pollution. CVE 511: Prestressed Concrete Structures 2-0-0 (2units) Noise Control Limit state philosophy of prestressed concrete. Behaviour, analysis and Sources of noise and control measures. Measurements and design of pretensioned and post-tensioned Prestressed concrete structures. standard. Considerations of flexture, shear, bond, anchorage, zone, cracking and losses. Partial prestressing: Strength serviceability, structural efficiency of CVE 516: Construction Technology II 2-0-0 (2 Units) beams, slabs, tension and compression members, framework and bridges. Behaviour of indeterminate prestressed concrete beams, cable accordancy. Uses, maintenance and scheduling of construction equipment such as Earth moving equipment/compaction equipment, concrete mixers and paver, slip- CVE 512: Advanced Reinforced Concrete 2-0-0 (2units) form and quality control equipment. Basic works on arrival at site: clearing General flexture analysis, deflection analysis, columns with uniaxial and techniques, setting-out, provision of temporary services, access roads, etc. biaxial bending. Beam-supported slabs, flat-plates slabs, yield line theory; Construction of temporary works such as timbering to trenches shoring footings, retaining walls, deep beams, tall buildings, lift-shaft. Design of elements. water retaining structure and/or bridges. Construction and maintenance of embarking drainage appurtenances, earth CVE 513: Construction Technology I 2-0-0 (2units) roads, etc. Techniques, materials and procedures involved in sheet piling, under pinning and dewatering. Construction techniques and procedures involved in large- CVE 517: Transportation Engineering 2-0-0 (2units) scale earth movement, scaffolding, structural steel works, reinforced frames, Transportation systems and their planning. Design of the various infilling frames and systems of glazing, Construction of external works and transportation networks. Financial appraisal and funding of various services such as drainage systems. transportation systems, roles of various tiers of government in a given transportation system. Social and economic effects of a new or improved transportation system on the environment. 62 63 CVE 518: Water Power and Systems Engineering 2-0-0 (2units) Planning of a hydropower project. Demand for power load and load factor, DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING firm load etc. Supply of power. Relationship between demand, supply and INTRODUCTION river runoff. Types of hydropower development, multiple use developments, The Department came into existence in 1990 with a view to addressing typical developments, co-coordinated hydroelectric systems. Types of squarely two budding computing problems in the country, namely: the plants. The fore-bay intake and relevant equipments. Penstocks and tunnels shortage of skilled hardware and software specialists who are specifically and their economic size. Substructure and superstructure components of a trained to use modern productivity tools; and lack of research personnel to hydropower-house, underground hydropower-house. Hydropower provide indigenous computer solutions to local problems. machinery. Water turbines e.g. Pelton wheels, Francis turbines, Kaplan and Therefore our two undergraduate programmes are designed to be unique in Propeller turbines etc. Governing of water turbines. Elementary discussion content and to differ from currently existing computer science curriculum in of electric generators for hydropower. the following respects: theoretical computing concepts are emphasized in view of the need CVE 520: Irrigation And Drainage Engineering 2-0-0 (2units) for computing research personnel in the country. Soil Chemistry – Structure of layered – clay minerals; sources of soils, Students are able to actually qualify as skilled software or hardware characteristics of saline -alkali soils; Quality of irrigation water; reclamation specialists specialising in modern areas of computing and its and management of saline-alkali soils; soil classification. Soil Physics – Soil- electronic allies. air relationship, soil water-air relationship. Introduction to irrigation practice The engineering and mathematical contents of the programmes in humid and arid regions, crop-water requirements; Infiltration and water ensure that their products are able to function outside data holding capacities of soil; sedimentary and water quality, reclamation and processing environment. management. Irrigation water application (surface, sprinkler and sub- Both Software Engineering and Hardware Design Laboratories are irrigation) use and distribution, water management and efficiency: Sources of emphasized depending on which of the two programmes a student drainage problems; surface drainage systems; Drainage structure, sub- has chosen. surface drainage system; Drainage of tidal areas; soil erosion and soil conservation practice. Consequently, the department offers two degree programmes whose first two years are the same with respect to course requirements. CVE 552: Highway Material 2-0-0 (2units) These are: Soil survey for road works procedure, burrow pits, sample tests and mass- (1) B. Tech. Computer Science - Specialising in both science haul diagram. and engineering of Software construction and allied topics Soil classification, interpretation of results and their use Sources and (2) B. Tech. Computer Engineering - Specialising in computer properties of aggregates. Elasting and quarrying operations, and artificial hardware systems design, construction and maintenance. aggregates. Sources and properties of cementious materials, bituminous materials bituminous binders. Soil stabilization, mix designs and ADMISSION REQUIREMENTS construction procedure. 100 LEVEL CVE 552: Elements Of Civil Engineering Practice 2 - 0 - 0 Admission to 100 Level is through the Joint Admission Matriculation Examination. To be eligible to take the examination, candidate must, (2units) normally have the Senior Secondary School Certificate or its equivalent The relationship among the professionals in Civil Engineering. Contracting with Credit in at least 5 subjects including English, Mathematics, Physics in Civil Engineering project. Execution of Civil Engineering project and and Chemistry. The fifth subject should be Biology or any Bilogical Science. site organization. Techniques, procedure and plants involved in large-scale earth movement. Principles and construction of framework, floors and 200 Level Candidates may be eligible for admission to 200 Level if they have any of external works. the following in addition to University Admission requirements of credit in 5 subjects.

64 65 (i) Good Pass at the advanced level GCE or equivalent in three subjects viz: Mathematics, Physics and Chemistry. PROGRAMME: B. Tech. Computer Science and Engineering (ii) N a t i o n a l d i p l o m a i n p r e f e r a b l y C o m p u t e r COURSE OUTLINE 100 LEVEL Engineering/Technology or Computer Science at minimum HARMATTAN SEMESTER of Upper Credit Level.

(iii) Higher National Diploma in courses listed in (ii) above, at Course Course Title Pre Req. Hours minimum of lower credit level. Units (iv) Equivalent professional qualifications as approved by the Code University Senate. L T P MTH 101 General Mathematics I 4 1 0 5

REQUIREMENTS FOR THE DEGREE PHY 101 General Physics I 3 1 0 4 PHY 103 Experimental Physics I 0 0 3 1 CHM 101 General Chemistry I 3 1 0 4 (a) In order to be eligible for the award of B. Tech in Computer Science, a CHM 103 Experimental Chemistry 0 0 3 1 candidate must satisfactorily complete a total of 1 9 4 u n i t s BIO 101 I 0 0 3 3 including at least: BIO 103 General Biology I 2 0 0 1 1. 47 Units of 100 Level Courses as prescribed by the Senate regulation FAA 101 Experimental Biology 2 0 0 2 2. 6 Units of General Studies GNS 101 Basics of Drawing 2 0 0 2 3. 9 Units of Mechanical Engineering LIB 101 Use of English I 1 0 0 1 4. 9 Units of Electrical/Electronics Engineering Use of Library 5. 1 Unit of Civil Engineering 6. 12 Units of Mathematics Total 17 3 9 23 7. 3 Units of Statistics 8. 7 Units of Management Science 9. 4 Units of Faculty-wide electives 10. 96 Units of Computer Science and Engineering. RAIN SEMESTER

(B) In order to be eligible for the award of B. Tech in Computer Course Course Title Pre Req. Hours Engineering, a candidate must satisfactorily complete a total of 189 units Code Units including at least: L T P

1. 47 units of 100 Level Courses as prescribed by Senate MTH 102 General Mathematics II 4 1 0 5 regulation PHY 102 General Physics II 3 1 0 4 2. 6 units of General Studies including the 100 level General PHY 104 Experimental Physics II 0 0 3 1 Studies CHM 102 General Chemistry II 3 1 0 4 3. 15 units of Mechanical Engineering CHM 104 Experimental Chemistry II 0 0 3 1 4. 17 units of Electronics/Electrical Engineering BIO 102 General Biology II 2 0 0 3 5. 1 unit of Civil Engineering BIO 104 Experimental Biology II 3 0 0 1 GNS 102 Use of English II 0 0 3 1 6. 10 Units of Mathematics GNS 104 Science and Technology in 7. 7 Units of Management Science Africa through the Ages 2 0 0 2 8. 3 Units of Statistics CSE 100 Introduction to Computer Tech. 9. 4 Units of Faculty-wide electives 1 0 0 1 10. 79 units of Computer Science and Engineering Total 18 3 9 24

66 67 B. Tech (Computer Science and Engineering) B. TECH (COMPUTER SCIENCE) 200 LEVEL HARMATTAN SEMESTER 300 LEVEL RAIN SEMESTER

Course Course Title Pre Req. Hours Course Course Title Pre Req. Hours Code Units Code Units L T P L P T CSE 201 Basic Computer Programming CSE 100 2 0 3 3 CSE 203 Basic Programming Lab. 0 0 3 1 CSE 301 Computer Programming I CSE 201 2 0 3 3 MEE 201 Engineering Drawing I 1 0 3 2 CSE 303 Computer Logic I 2 1 0 3 MEE 203 Workshop Technology I 1 0 3 2 CSE 305 Data Base Design and Managt. 3 0 0 3 MEE 207 Fluid Mechanics 2 0 0 2 CSE 307 Numerical Computation I 2 1 0 3 MEE 211 Engineering Thermodynamics I 2 1 0 3 CSE 311 Automata theory and computability CSE 206 3 0 0 3 EEE 231 Engineering Maths I 3 1 0 4 CSE 331 Engineering Statistics 2 1 0 3 MGS 201 Technology and Society 1 0 0 1 MTH 203 Linear Algebra I 2 0 0 2 GNS 207 Citizenship Educ and Science: MTH 307 Sets, Logic and Algebra 3 0 0 3 Bio historical approach 2 0 0 2 Total 19 3 3 23 Total 12 2 12 18

B.TECH COMPUTER SCIENCE 300 LEVEL RAIN SEMESTER 200 LEVEL RAIN SEMESTER Course Course Title Pre Req. Hours Code Units Course Course Title Pre Req. Hours L T P Code Units L P CSE 302 Computer Programming II CSE 301 2 0 3 3 T CSE 304 Computer Logic II 2 1 0 3 CSE 308 Assembly Language Programming CSE 201 2 0 3 3 CSE 202 Overview of Computer Science CSE 100 2 0 0 2 CSE 310 Numerical Computation II CSE 307 2 1 0 3 CSE 204 Introduction to Applications CSE 201 1 0 3 2 CSE 312 Data Structures and Algorithms CSE 201 3 0 0 3 CSE 206 Discrete Structures CSE 201 2 1 0 3 CSE 314 Fundamentals of Software Engin. 3 0 0 3 EEE 200 Applied electricity 2 1 0 3 MEE 300 Mechanical Maintenance and 1 0 3 2 EEE 202 Applied Electricity Lab. 0 0 3 1 Repairs EEE 204 Basic Electronics 2 1 0 3 EEE 206 Basic Electronic Lab. 0 0 3 1 Total 14 3 9 20 EEE 232 Engineering Math II 3 0 0 3

GNS 202 Minds, Machines and Society 2 0 0 2 FET 300(SWEP) 2 - Units GNS 208 Family, Marriage System and Kinship Structure in comparative perspectives 2 0 0 2

Total 16 3 9 22

68 69 B. TECH (COMPUTER SCIENCE) - 400 LEVEL B. TECH (COMPUTER ENGINEERING) 300 LEVEL HARMATTAN SEMESTER HARMATTAN SEMESTER

Course Course T itle Pre Req. Hours Course Course Title Pre Req. Hours Code Units Code Units L P L T P T CSE 401 Principles of Programming Lang. 3 0 0 3 CSE 301 Computer Programming I CSE 201 2 0 3 3 CSE 403 Operating Systems CSE 314 3 0 0 3 CSE 303 Computer Logic I 2 1 0 3 CSE 405 Programming Project CSE 301 0 0 6 2 CSE 313 Network Analysis 3 0 0 3 CSE 407 Artificial Intelligence 2 0 0 2 CSE 309 Computer Engineering 2 0 3 3 CSE 409 Simulation and Modeling 2 0 0 2 CSE 331 Engineering Statistics 2 1 0 3 CSE 411 User Interfaces Design 2 0 3 3 EEE 305 Electronic Engineering I 2 1 0 3 CSE 413 Compiler Construction 2 1 0 3 EEE 309 Electronic Engineering Lab I 0 0 3 1 CSE 419 Computer Architecture 2 1 0 3 CVE 401 Project Methodology 1 0 0 1 MEE 213 Engineering Mechanics 2 1 0 3

Total 17 2 9 22 Total 14 5 9 22

Rain Semester -Long Vacation (Industrial Attachment)4 -Units B. TECH (COMPUTER ENGINEERING) Student Industrial Works Experience Scheme (SIWES) 300 LEVEL RAIN SEMESTER B. TECH (COMPUTER ENGINEERING) 400 LEVEL HARMATTAN SEMESTER Course Course Title Pre Req. Hours Code Units Course Course Title Pre Req. Hours L T P Code Units L T P CSE 304 Computer Logic II CSE 303 2 1 0 3 CSE 306 Digital Laboratory CSE 407 Artificial Intelligence 2 0 0 2 0 0 3 1 CSE 308 Assembly Language Programming CSE 409 Simulation and Modelling 2 0 0 2 2 0 3 3 CSE 318 Measurements and Instrumentation CSE 417 Microprocessor Systems Design 2 1 0 3 3 0 0 3 CSE 316 Computer Engineering Laboratory CSE 419 Computer Architecture 2 1 0 3 0 0 3 1 EEE 306 Electronic Engineering II CSE 421 Electromechanical system 2 1 0 3 2 1 0 3 EEE 310 Electronic Engineering Lab II CSE 423 Microprogramming 2 0 0 2 0 0 3 1 EEE 332 Engineering Maths III CSE 425 Microprocessor Laboratory 0 0 3 1 2 1 0 3 MEE 300 Mechanical Maintenance & Repairs CSE 427 Control Engineering 2 0 0 2 1 0 3 2 CSE 429 Power Electronics 2 0 0 2 MEE 214 Strength of Materials 2 0 0 2 CVE 401 Project M ethodology 1 0 0 1 MEE 216 Strength of Materials Lab. 0 0 3 1 Total 17 3 3 21 Total 14 3 18 23 Rain Semester -Long Vacation (Industrial Attachment)4 -Units FET 300 (SWEP) 2 - Units Student Industrial Works Experience Scheme (SIWES) 70 71 B. TECH (COMPUTER SCIENCE) TECH (COMPUTER ENGINEERING) 500 LEVEL - HARMATTAN SEMESTER 500 LEVEL - HARMATTAN SEMESTER

Course Course T itle Pre Req. Hours Co urse Co urse T itle Pre Req. Hour s Code Units Co de Units L P L P T T

CSE 507 Individual pr oject I 0 0 9 3 CSE 501 Software Engineerin g Project CSE 411 0 0 6 2 CSE 509 Hardwar e Design L aboratory 0 0 6 2 CSE 503 Software Engineerin g Methodo logies 2 0 0 2 E EE 401 E lectrical M aintenance & Repairs of CSE 507 Individual Project I 0 0 9 3 E quipment 0 0 3 1 CSE 515 Decision Sup port Systems 2 0 0 2 M GS 51 1 Indu strial Econo mics 2 0 0 2 MGS 51 1 Indu strial Econo mics 2 0 0 2 M GS 51 3 Principles of M anagem en t Accou nting 1 0 0 1 MGS 51 3 Principles of Managemen t Accou nting 1 0 0 1 M GS 51 5 Principles of Acco unting 1 0 0 1 MGS 51 5 Principles of Acco unting 1 0 0 1 CHE 551 Inventio ns and Patents 2 0 0 2 EEE 401 Electrical main tenan ce and R ep air of CSE E lectives (Any T wo of the 4 0 0 4 Equipment 0 0 3 1 E lective listed below CHE 551 Inventio ns and Patents 2 0 0 2 CSE 513 Advanced Artificial Intelligen ce 2 0 0 2 CSE Electives (Any One of the CSE 517 Co mpu ter Perf ormance E valuation 2 0 0 2 CSE 519 Info rmation Storage and Retrieval 2 0 0 2 CSE 513 electives below 2 0 0 2 CSE 521 Co mpu ter Graphics 2 0 0 2 CSE 517 Advanced Artificial Intelligen ce 2 0 0 2 CSE 519 Co mpu ter Performance Evaluation 2 0 0 2 T otal 14 0 18 20 CSE 521 Info rmation Storage and Retrieval 2 0 0 2 Co mpu ter Graphics 2 0 0 2 B. TECH. COMPUTER ENGINEERING

To tal 14 0 18 20 500 Level RAIN SEMESTER

Co urse Co urse T itle Pre H ou rs B. TECH COMPUTER SCIENCE Co de Re q. U n its L T P 500 LEVEL - RAIN SEMESTER CSE 504 H a rdw ar e System s Studies 2 1 0 3 C ourse C ourse T itle P re R eq. H ours CSE 506 D a ta Com mu nic atio n an d Com puter 2 0 0 2 C ode Units CSE 508 N e tw ork s 0 0 9 3 L T P CSE 522 Individua l Proje ct II 2 0 0 2 M G S 54 0 D igital Signa l Pr oce ssing 2 0 0 2 CSE 502 Softw are System Sem inar 2 0 0 2 T ec hnology Policy a nd L aw CSE 504 H ardw ar e System Stud ies 2 1 0 3 CSE 506 D ata Com mu nicatio n an d N etw ork 2 0 0 2 CSE 500 F ac ulty-W ide Ele ct ive (O ne ) CSE 508 Individual Project II 0 0 9 3 Cu rre nt Issue s in C omp ute r Sc ie nce an d 2 0 0 2 CSE 520 Co mpu ter Installatio n M an agement 2 0 0 2 CV E 55 2 E nginee rin g 2 0 0 2 CSE 524 O peratio ns Research 2 0 0 2 E EE 552 E le me nts of Civil En gine e ring Pr ac tice 2 0 0 2 M G S 54 0 T echnology Policy and L aw FSE 552 E le ctric al Insta llatio n 2 0 0 2 Faculty W ide E lectiv e 2 0 0 2 M E E 5 52 E le me nts of Food Pr oce ssing a nd 2 0 0 2 CSE E lective (A ny O n e of the 2 0 0 2 M G S 50 0 Pre serva tion 2 0 0 2 E lectives listed below ) E nginee rin g Risk-Ben efit A na lysis CSE 512 Co ncu rrent Prog ram ming System 2 0 0 2 CSE 510 T ec hnology, Po licy & L aw CSE 514 E xpert System s 2 0 0 2 CSE 512 2 0 0 2 CSE 518 Softw are E ngineerin g D evelo pment 2 0 0 2 CSE 514 C SE E le ctives ( A ny One ) 2 0 0 2 M G S500 T echnology, Po licy and Law 2 0 0 2 A dva nc ed Com pute r E nginee ring 2 0 0 2 Co ncu rrent Prog ram ming System To tal 16 1 9 2 0 E xpe rt System s

T ota l 1 6 19 0 20 72 73 DESCRIPTION OF COURSES CSE 301 COMPUTER PROGRAMMING1 3 UNITS 2-0-3 Fundamentals of C++ programming; Basic data types; Common C and C++ CSE 100 - Introduction to Computer Technology 1 Unit 1-0-0 Keywords; Console input and output; Control Structures: Repetitive and Basic parts of a Computer, Stored Program Concept, Computer selective control structures; Modular programming using Functions: Void Development, Algorithms: features, components. Flow-charing, Number functions, inline functions, function overloading and scope; Data types; Systems, Encoding and manipulation. Floating Point Representation of Pointers; Standard C++ strings; Classes: Constructors, copy constructors Numbers, Numerical Coding of characters. Storage Units - bits, bytes, words, and Destructors; Operator Overloading; Composition and Inheritance. blocks. CSE 302 COMPUTER PROGRAMMING II 3UNITS 2-0-3 CSE 201 - Basic Computer Programming 3 Units 2-0-3 Evolution of C#; C# and .Net framework; C# variants; Data types, Structured programming principles. Keywords and standard identifiers, structure of a programming language. I/O statements. Control structures, operators and C# keywords; Naming conventions in C#; Application Arrays, subprogramming, records files, sets, enumerated and sub-range data. interpretation; Methods and methods structures; Building applications and Use Pascal. introduction to classes; Building console applications; C# control structures and branching statements; object oriented paradigms in C#; polymorphism CSE 202 - Fundamentals of Computing 2 Units 2-0-0 and Encapsulation; Using Structs and interfaces in C#; Introduction to Design of algorithms: more problems (than in CSE 100) should be solved. delegates and events; introduction to exception handling. Data processing modes; time-sharing, multi-user, real-time, process control, batch processing, computer networks, Internet. Viruses: types, causes and CSE 303 - Computer Logic I 3 Units 2-1-0 prevention. Introduction to logic circuits. Elements of Logic circuits e.g. AND, OR, NOT and NAND gates. Logic functions and truth table. Application of CSE 203 - Basic Programming Laboratory 1 Unit 0-0-3 Boolean Algebra to logic circuits. Simplication using Boolean algebra This entails the use and application of structure programming in Pascal theorems. simplication using Karnaugh's maps. Electronic realization of Language to real life models. Typical examples should be emphasized. logic values and gates. Practical design and implementation of combinational circuits using selected standard integrated circuits. Logic CSE 204 - Introduction to Programming Applications 2 Units 1-0-3 families; open collector and tri-state gates and their applications. Semi- (a) Systems analysis and design concepts. Standard Software Engineering custom logic and programmable devices. Elements of sequential circuits e.g. documentation of programs. Linked list and pointer structure. (b) Laboratory R-S, J-K, D and T flip fops and their electronic realisation. problems: Each students picks on two professional problems relevant to one of Architecture, Agriculture, Science or Engineering and submits well- CSE 304 - Computer Logic II 3 Units 2-1-0 documented computer solutions to the problems. May be examined by a Analysis and design of sequential circuits, input triggered, clock triggered written or oral examination. Pascal Language should be used, emphasis circuits; races, hazards, consideration of common logic circuits such as should be on record and file structures. adders, comparators, decoders, counters, parallel and shift registers etc. Design and implementation of simple sequential circuits using selected CSE 206 - Discrete Structures 2 Units 3-0-0 standard integrated circuits. Interfacing; interfacing digital and analog Boolean Algebra: axiomatic definitions of Boolean algebras, duality, devices. Memory interfaces. Buses and device controllers. Bus standards. proposition and proposition functions truth values and truth tables. Logic: Serial and parallel interfaces. A/D and D/A Conversation. Predicate logic, propositional logic reasoning. Set theory: set algebra, recursive definition of sets, orderings, relations. Partially ordered sets, CSE 305 - Database Design and Management 3 Units 3-0-0 Lattices. Networks, directed and undirected graphs, sub graph circuits, paths Data analysis and modelling, Data models: relational, hierarchical and cycles, connectivity, adjacency and incidence matrices. network models. Database management system; specific examples. Query 74 75 Languages. Data integrity and data security. File organisations: sequential, circuitry (b) Reliability Component selection - sampled testing. random, indexed sequential, hierarchical, heap, hash-addressed, inverted. Mean Time Between Failure. Redundancy - component and system levels Database administration. Distributed database systems. Future directions in repetitive operation. Error detection and correction - Parity, Grey codes DBMS. Processing Errors, Fail safe/soft.

CSE 306 DIGITAL LABORATORY 1 UNIT 0-0-3 CSE 310 - Numerical Computation II 3 Units 2-1-0 Experimental designs to cover the following: Binary number systems: binary (a) Approximation Chebyschev polynomials, rational functions and continued functions.(b) Numerical integration and Differentiation Newton- decimal code; basic logic operations: discussions and experimental Cotes formulae, Gauss' integration formula (c) Numerical solution of procedures; AND gate; NOT gate; NAND gate; OR gate; NOR gate; Differential Equations The Euler Method; Runge-Kuta Methods Predictor- Combinational logic: De Morgan's Theorem; wired OR connection; corrector Methods Hyperbolic, parabolic and elliptic equations Error Karnaugh maps: Maps for three variables and maps for more than three estimation and convergence of the methods. variables; redundant states; the simple latch and clocked flip-flop: the clocked set-reset flip-flop; D type flip-flop; practical considerations and CSE 311 - Automata Theory and Computability 3 Units 3-0-0 applications; J-K flip-flop: discussions and experimental procedure; Comptabiity and complexity, Marcov algorithms, Functions of non- feedback; the edge-triggered JK; JK as a D-type; JK as a binary counter; negative integers, recursive and primitive recursion. Finite state machines and regular languages: deterministic machines. Equivalence and CSE 307 - Numerical Computation I 3 Units 2-1-0 minimization. Turing machines. Church's thesis, Simple examples of (a) Computation-Representation of numbers, errors Computation of intractable problems. NP-complete problems. function. (b) Solution of Non-linear Equations Newton-Raphson Method, iterative methods, Bairston's method, Aitken's techniques. (c) Systems of CSE 312 - Data structures and Algorithms 3 Units 3-0-0 Linear Equations - Gaussian elimination, triangularization method, literature Data structures: Application and implementation of the following data method. (d) Algebraic Eigenvalue Problems. The characteristic structures: strings, arrays, stacks, queues, lists, trees and graphs, including polynomial, the Power method, Gwens and Householder methods. different phases of graphs, and reachability matrix. Algorithms: Internal Sorting. External sorting. Searching. Merging. Analysis of algorithms. CSE 308 - Assembly Language Programming 3 Units 2-0-3 Introduction to machine and assembly language. Machine programming CSE 313 - Network Analysis 3 Units 2-1-0 model i.e. register sets and memory structure. Concepts and instruction Review of Network theorems: The venin's Norton's, Superposition, formats. Data word definition. Addressing techniques including absolute, relative, indexed and indirect modes. Implementation of high level language Reciprocity, Star-delta transformation and maximum power transfer. Two operations and constructs in assembly language. Stack operations. port networks: y-parameters, z-parameters, h-parameters, and transmission Procedures and parameter passing. I/O instructions and device handling. parameters. Responses of networks: Transient and steady state analysis. Operating System interfaces. Multi-module programs and their linkage. Network graphs and their application to network analysis. Complex Linkers and loaders. Relocating loaders. Interfacing assembly language quantities in a.c. networks Laplace transforms and applications. Fourier programs with high level language programs. Analysis: Real and complex form of Fourier series. Fourier analysis of complex waveform. Line spectra representation of periodic signals. Fourier CSE 309 - Computer Engineering 3 Units 2-0-3 transform and convolution concepts. (a) Circuits General requirements, circuit parameters - Fan in/out Noise immunity and generation, circuit topology, speed/power Basic circuits - CSE 314 - Fundamentals of Software Engineering 3 Units 3-0-0 Gates, flip-flops, registers, Counters, Circuit families - TTL, ECL, MOS, Introduction to Software Engineering. Software Engineering life-cycle. DRL, Special circuit - Pulse shapping, Driving, Adders, Tunning - Delays, Software specification and Conformity with specification, Requirements Strobing Interconnection, Backwinding, Interfacing, Peripheral equipment analysis, real-world modelling. Formal Specification Design techniques. 76 77 Implementation. Quality assurance; reviews, inspection, formal verification Meta-language. Comparative studies of programming languages and and validation testing strategies. Software reliability. Software project language design concepts; structural organisation, structures for names, data management; configuration management, planning, team-management; control and language syntax. Block structure languages. Modularity, data documentation and standards. Software Support Environment. abstraction, concurrency. Functional, object-oriented and logic programming languages and concepts. Language design principles. Kleen's CSE 316 COMPUTER ENGINEERING LAB. 1 UNIT 0-0-3 theorem, top-down and bottom up parsing, grammars, regular expressions. Equivalence, non-equivalence and other circuit: discussions and CSE 403 - Operating Systems 3 Units 3-0-0 experimental procedure; equality detector; practical considerations and Function and objectives of an operating system. The Process concept and applications; binary addition: simple adder; alternative adder; full adder; introduction to concurrency. Competing and co-operating processes. Mutual addition of multi-digit numbers; two-bit parallel adder; serial adder; exclusion, critical regions semaphores, monitors, rendezvous, deadlock. Job registers: parallel input; simple register stage; parallel output; shift registers; and process management. Memory management. Device management. gated parallel input; reversible shifting; synchronous counters; Information Management Protection issues. Performance. Case Studies. asynchronous counters; up-down counters; code and code converters. CSE 405 - Programming Project 2 Units 0-0-6 CSE 318 - Measurement and Instrumentation 3 Units 3-0-0 This is a practical project involving an application from any of the Basic Concept of Measurements: Units. Theory of errors; systematic and programming courses in levels 200 and 300. Applications development may random errors. Measurement of circuit parameters: DC and AC signals. be carried out using any programming language e.g. C. PASCAL, C++, Java, Resistance, inductance, capacitance and impedance. Bridge measurement. Delphi, LISP, PROLOG, VB, FORTRAN. Sallen-key. Maxwell etc. Indicating instruments: moving coil, moving iron, dynamometer. Treatment of various types of ammeters, voltmeters, ohm CSE 407 - Artificial Intelligence 2 Units 2-0-0 meters and their calibration. Electrostatic indicating instruments. AC Techniques of AI. Knowledge Representation. Problem solving, state space Measurements. Multimeters. Measurement of power and energy. Instrument search, heuristic, pattern recognition, classification, inference, grammars, potentiometers. The Oscilloscope: Applications of the CRT to knowledge elicitation, knowledge engineering. Artificial intelligence measurements. Pen recorders. Transducers: Measurements of pressure, applications; Natural language, Vision, Robotics, Expert systems, Machine velocity, temperature, strain, displacements, flow etc. brief introduction to learning. Artificial intelligence tools. Introduction to Prolog, Introduction to data logging, interference, screening and grounding. Signal processing and LISP, Expert system shell programming. modification. Analogue and digital display units. Design application. CSE 409 - Simulation and Modelling 2 Units 2-0-0 Modelling: various types of models. Properties of linear models. Model CSE 331 ENGINEERING STATISTICS 3 UNITS 2-1-0 building techniques. The black box approach. Rule of models in a study. Introduction to statistics; Measures of dispersion: mean, median, mode, Financial modelling. Inter-linked models. Corporate modelling. Simulation: geometric mean, harmonic mean for grouped and ungrouped data. Simulation methodology. Use of simulation languages. Generation of Correlation and regression analysis; Probability theory: Definition, axioms, random numbers. Pseudo-random number generators. Transformation of random numbers. Tests of randomness. Parameter estimation. Maximum Normal, binomial, poison distributions, mathematical expectations, likelihood. Least mean square error. probability density function; Elementary sampling theory; Test of hypothesis and significance: Chi-square, F-test, T-test: Analysis of variance; CSE 411 - User Interfaces Design 2 Units 2-0-0 Introduction to SPSS. Human Performance: memory, perception, skill learning, task closures, motivation, performance motor skills, attention and fatigue. Types of users; CSE 401 - Principles of Programming Languages 3 Units 3-0-0 Casual, naive, learning, expert. Collecting and evaluation behavioural data. Formal definition structures. Formal description of syntax and semantics. System performance and its effect on users; response time. Styles of interaction; command languages, form-fill direct manipulation, 78 79 hierarchical/network systems, desk-toll metaphor, browsing. Help characteristics of D.C. generators. Excitation of D.C. machines. Torque- Mechanisms, conventional, context sensitive, hypertext, error handling, speed characteristics of D.C. motors. A.C. Machines: production of rotating implicit cues; Graphs; tools and graphical user interfaces. Dialogue design magnetic fields. Simple theory of three phase induction motors; torque methods; dialogue principles, dialogue description languages. Task analysis speed characteristics, three-phase induction motors. Single-phase motor - and ergonomics. applications. Selection of motors, for practical applications. Synchronous CSE 413 - Compiler Construction 3 Units 2-1-0 machines. Special machines: Stepper motors and brushless motors. Compilers and Interpreters. Main phases of compilation: Lexical analysis, syntax analysis, semantic analysis, code generation, issues in Compiler CSE 423 - Microprogramming 2 Units 2-0-0 design; Symbol tables, program compilation, loading and execution. Addressing Modes, Immediate and Extended, Addressing, Modified page Compilation techniques; One-Pass, Two-Pass Storage Allocation. Object zero addressing indexed, Register and Inputed addressing. Stack pointer code for subscripted variables. A simple complete compiler: organisation, and subroutine, Addressing, Status indicators, Carry, add/subtract, subroutine and function compilation. Bootstrapping techniques. Multi-pass parity/overflow, zero and sign compilation. Optimisation techniques; local expressions, loops and global Flags, interrupts, Types, interrupt enable-disable. Load and exchange optimisation. instructions. Bit manipulation Jump, Call, Return, Input/Output instructions. CSE 417 - Microprocessor Systems Design 3 Units 2-1-0 Microprocessors and microcomputers; microcomputer structure. Bit slices CSE 425 MICROPROCESSOR LABORATORY 1 UNIT 0-0-3 and 8/16 bit processors. Microprocessor architectures. Input/Output Microprocessor and microcomputers: microcomputer structure; interface adapters: Memory: RAM, ROM and memory mapped I/O, Interrupt types, interrupt handling, polling and vectored interrupts. Direct introduction to the MAT968 and MIC960; Connections and power up; memory Access methods. Software Development and debugging aids; Entering and running a program; Binary and Hexadecimal number system; editors, assemblers linkers, cross-compilers. Firmware development tools. Addresses, codes and data; Microprocessor structure: 68000 structure and Hardware development aids: evaluation and development systems, logic programming model; introduction to instruction set: immediate analysis, in-circuit emulation. addressing; introduction to the status register; flag manipulation, testing flags and making simple decisions; forward branch offset and backward CSE 419 - Computer Architecture 3 Units 2-1-0 branch offset; time delays and subroutines; driving the audio unit; driving Hardware features of modern computer systems structural and functional the stepper motor; running the stepper motor; setting inputs and outputs; characteristics of computer systems components. Organization and design digital to analogue conversion; analogue to digital conversion; using the of digital computing systems; description of current typical computing strain gauge and temperature sensor. structures. CPU configuration and possible architecture software/hardware trade offs. CSE 427 - Control Engineering 2 Units 2-0-0 Introduction: Classification and examples of control systems. Control CSE 421 - Electromechanical System 3 Units 2-1-0 system terminology, open loop and closed loop block diagram model. Transformer: Magnetic circuits, transformer construction, operation and Transfer function: Mathematical model of feedback systems. Types of types. Ideal transformer. Equivalent circuits and basic analysis of practical response, second order system, open loop and closed loop transfer transformers. Open-circuit and short-circuit tests. Phasor diagrams. functions. System Stability: Characteristics of the system stability. Root Regulations of a transformer. Efficiency of a transformer. Auto-transformer. locus. Rough test and Nyquist criterion, Hurwitz stability criterion. Conversion of 2-winding transformer into Auto-transformer. Parallel Fractional stability criterion. Block diagram Algebra: Procedure, blocks in operation of single-phase transformers. Electromechanical Systems: Energy cascade, canonical form of feedback system. Multi-input system. conversion. Dynamics of Electromechanical systems. Equivalent circuits, Reduction techniques signals flow graphs. Input-output formula. Reduction doubly and multi-excited systems. D. C. Machine contraction, by signal flow graphs. Analysis & Design: Objective of analysis; root-locus 80 81 analysis and design. Nyquist analysis and design. Bode analysis. Construct Interfaces and configuration Computer application nodes Batch processing, M circles, construct N-circles, Nichols chart. Compensation techniques; Real time; Timesharing Multiplexing/Demultiplexing MODEMS, ADC lead, lag, lead-lag and lag-lead compensation. Systems Viability' Graceful degradation MITTR, MTBF, etc Computer selection for a given application, economic versus technical consideration. CSE 429 - Power Electronics 2 Units 2-0-0 Characteristics and industrial applications of thyristors and other SCR CSE 505 - (Now CSE 409) Simulation and Modelling of Physical devices. Use of transistors as switches, power control circuits, ac-dc Systems 2 Units 2-0-0 converters. Transducers and their industrial control applications. Sensing Formulation:- System Definition, Classification of model, characteristics of pressure, motion, voltage, current etc. Mechanical relays, solid state relays, models Methodology: Defining and documenting the problem. Analysis of stepping motors. Real time and remote control concepts in instrumentation. data requirement, formulation of subsystem models, integration of Micro processor based systems. subsystems, parameter estimation, Debugging the simulator validating and running the simulator. Experimental Design: Selecting a statistical CSE 500 - Current Issues in Computer Science and Engineering procedure, variance reduction Technique - Monte Carlo, Random Number 2 Units 2-0-0 Generators. Simulation Languages: Features of FORTRAN, GPSS, GASP, Current issues in vogue should be taught e.g. The Internet. Preference should Comparison of simulation languages. A case study choice of a language. be given to applied computing concepts. CSE 506 - Data Communication and Computer Network CSE 501 - Software Engineering Project 2Units 0-0-6 2 Units 2-0-0 Problem Specification. Software system design and realisation of software The principle of multiprogramming, multiaccess Multi-processing; Satellite system design. (NOTE: Group projects intended to provide a mastery of the computers; multiplexer. Timesharing and Real Time; Linked Computers and techniques necessary for rigorous and disciplined approach to team software computer bus; Micro-computer networks management and operating construction should be emphasised). consideration. Description of a particular network e.g. APPANET, Novel NetWare etc. CSE 502 -Software Systems Seminar 2 Units 2-0-0 Various topics relating to modern software system environments/packages: CSE 507/508 Individual project Laboratory I & II 6 Units 0-0-18 UNIX and Programmers Development System, Microsoft, Visual C++; These Courses afford the students the opportunity to try their hands on Oracle CASE Tools, NIGRESS Database Management System; Turbo C++ problems in one of the professional areas of emphasis viz Software environment; Microsoft C Development System; Geographic Information Engineering, Computer systems Design, Knowledge-base Systems, System Packages - MIPS, ARC/INFO Hardware System design, and theoretical computer Science and Engineering. CSE 503 - Software Engineering Methodologies 2 Units 2-0-0 In depth study and comparison, including target system's conceptual basis, CSE 509 - Hardware Design Laboratory 2 Units 0-0-6 notation, tools and type, of some generalised and some specific approaches This course is meant to provide students the opportunity to make their own to systems development. Design and abstraction, Process-Oriented design. hardware designs as teams and individuals and attempt to construct such Data flow analysis. Data and object-oriented design. Comparison of process, design under the guidance of the course instructor. data and object-oriented design. Design of real time systems. CSE 510 - Advanced Computer Engineering 2 Units 2-0-0 CSE 504 - Hardware System Studies 3 Units 2-1-0 Packaging, bounding and inter-connection techniques Method line and A survey of fundamentals with emphasis on hardware and systems concept multilayer platters. Cooling Monitoring and fault-finding in Large Systems, 82 83 fault-tolerance diagnostic software. Large scale integration examples for robustness, usability and correctness. Systems investigation and analysis, slow/medium speed applications. fact finding, fact recording and appraisal, Report writing, systems implementation; change-over techniques, system documentation. Systems CSE 512 - Concurrent Programming System 2 Units 2-0-0 maintenance monitoring and evaluation. Correctness of data form design. Concurrent program design. High level language presentation of Code design. Method of validation. Design of error reports. Externally concurrency. Software for concurrent systems; Cooperating and created batch controls. Check digits, Error resubmission control. File controls. Recovery; Father and Son methods, dumps and journals, communicating processes. checkpoints and restarts, duplicated files, hard copy back-up. CSE 513 - Advanced Artificial Intelligence programming 2 Units CSE 519 - Information Storage and Retrieval 2 Units 2-0-0 2-0-0 Structure analysis, organization, storage, searching and retrieval of The Non-von Neumann programming paradigm functional programming; information. Procedures for dictionary construction and dictionary look-up, pure functions, functional Languages. Primitives, composition, recursion, information searching and matching procedures, automatic information Polymorphic data types, structures; functional types higher order functions, dissemination systems and methods for user interaction with the combinations, Lazy evaluation infinite data structures, conceptual mechanized system. parallelism interactive systems Advanced LISP Programming. Logic Programming: Logic, axioms, reference, proof, Clausal form, resolution, CSE 521 - Computer Graphics 2 Units 2-0-0 unification pattern matching Green's device, Prolog, Horn clauses, Displays: line and point plotting systems: raster, vector, pixel and point constrained resolution, linear strategy, backtracking. Modes, instantiation, plotters. Continual refresh and storage displays. Devices: Very high rich-ground computation, Advanced prolog programming. New Applications resolution devices. Display processors character generators. Display technique: Colour display techniques. Display description. Screen and developments. coordinates, user coordinates. Graphical data structures. Display code generation. The viewing algorithm. Transformations. Interactive graphics: CSE 514 - Expert systems 2 Units 2-0-0 Pointing and positioning devices e.g. cursor, light-pen digitising tablet, Definition of Expert systems are. Basic concepts for building expert system. mouse and track balls. Interactive graphical techniques e.g. positioning, Architecture of expert systems. Construction of expert systems. Tools for elastic lines, windowing, zooming, clipping etc. Graphics Software: three building expert system. Reasoning about reasoning; evaluation of expert dimensional graphics, Workstation models; bit-mapped, raster operations, systems Languages and tools for knowledge engineering. post script. Graphics standards: e.g. PRIGS and GKS. CSE 515 - Decision support systems 2 Units 2-0-0 The characteristics of decision support systems problem formulation. Linear CSE 522 - Digital Signal Processing 2 Units 2-0-0 programming, simplex algorithm, transport and assignment problems. Review of signals and systems; Convolution and Fourier Analysis. Analog Inventory problems. Critical Path Method and Program Evaluation and signals and sampling rate conversion. Signal sampling and reconstitution. Review Technique. Discrete time systems. The z-transform. Infinite Impulse Response (IIR) digital filter design. Finite Impulse Response (FIR) digital filter design. Discrete Fourier Transform (DFT). Fast Fourier Transform (FFT). Effects CSE 517 - Computer Performance Evaluation 2 Units 2-0-0 of finite computation accuracy. Implementation of digital filters. Measurement techniques, simulation techniques, analytic techniques; Work- Applications of digital signal processing. load characterization performance evaluation in selection problems; performance evaluation in design problems; evaluation of program CSE 524 OPERATIONS RESEARCH 2 UNITS 2-0-0 performance. Overview of the operation research modeling approaches; :Linear programming model; assumption of linear programming; simplex method; CSE 518 - Software Engineering Development 2 Units 2-0-0 two-phase method; Artificial variable technique; minimization and Efficiency, timeliness, security, compatibility, maintainability flexibility, 84 85 maximization two-phase method; Transportation simplex method; tableau DEPARTMENT OF ELECTRONIC AND ELECTRICAL initialization, optimal test, and iteration; Assignment problems: formulation ENGINEERING and solution. Directed network; shortest path problem: Algorithm for spanning tree problem; Maximum cost flow problem; Minimum cost flow VISION problem; Network simplex problem; project planning and control with “To attain excellence in teaching, research and technological development PERT_CPM. Deterministic Model: continuous review: Economic Order in every aspect of Electronic and Electrical Engineering”. Quality model (EOQ); Periodic Review: Production planning; Stochastic MISSION Models: Single Period model; Two-period inventory model; Multi-period Our mission is to advance knowledge and educate students in science, model. One-dimensional search: Golden section search derivations; Taylor engineering and technology, to turn out highly proficient graduates to series and conditions for local optimal; Convex/concave functions and global serve the nation and the world in the 21st century. We are dedicated to optimality; Gradient search; Newton's method; Quasi-Network method and providing students with quality education through thorough academic BFGS search, Language multipliers method; Karush-Kuhu-Tucker training and persistent intellectual motivation to stimulate creativity and optimality conditions; Penalty and barrier method. innovations for the betterment of the society and the entire human race. INTRODUCTION The Department started from the inception of the university as one of the departments in the faculty of Engineering and technology. It aims at producing high level man-power in the field of Electronic and Electrical Engineering. Graduate Engineers of the departmental programme are trained to be self-reliant and competent in the basic maintenance of electrical industry in Nigeria and abroad. Some of the graduates of the department are trained to be self-employed and be able to start small scale industries in the areas of communications, Electronic, control Engineering and Electrical power systems, such industries are expected to grow into large ones over some years. AIM AND OBJECTIVES The main objective of the undergraduate programme in the department is to produce graduates who will be well qualified to: 1. Initiate and carry out engineering design and fabrication of electronic and electrical equipment and systems. 2. Pursue research and developmental work in the field of electronic and electrical engineering and 3. Engage in industrial management in such a way as to become self- reliant within a few years of graduation. In the pursuit of these objectives, the academic curriculum is amalgamated with industrial training programme leading to the award of a bachelor degree. The department has been structured in a way to refine and build students with related engineering principles and enable young graduates demonstrate the versatility of electricity to work readily, 86 87 efficiently. TOTAL NUMBER OF UNITS REQUIRED FOR GRADUATION PHILOSOPHY To be eligible for the degree of B. Tech in Electronic and Electrical Upon admission, the students, from the very outset the students are given Engineering, a candidate must satisfactorily complete a minimum of 196 advanced edge of their high school sciences concentration called basic units which are made up as shown below. In addition, a minimum of 40 courses and are fundamentally equipped with sciences of Physics, Chemistry, weeks of students' Industrial work experience scheme (SIWES) during the Mathematics and Biology. General studies also equip them with ability to long vacations of years II and III plus the second semester of Year IV must be communicate effectively, syntactically fit to operate within the structures of satisfactorily completed by a candidate to qualify for the award of a degree. the society and future managerial positions. The curriculum is concentrically Compulsory courses carved to focus on engineering from the second to the fifth year of the University requirements programme. It is designed to furnish prospective engineers with concepts, Basic Sciences 33 units theories and the principles of electronic and electrical engineering. General studies 13 units Sessional breaks of year II and III students are devoted for workshop Computer studies 1 unit experience while the whole of the second semester of the fourth year is Faculty / Department requirements 135 units devoted to industrial training. In the fifth year, the students specialize on either. Electrical power systems and machines, Electronic engineering or Electives communication. Advanced core courses are also inculcated at 500 level as Restricted electives 14 units electives. Grand total 196 units ADMISSION REQUIREMENTS HISTORY OF THE PROGRAMME/SUB-DISCIPLINE/DISCIPLINE The minimum requirements for admission are five 'O' level credits in the The Bachelor of Technology (B. Tech) programme in Electronic and SSCE or GCE Ordinary level which should include English, Mathematics, Electrical Engineering started in 1990/91 session. The main objectives of the Physics and Chemistry. Candidate in the following categories may also be programme are teaching and Research in the field of Electronic and considered individually on their own merit expected from appropriate lower Electrical Engineering. level courses. The Department started with (thirty-one) 31 students in 1990/91 and has a. Holders of two GCE 'A' levels in Mathematics and Physics grown to about Nine hundred and sixty two (962) in the current academic b. Holders of the HND or OND (upper credit) in Electrical session 2012/2013. Till date 2325 (two thousand, three hundred and twenty Engineering from recognized institution. five) students have graduated with B. Tech in the Department. c. Others with non-orthodox attestations of competence in (a) THE ORGANOGRAM Electrical engineering, Electronics, Telecommunications, Head of Department Physics and Mathematics. DEGREE OFFERED The undergraduate programme in the department leads to the award of a Student Chief Technologist Secretary Advisor B.Tech degree (Honours) in Electronic and Electrical Engineering.

PROGRAMME WORKLOAD ON STUDENTS Lecturers Graduate/ Technologists & Teaching Technical Officers The programme workload on students include period of formal studies in the Assistants university, industrial training, planned visit and projects. This comprises: Typist Student Clerk & Technical Office i. 9 semesters of course work consisting of lectures, tutorials and Assistant Assistants practicals and assigned projects. ii. 1 full semester plus 2 long vacation periods of industrial attachment. Laboratory Assistants & Attendants 88 89 (b) Regular Departmental meetings are held by the HOD with the officially released only after the Senate has approved them. Senior Staff in the Department to deliberate on academic and other matters in relation to the Department and take appropriate decisions. Staff members Academic Atmosphere represent the Department on various committees in the Faculty/University and report back to the HOD from time to time. Academic Staff members maintain regular office hours during which students are free to consult on or discuss their problems. The Department (c) The University has a good policy on staff development and quite a runs regular seminars for staff and students on academic fields, I. T. Practical number of staff in this Department have benefitted from this policy. experience acquired by the students, and project writing methodology. Teaching and Graduate Assistants have enjoyed study leave with pay to pursue higher degrees in some local Universities. Technical and PROGRAMME / WORK LOAD BY STUDENTS Administrative staff have also been sponsored for in–house training courses in Management Science, Word Processing and Computer Studies. The programme workload by students includes periods of formal studies in the University, Industrial Training, planned visit and projects. This (d) Promotion of staff is in accordance with the laid down University comprises of; guidelines. I. 9 Semesters of course work consisting of lectures, tutorials, Student's Welfare practicals and assigned projects. ii 1 full semester plus 2 long vacation periods of industrial (a) All academic problems such as wrong results, incorrect attachment. computation of GPA, etc. that cannot be solved by the student adviser are reported to the HOD for further necessary action. There COURSE OUTLINE AND CONTENT OF ALL COURSES IN THE is also a Departmental Student Association through which collective grievances are brought to the attention of the HOD for DEPARTMENTAL PROGRAMME resolution. (b) Department operates a staff advisory system with one academic 100 LEVEL HARMATTAN SEMESTER staff member being appointed for each student level i.e. 100 level student has COURSE HOURS an adviser and the same with the four other levels. CODE COURSE TITLE PRE- L T P UNITS REQ. Examinations MTH 101 Elementary Mathematics I 4 1 0 5 One academic staff member is appointed each year by the HOD to serve as CHM 101 Introductory Chemistry I 3 1 0 4 the Examinations Officer. This Officer and the HOD oversee the CHM 191 Experimental Chemistry I 0 0 3 1 examination matters and also represent the department on the Faculty PHY 101 General Physics I 3 1 0 4 Examinations committee. Course examination questions are set by the PHY 103 Experimental Physics I 0 0 3 1 course lecturers and handed over along with the solutions and marking GNS 101 Use of English I 2 0 0 2 scheme to the HOD who is the Chief Examiner, for moderation and other FAA 101 Fundamentals of Drawing 2 0 0 2 necessary processing. The students' answer scripts are given to the course BIO 101 General Biology I 2 1 0 3 lecturers for grading. These lecturers submit the students' grades together BIO 103 Experimental Biology I 0 0 3 1 with the answer booklet to the HOD who in turn works with the LIB 101 Use of Library 1 0 0 0 Departmental examinations officer for the collation and processing of the Total Number of Units 23 results. The results are presentedto the department board of examinaland to the Faculty Board of Examiners for ratification before being considered by the Committee of Deans and Senate for final approval. The results are 90 91 100 LEVEL RAIN SEMESTER 200 LEV EL RAIN SEMESTER

COURSE COURSE TITLE HOURS COURSE TITLE PRE-REQ. HOURS UNITS CODE PRE-REQ. L T P UNITS COURSE L T P MTH 102 Elementary Mathematics II 4 1 0 5 CODE CHM 102 Introductory Chemistry II 3 1 0 4 EEE 232 Engineering Analysis II EEE 231 2 1 0 3 CHM 192 Experimental Chemistry II 0 0 3 1 CSE 204 Introduction to Computer 2 0 0 2 PHY 102 General Physics II 3 1 0 4 EEE 204 Basic Electrical Engineering II EEE 201 2 0 0 2 PHY 104 Experimental Physics II 0 0 3 1 EEE 206 Basic Electrical Engineering Lab II EEE 203 0 0 3 1 GNS 102 Use of English II 2 0 0 2 EEE 208 Electrical Engineering Material 2 0 0 2 MEE 202 Engineering Drawing II 1 0 3 2 GNS 104 Science and Technology in Africa Through 2 0 0 2 MEE 204 Workshop Technology II 1 0 3 2 CSE 100 the Ages 1 0 0 1 MEE 214 Strength of Materials 2 0 0 2 BIO 102 Introduction to Computer Technology 2 1 0 3 MEE 216 Strength of Materials Lab. PHY 0 0 3 1 BIO 104 General Biology II 0 0 3 1 PHY 202 Elementary Modern Physics 101/202 3 0 0 3 Experimental Biology II GNS 208 Family Marriage System & Kinship Total Number of Units 24 Structure in comparative 2 0 0 2 perspective Total Number of Units 22

200 LEVEL HARMATTAN SEMESTER FET – 200 (SWEP) 2 (Units)

COURSE COURSE TITLE PRE-REQ. HOURS UNITS 300 LEVEL CODE L T P HARMATTAN SEMESTER EEE 231 Engineering Analysis I MTH 101/102 3 1 0 4 CSE 201 Basic Computer Programming CSE 100 2 1 0 3 COURSE COURSE TITLE PRE -REQ. HOURS UNITS EEE 201 Basic Electrical Engineering I PHY 101/102 2 1 0 3 CODE L T P EEE 203 Basic Electrical Engineering PHY 103 / 0 0 3 1 EEE301 Electromagnetic Fields and Waves EEE 201 2 1 0 3 Lab I 104 EEE303 Electric Circuit Theory I EEE201 2 0 0 2 EEE305 Electronic Engineering I EEE204 2 1 0 3 MEE 201 Engineering Drawing I 1 0 3 2 EEE307 Electrical Machines I EEE 201 2 1 0 3 MEE 203 Workshop Technology I 1 0 3 2 EEE309 Electrical Engineering Lab EEE 206 0 0 3 1 MEE 205 Engneering Materials I 2 1 0 3 EEE311 Signal & Systems Analysis EEE 201 2 0 0 2 MEE 207 Fluid Mechanics 2 0 0 2 CSE331 Engineering Statistics 2 1 0 3 MEE211 Engineering Thermodynamics I 2 0 0 2 MEE 209 Fluid Mechanics Lab. 0 0 3 1 MEE213 Engineering Mechanics 2 1 0 3 MGS 201 Technology and Society 1 0 0 1 Total Number of Units 22 GNS 209 Elements of Administrative Science/Citizenship Education 2 0 0 2 otal Number of Units 24

92 93 500 LEVEL 300 LEVEL HARMATTAN SEMESTER RAIN SEMESTER COURSE COURSE TITLE PRE-REQ. HOURS UNITS COURSE COURSE TITLE PRE-REQ. HOURS UNITS CODE CODE L T P L T P EEE302 Digital Electronics EEE204 2 1 0 3 EEE501 Assigned Project I 0 0 9 3 EEE304 Electric Circuit Theory II EEE303 2 0 0 2 EEE503 Industrial Electronics EEE306 2 0 0 2 EEE306 Electronic Engineering II EEE305 2 0 0 2 EEE505 Network Synthesis EEE304 2 0 0 2 EEE316 Electrical Machines II 2 1 0 3 EEE507 Electronic/Electrical EEE312 2 0 0 2 EEE310 Electronic Eng./Lab . 0 0 6 2 Instrumentation 2 0 0 2 EEE312 Measurement and Instrumentation 2 0 0 2 MGS511 Industrial Economics 1 0 0 1 EEE314 Acoustics Systems 2 0 0 2 MGS513 Principles of Management 1 0 0 1 EEE332 Engineering Analysis III EEE232 2 1 0 3 MGS515 Principles of Accounting 2 0 0 2 MEE300 Mechanical Maintenance and Repairs 2 0 0 2 CHE519 Invention and Patents 6 Total Number of Units 21 Departmental Electives FET – 300 (SWEP) 2 (Units) Total Number of Units 21

500 RAIN SEMESTER 400 LEVEL HARMATTAN SEMESTER COURSE COURSE TITLE PRE-REQ. HOURS UNITS COURSE COURSE TITLE PRE-REQ. HOURS UNITS CODE L T P CODE L T P EEE502 Assigned Project II. 0 0 9 3 EEE401 Electrical Maintenance and Repair of 2 0 0 2 EEE504 Electrical Services Design. 2 0 0 2 Equipment 2 1 0 3 EEE506 Current Trends in Electronic EEE403 Communication Principles 2 1 0 3 and Electrical Engineering. 2 0 0 2 EEE405 Control Engineering Principles 2 1 0 3 EEE508 Application of EM Principles. EEE301 2 1 0 3 EEE407 Electrical Power Principles 2 0 0 2 MGS540 Technology Policy and Law 2 0 0 2 EEE409 Physical Electronics 2 0 0 2 Faculty – Wide Elective 2 EEE415 Power Electronics 0 0 3 3 Departmental Elective. 6 EEE413 Engineering Laboratory EEE302 3 0 0 3 ------CSE417 Microprocessor System Design 2 0 0 2 20 CVE401 Project Methodology Total Number of Units 23 (vi)Departmental Electives: HARMATTANAny Two From: 400 LEVEL 1.Electric Power Systems Option RAIN SEMESTER COURSE COURSE TITLE PRE-REQ. HOURS UNITS CODE L T P FET 400 Student Industrial Work Experience EEE511 Power Systems Engineering I EEE407 2 1 0 3 Scheme (SIWES) 6 Units EEE513 Electric Energy Utilization. EEE407 2 1 0 3 EEE515 High Voltage Engineering and Switch Gear Technology 2 1 0 3

94 95 2.Communication Option 3.Electronic Engineering Option COUR SE COURSE TITLE PR E-R EQ. HOUR S UNIT S COURSE COURSE TITLE HOURS UNITS CODE L T P CODE L T P EEE521 Telecommunication Systems EEE403 2 1 0 3 EEE 532 Solid State Electronics II 2 1 0 3 EEE523 Engineering I EEE301 2 1 0 3 EEE534 Quantum Electronics 2 1 0 3 EEE525 Radio and TV Engineering EEE536 Electronic Devices: Design and Fabrication 2 1 0 3 Information and Statistical 2 1 0 3 Communication Theory (viii)FACULTY-WIDE ELECTIVE COURSE – ANY ONE FROM:

COURSE COURSE TITLE HOURS UNITS 3.Electronic Engineering Option CODE L T P EEE500 Electrical Installation 2 0 0 2 COURSE COURSE TITLE HOURS UNITS CSE500 Computer Models of Physical and Engineering Systems 2 0 0 2 CODE L T P EEE531 Solid State Electronics I 2 1 0 3 CVE550 Elements of Civil Engineering Practice 2 0 0 2 FSE500 Elements of Food Processing and Preservation 2 0 0 2 EEE533 Electronics Engineering III 2 1 0 3 MEE552 Engineering Risk-Benefit Analysis 2 0 0 2 EEE535 Microelectronic Technology 2 1 0 3 MGS500 Entrepreneurship 2 0 0 2

(vii)Departmental Electives: 2.2. DESCRIPTION OF COURSES RAIN Any Two From: EEE 200 – Applied Electricity (2-1-0) 1.Electric Power System Option Terminal description and applications of resistors, capacitors, inductors, and transformers. Circuit analysis using Kirchoff's voltage law (KVL), COURSE COURSE TITLE PRE- REQ HOURS UNITS kirchoff's current. Law (KCL), and superposition theorem. Periodic CODE L T P waveforms and their effective values. Power and energy in electric circuits, single time constant circuits. Concept of impedance and admittance. EEE512 Power Systems Engineering II EEE 511 2 1 0 3 Elementary treatment of resonant circuits and their applications. Brief discussion of vacuum diode and triodes, tetrode and pentodes, their EEE516 Electrical Machines III EEE 511 2 1 0 3 characteristics and applications. Elementary treatment of semiconductor EEE514 Power Systems Communication and devices like the junction diode, zener diode and bipolar transistor, their characteristics and their applications, e.g. p-n junction as a rectifier, the Control of Electrical Machines 2 1 0 3 zener diode as a regulator and the transistor as an amplifier; concept of biasing. Brief mention of other semiconductor devices such as the light Emitting Diode (LED), Field Effect Transistor (FET), and integrated 2.Communication Option Circuits (IC's) and their uses. Introduction to logic gates and their applications. Introduction to electrical machines. Direct current (DC) COURSE COURSE TITLE PRE-REQ HOURS UNITS generators and motors. CODE L T P EEE522 Telecommunication Systems Engineering II EEE 403 2 1 0 3 EEE 201 – Basic Electrical Engineering I (2-1-0) EEE526 Microwave Engineering EEE 521 2 1 0 3 Brief history of electrical engineering. Review of basic electrostatics, Terminal and physical and physical description of electric circuit elements: EEE524 Digital communication Principles and System EEE 403 2 1 0 3 resistors, capacitors, inductors, mutual inductors, transformers, voltage and current sources. Network theorem; Kirchoff's voltage law (KVL), 96 97 Kirchoff's current law (KCL, Thevenin, Norton and superposition theorems. on logic gates to determine their TRUTH tables. Students will be expected to Power and energy in electric circuits. Equivalences. Periodic waveforms and design, construct and test some simple circuits of their choice. their effective values. Transient and steady state response of electric networks. Single time constant circuits, concepts of impedance and admittance. Elementary treatment of resonant circuits. EEE 208 – Electrical Engineering Materials (2-0-0) Review of magnetic fields of currents in space. Magnetic flux and flux Atomic structure and bonding in solids, bond strength and properties. density. Brief discussion of magnetic circuits. Transformers: their features Electrons in solids; metallic conductors, insulators and semiconductors. and applications: polyphase systems. Introduction to electrical machines: Dielectric properties- permittivity, polarization, frequency response, Direct Current (DC) motors and generators Electric lamps and illumination. Electrical properties - conductivity, resistivity, breakdown piezo-electric and ferroelectric effects Magnet properties - atomic moment, permeability EEE 202 – Applied Electricity Laboratory (0-0-3) hysteresis Thermal and optical propertiss of materials. Introduction to This course consists of experiments designed to familiarize the students with transducers. the use of electrical measuring instruments such as ammeters, voltmeters, ohmmeters and oscilloscopes. The experiments will also acquaint the EEE 231 – Engineering Analysis I (3-1-0) students with the use of power supplies, sinewave oscillators and pulse Principles of Differential Calculus, Applications to plane, curves, tangent, generators such as power and signal sources. Simple experiments will also be normals and curvature. Sequence and series Talylor's and Maclaurin's performed using diodes. series; to include functions of several variables Maxima, Minimal and Saddle point. Approximate solution of equations. Principles of integral EEE 203 – Basic Electrical Laboratory I (0-0-3) calculus. Numerical integrations. First and second order differential This course consists of experiments designed to familiarize the students with equations. Multiple integration; line, surface and volume integral. Partial the use of electrical measuring instruments like ammeters, voltmeters, Differential equation and applications to Engineering problems. ohmmeters, fluxmeters, oscilloscopes and bridges for direct current (d.c.) as Introduction to Fourier series analysis. Fourier transforms. Laplace well as alternating current (a.c.) circuits. The experiments will also acquaint the students with the use of power and signal sources like power supplies, transforms and simple applications to Engineering. Integral functions: sinewave oscillators and pulse generators. Gamma, Beta, Error and Elliptic function. EEE 204 – Basic Electrical Engineering Ii (2-1-0) EEE232 – Engineering Analysis I (2-1-0) Brief discussion of vacuum devices especially diode, triode, tetrode and Vector, Scalars, Vectors and Scalar Fields. Products of two, three or more pentode, their theory, characteristics and applications; concept of biasing. vectors. Vectors differentiation and integration. Gradient, divergence, curl Rectification and smoothing circuits. Elementary treatment of semiconductor and their physical significance. Three dimentional coordinate geometry of devices such as p-n junction diode, zener diode and the bipolar transistor, lines and planes. Introduction to complex numbers. Elementary functions of their characteristics and their applications, e.g. p-n junction as a rectifier, the complex variable. Determinants and their properties. Solution of a set of Zener diode as a regulator and the transistor as an amplifier. Brief discussion linear equations, Crammer's rule. Matrices and their properties; of other semiconductor devices like varactor diode, light emitting diode characteristics functions, Eigen values and eigen vectors. Introduction to (LED), Field Effect Transistor (FET), Unijunction Transistor (U.I.T.) and linear programming. Integrated Circuits (IC's). Introduction to logic gates and digital circuits: AND gate, OR GATE, NAND gate, NOR gate, and EXCLUSIVE OR gate, EEE 301 – Electromagnetic Field And Waves (2-1-0) their characteristics, realization and applications. Review of scalar and vector fields. Static electric fields in free space. Gauss' Law. Poisson and Laplace equations. Steady magnetic fields of currents in EEE 206 – Basic Electrical Engineering Laboratory Ii(0-0-3) space. Ampere's circuital law. Field distributions in material media. This course is designed to familiarize the students with the characteristics and Boundary conditions. Time varying fields, Maxwell's equations in the use of simple electronic devices such as diodes, transistors and integrated differential and integral forms, their interpretation and physical circuits in various applications. Simple experiments are also to be carried out significance. Plane Transient and steady solution of transmission line problems. 98 99 EEE 302 – Digital Electronics (2-1-0) amplifiers, interstage coupling and frequency, response. Nonsinusoidal oscillators, switching, timing and wave shaping circuits. Introduction to pulse techniques. Introduction to basic logic functions, AND, OR NOT, NAND, NOR and EXCLUSIVE-OR. Boolean algebra and analysis including FLIP-FLOP for EEE 307 – Electrical Machines I (2-1-0) different configurations (NMOS, CMOS, DTL, RTL, TTL, etc.), Sequential Principles of electromechanical energy conversion. D.C. Machines: design, circuits, registers and counters. Introduction to microprocessors – construction and characteristics of dc machines, emf equations, armature architecture, memory and 1/0 devices. reaction, efficiency. Performance and speed control of series, shunt, and compound dc machines. Industrial applications of dc machines. EEE 303 – Electric Circuit Theory I (2-0-0) Transformer: elements of a transformer, flux linkages, Network graph theory and its applications to node, mesh, loop and cutest winding/lvoltage/current ratios of transformers, leakage inductances, ideal analysis of linear networks. Transient Circuit Analysis: natural and forced transformer, circuit model of the iron-core transformer, impedances of a response, AC and DC sources, Analysis of two port networks using z,y,h and transformer, transformer losses, voltage regulation, 3-phase transformers t- parameters. Use of symmetrical components in the solution of unbalanced and their connections in power systems. Auto-transformers and their three-phase networks including analysis of symmetrical faults. Computer applications. Transformer testing. aided circuit analysis. EEE 308 - Electromechanical Energy Conversion, Devices and EEE 304 – Electric Circuit Theory Ii (2-0-0) Machines (3-1-0) Synthesis of 2 element (LC and RC) one port networks. Poles, zeros and Synchronous machines, rotating magnetic fields, emf equation, 3-phase frequency response of electrical networks. General properties of positive real alternators, winding factors, equivalent circuits, phasor diagram for rational functions. Partial and continued fraction expansion. Foster and cylindrical rotor. Steady-state performance, characteristic features of salient Cauer forms. synchronous machines. Industrial applications of synchronous machines as Synthesis of 2-port networks. Cauer reactance theorem. Constant resistance generators and motors. Induction machines, wound rotor, squirrel case rotor ladders. Relationships between real and imaginary parts of some functions. constructions and characteristics, circuit diagram of induction motors. Computer aided design of networks. Torque/slip relation. Losses, power flow, and efficiency of induction motors. Speed control of induction motors, protection of machines. EEE 305 – Electronic Engineering I (2-1-0) Methods of starting machines, Industrial applications of induction Characteristics, models and equivalent circuits of vacuum devices, (diode, machines. Single-phase machines: universal motor, shaded-pole motor, triode, tetrode and pentode). Frequency behaviour of triodes and pentodes. single-phase induction: motor split phase motors, capacitor-start motors, Crystal structure, electron and energy band schemes. Properties of two – value capacitor motors PSC motors, repulsion motors. Circuit model semiconductors. Carrier transport, generation and recombination in of single-phase induction motors. Industrial and domestic application of semiconductors. Characteristics, models and equivalent circuits of junction – single-phase motors. effect devices (junction diodes, zener diode, bipolar transistor) and field- effect devices (FFET, MOSFET). Frequency behaviour of these devices. EEE 309 – Electronic Engineering Laboratory (0-0-3) The experiments in this course are designed to educate the students in the EEE306 – Electronic Engineering Ii (2-1-0) laboratory/practical aspects of the lecture courses EEE303, EEE305, and Amplifiers – voltage, current and power amplification, stability of operating EEE311. Thus, students will be required to investigate the characteristics point. Noise and distortion. Feedback amplifiers. Sinusoidal Oscillators. and uses of vacuum devices and semiconductor devices including diodes, Introduction to operational amplifiers circuits. Regulation. Multistage bipolar junction transistors and field transistors (FET). 100 101 EEE 310 -Electronic Engineering/Machines Laboratory (0-0-6) of complex functions, Cauchy – and Riemmann's equations, applications to This course covers the laboratory/practical aspects of the lecture courses Laplace and fourier transformers. Introduction to non-linear differential EEE304, EEE306 and EEE307. Experiments will focus on the design, equation. Power series solution of Differential equations. The Euler method; construction and performance evaluation of various types of electronic Runge-Kutta methods; introduction to optimization methods amplifiers, electromechanical energy conversion devices and machines.

EEE 311 – Signal and System Analysis (2-0-0) EEE 401 – Electrical Maintenance and Repairs of Equipment (2-0-0) Classification of signals and systems, signal operations and singularity Electrical tools and equipment for maintenance and repairs. Maintenance – functions. Analysis of linear time-invariant systems. Convolution and Purpose, types and procedure. Ground rules of Appliance repair. correlation. Transform methods – Laplace, Fourier, Discreet and Fast Troubleshooting small appliances, Electrical safety. Maintenance of plants, Fourier transform. Introduction to non-linear systems. Repairs of electrical motor, radio receiver and other major electrical equipment. Case studies from the Electrical Repairs Unit. EEE 312 -Electrical Measurement and Instrumentation (2-0-0) Measurement fundamentals, units and standards. Grounding, Shielding and EEE 403 – Communication Principles (2-1-0) noise. Moving coil and moving iron instruments. Electrostatic voltmeters. Block diagram description of a communication system. Classification of AC and DC bridges, Recording Measurement of non-electrical quantities – Transducers. communication systems. Modulation types and their characteristics: AM (DSBTC, DSBSC, SSB, VSB), angle (FM, PM) and pulse (OAM, PWM, EEE 314 – Acoustic Systems (2-0-0) PFM) Demodulation – types, principles and circuits. Comparison of Principles and Properties of sound, simple acoustic systems. Acoustic modulation systems, concept of noise figure. Sampling principles and transducer e.g. microjphone. Linear systems and Natural modes. Loud techniques. PCM and Delta Modulation. Multiplexing – FDM, TDM, WDM Speakers: Properties, types, responses and distribution patterns. Electro- Shift keying techniques (Amplitude, Frequency and Phase). Introduction to acoustic recording and reproduction ultrasonic system, Transducers for coding. untra-sonic system. Magnetic applications of magnetic materials, Ferro and Ferri magnetics, Magnetic circuit and shielding, Magnetic recording EEE 405 – Control Engineering Principles (2-1-0) techniques e.g. Tape recording including electro acoustic and video tape Introduction to control systems engineering. Differential equation and recording. Units of recording level. Microphones and types. transfer function. Models of typical electrical, mechanical, thermal and fluid EEE 316 - Electrical Machine II (2-1-0) systems. Block and signal flow diagrams. Feedback system representation Synchronous machines, rotating magnetic fields, emf equation, 3-phase and basic stability concepts. Poles and Zeros, Root locus, Bode, Nyquist and alternators, winding factors, equivalent circuits, phasor diagram for Nichols plot. Closed loop performance analysis using frequency response, cylindrical rotor. Steady-state performance, characteristic features of salient introduction to control system synthesis. synchronous machines. Industrial applications of synchronous machines as generators and motors. Induction machines, wound rotor, squirrel case rotor EEE 407 – Electrical Power Principles (2-1-0) constructions and characteristics, circuit diagram of induction motors. Principles and methods of electrical energy generation employing steam, Torque/slip relation. Losses, power flow, and efficiency of induction motors. water, wind, gas and magnetohydrodynamic (MHD) sources. Other types of Speed control of induction motors, protection of machines. Methods of starting machines, Industrial applications of induction machines. power sources – nuclear, solar, thermoelectric, photovolataic cells, fossil fuels, storage battery. Power systems layout and representation, components EEE 332 – Engineering AnalysisIII (2-1-0) modeling per unit representation, grounding and distribution. Transmission Solution of linear and non linear equations, system of equations. Finite lines and cables parameters and steady state analysis. Load flow calculation differences, functions of complex variables. Differentiation and integration – methods applicable to small reactance. Calculation of faults on small 102 103 networks using network reduction and similar techniques. General theory of distribution boards, and miniature circuit breakers. Earthing – definition, power system protection and instrumentation. regulation, electrodes. Testing an installation, illuminating and electric heating. Electric signaling systems installation – single stroke electric bell, EEE 409 – Physical Electronics (2-0-0) continuous ringing bell, burglar alarms and fire alarms. Intercommunication Conduction processes in solids – Atomic Structure. Probability distributions telephone system wiring. and the Schroedinger equation – wave mechanics and quantum mechanics – Pauli exclusion principle and Heisenberg uncertainty principle, Crystal EEE 503 – Industrial Electronic (2-0-0) structure. Charge carrier concentrations in semiconductors. Introduction to Role of electronics in industries. Power supply and control systems. Solid state and switching devices, Photo-electric devices and controls, Counters. microwave semiconductor devices such klystron, magnetron, varistors, Data Display and Recording. Electric heaters and welders, Radiation tunnel diode, impatt diode etc., Gunn diode, LED, LCD, and other optical Inspection and Detection. Industrial Radio, Industrial Television and devices. Integrated circuit (IC), principles and fabrication of semiconductor Industrial Computers. devices. EEE 504 – Electrical Services Design (2-0-0) EEE 413 – Engineering Laboratory (0-0-9) Design of electrical installation for domestic and industrial houses; codes The experiments in this course are designed to complement the theoretical and regulations. Design of transmission lines: short transmission lines, aspect of courses EEE403, EEE405,EEE407,EEE409, and EEE302 in medium transmission lines and long transmission lines. Design of line preparation for the SIWES in the following semester and long vacation. compensators, selection of insulation for voltage types. Installation Thus, they consist of laboratory experiments on modulation, sampling, procedure of power transformers, synchronous generators, and motors, multiplexing, feedback control measurement of cable parameters, impulse induction motors. Guides for selection of transformers, generators, motors test on insulators, etc. switches, circuit breakers and relays. Starters Design and method of power distribution in the urban centers. Design of high voltage substations, EEE 415 – Power Electronics (2-0-0) selection of power equipment for substations. Design of towers and Introduction to power semiconductor components. Circuits with switches freeways. and diodes. Power semiconductor switches: operation of the thyristor, controlled half wave rectifiers. Thyristor data sheets (component selection). EEE 505 – Network Synthesis (2-0-0) AC voltage controllers, controlled rectifiers, DC-to-DC converters Introductory filter concept: passive, Active, others. Realisability of driving (choppers). Inverters: Reduction of output voltage harmonic in inverters. AC point impedance. Synthesis of two-terminal passive network: Foster form and DC motor drives, AC-AC converters. Regulated power supplies, realization, Cauer form realization, minimum phase and non minimum phase network. Approximation methods; sensitivity, frequency principles of uninterruptible power supplies. Power supplies to electro- transformations (low-pass to high-pass to band-pass). thermal process. EEE 506 – Current Trends in Electronic and Electrical Engineering (2- EEE 500 – Electrical Installation (2-0-0) 0-0) National Electric Power Authority (NEPA) and Electricity Supply This one unit course will examine the state-of-the art and topical issues in Regulations. Systems of supply, single Phase 2-wire, single phase 3-wire, selected areas of electronic and electrical engineering such as Three phase3-wire, Three phase 4-wire. Consumer circuits – Internal communications, electric power systems, control systems and electronics. distribution and protection. Identification of component parts, conductors The areas(s) selected may vary from year to year. Three phase systems and and cables – conductor materials, insulation materials, cable selection. Joints modeling of power elements. Load flow studies: Gauss-Seidel and Newton- and Joining Wiring system and accessories including lampholders, fuses, Raphson load flow interactive methods. Control of voltage level and 104 105 frequency, real and reactive power flow. Fault studies: Analysis of balanced operating mechanisms. Relay protection of power lines, analysis and and unbalanced faults, power system stability studies; steady state and dynamics of pole alternator. Over-voltage and insulation coordination. transient stability; equal area criterion, the swing curve. Types and selection of circuit breakers. Systems planning, energy and power resources of all forms on a national, continental and world-wide scale. Load EEE 507 – Electronic/Electrical Instrumentation (2-0-0) forecasting, planned development of generation, transmission, and loads. Basic electrical and electronic measuring techniques, electrical transducers; industrial transducers and measurement systems. Opto-electronic and related Specification of energy systems equipment, siting of stations, station systems. Digital electronic measuring systems. Data logging; A to D, and D to management, maintenance routine. A conversion, types and applications. Introduction to the design of electronic equipments, specifications including environmental factors such as EEE 513 – Electrical Energy Utilisation (2-1-0) vibration, humidity and temperature. Tolerance and safety measures, Lighting system design for industrial and commercial building General and reliability and testing. Duplication of least reliable parts (standby). special factory drives. Electric heating space air-conditioning, electrical Ergonomics, aesthetics and economics. Miniature and Microminiature welding, electrolysis and its industrial applications. Grounding, power construction using printed circuits and integrated circuits Maintenability. improvement, uninterruptible power supply (UPS). Regulations Computer design methods. installations and operation of electrical equipment; metering and tariffs systems. EEE 508 -Application of Electromagnetic Principles (2-1-0) Review of transmission line theory. Use of Smith chart, Single and double- stub matching on lines; quarter wave line as an impedance transformer. EEE 514 -Power Systems Communication and Control (2-0-0) Propagation in common waveguides. Attenuation in guides. Guide Review of transmission line theory; high frequency (HF) communications termination, Antennas. Introduction to radiowave propagation in the Medium on power lines. Carrier systems and power-line carrier operation. Frequency and High Frequency bands High Frequency communication on Multiplexing. Telemetering, Signal processing and Data Transmission. power lines. Control of power generation. Voltage control. Frequency control; System stability. Automatic voltage regulators (AVR). Regulating transformers. EEE 511 – Power Systems Engineering I (2-1-0) Three-phase systems and modeling of power elements Transmission lines: EEE 515– High Voltage Engineering and Switchgear Technology (2-1- representation of transmission lines; short, medium and long transmission 0) lines, equivalent circuit of a long line, power flow through a transmission line, Generation of high A.C., D.C. and impulse voltages. High Voltage (h.v.) reactive compensation of transmission lines, transmission line transients. measuring methods. Fundamental processes in electrical discharges. Transient analysis: traveling waves and reflections. D.C. transmission systems: justification and disadvantages of high voltage direct current (h.v. Propagation surges in h.v. transmission lines and in transformer coils. etc) operation features, review of current technologies. Lightning arresters. Lightning surges. Protection of transmission lines and substation from Network calculations. Load flow studies: Gauss-seidel and Newton – lightning strokes. Earthing, Arrestors, Protection of transformers. Raphson load flow interactive method(s) Economic operation of power Switching over-voltages. Interruption of short circuits, interruption of systems. (Control of voltage level and frequency, real and reactive power capacitive circuits; current chopping. Means of reducing overvoltages. flow). Insulation coordination. Switchgear construction, oil switches are extinction and devices. EEE 512 – Power Systems Engineering II (2-1-0) Fault studies: analysis of symmetrical 3-phase faults, symmetrical EEE 516 – Electrical Machines (2-1-0) components, unsymmetrical faults. Power systems stability studies. Power Transient and steady analysis of poly-phase induction motors; equivalent systems protection: Operating principle and constructional features of relays, circuits; characteristics and speed control Synchronous machines: steady 106 107 state analysis, saliency and d-q axis analysis, Matrices equations. Television systems, Closed Circuit TV Systems. Design of TV antennas. Synchronous machines transients: Sudden 3-phase short circuit, Introduction to Radar System Engineering. transformation to d- and q axes, operational circuit impedance and time constant, model for transient analysis. Synchronous phenomena and EEE 524 - Digital Communication Principles and Systems (2-1-0) sustained oscillators in synchronous machines. Induction machine dynamics Digital conversion of analogue signals: Sampling, aliasing, quantizing and and transients: performance during both sudden changes in load and 3-phase coding principles and techniques. Line codes, Digital to analogue fault, models for dynamic analysis, effect of rotor resistance. Paralleling of conversion principle and systems. Pulse and Data communication systems: synchronous machines. Elements of electrical machine design. analysis and response of linear and non linear networks; switching theory; Output equation, main dimensions of transformers. Noise immunity and regenerative circuits. Digital modulation techniques: ASK, FSK, PSK, QPSK, QAM,. Digital transmission on analogue EEE 521- Telecommunication Systesm Engineering I (2-1-0) networks. Fundamentals of digital signal processing. Time and frequency Introduction to telephony, Principles of automatic telephony and switching. domain analysis of discrete time waveforms. The Z transform and its Strowger, and Crossbar exchanges, Electronic Switching systems. Stored attributes. Poles and Zeros. Discrete Fourier Transform and its fast programme control exchanges; Traffic consideration. Transmission implementation (FFT). Elements of digital filter design; introduction to standards, telephone network structure, Telegraphy, Telex and Facsmile image processing. transmission codes. Data Transmission, Frequency Division Multiplex (FDM) and Time Division Multiplex (TDM) Systems. Introduction to EEE 525 – Information And Statistical Communication T h e o r y satellite communication systems. Multiple access methods. Earth stations for (2-1-0) international telephony and television. Review of probability theory and statistics. Introduction to stochastic processes; Correlation and power spectral density. Statistical EEE 522-Telecommunication Systems Engineering II (2-1-0) characterization of noise and communication channels. Performance of Types of telecommunication systems and their basic engineering features. communication systems (AM, FM, digital) in the presence of noise.Measure Voice Frequency (VF) and Coaxial Cable System Principles. Submarine of information, entropy, information rate and channel capacity. Shannon System, Transmission hierarchies Fundamentals of optical fibre thorem, source and channel coding. Error control coding. Trading of communication systems including electro-optical and acousto-optical bandwidth and S/N ratio. devices for transmission and reception. Splices and connectors. Characteristics of radio transmitters and receivers. Medium wave (MW), EEE 526 – Microwave Engineering (2-1-0) High Frequency (HF), Very High Frequency (VHF) and Ultra High Review of plane wave propagation in free space, lossy media and metallic Frequency (UHF) point-to-point radio systems. Principles of cellular mobile films. Transmission lines and waveguides, passive microwave components radio, Noise and its effect on Comparison of telecommunication systems. – cavity resonators, waveguide Tees, directional couplers, ferrite isolators and circulators. Active microwave components – klystrons, magnetrons, EEE 523 – Radio and Television Engineering (2-1-0) traveling wave tubes, parametric amplifiers. Introduction to solid state Propagation mechanisms for ground, sky and tropospheric waves. microwave devices including varactor, PIN, and gunn-effect diodes, photo- Propagation characteristics at microwave frequencies. Design of radio diodes, phototransistor and microwave integrated circuits (IC's). transmitters and receivers, Design of microwave line-of-sight radio link Measurements at microwave frequencies. systems. Monophonic and stereophonic broadcasting. Practical radio antenna systems: Low Frequency (LF), Medium wave (MW), High Voltage (HV) and EEE 531 – Solid State Electronics I (2-1-0) Very High Voltage (VHV) antennas. Introduction to Television Engineering, This course covers those elements of solid state theory required to Black and White Television Broadcasting; Color Television Systems. NTSC, understand modern solid state devices. Topics include: Schroedinger PAL, SECAM, Special features of TV transmitters and receivers. Cable 108 109 equation, harmonic oscillator, pertubation theory, classical and quantum DEPARTMENT OF FOOD SCIENCE AND ENGINEERING distribution functions, density of states; thermodynamical functions, relation HISTORY OF THE DEPARTMENT to statistical mechanics; energy band model, lattice vibration and phonons; semiconductor; donor-acceptor statistics, transport properties. The Department of Food Science and Engineering is one of the EIGHT Departments in the Faculty of Engineering and Technology (FET). EEE 532 – Solid State Electronics II (2-1-0) It is one of the first sets of Departments that took off with the establishment One dimensional diffusion analysis of diodes, photocells and transistors of the University in March 1990. Academic work did not start until under the assumption of low level injection. Introduction to September 1990 with the intake of the first sets of students who graduated in superconductivity, electron tunneling and properties of barriers between 1996. The B. Tech. in Food Engineering is unique as it is the First superconductors. Bachelors degree programme in Nigeria and possibly in Africa. The programme affords students to acquire engineering degree while EEE 533 – Electronic Engineering III (2-1-0) specializing in studies related to Food. Design of multistage amplifiers. Coupling and high frequency effects. The pioneering Head of Department and his team invested a great Operational amplifiers – their characteristics and applications. Waveform deal of their resources in ensuring the success of the unique programme. The generators. Multipliers; A/D and D/A converters. Sample and hold circuits. Department started off with two academic staff members and two IF and RF amplifiers – small signal analysis. Large signal equivalent circuit administrative staff. The staff strength has since risen to twenty-eight of transistors. Power amplifiers. Negative resistance devices and academic staff and sixteen technical / administrative staff. The Department applications. has graduated nine sets of students, 231 Food scientists and 92 Food EEE534 – Quantum Electronics (2-1-0) engineers. The Department with the assistance of LAUTECH Review of wave mechanics, operator formalism and their physical administration in conjunction with NUC, COREN and four other interpretation. Theory of eight functions, solution in one and three Universities offering Food Engineering played a great role in the dimensions, square well potentials and potential barriers. The linear development of a minimum standard template for the discipline of Food Engineering. The template has since been approved by both NUC and harmonic oscillator, spherically symmetric potentials. Angular momentum COREN and has become the basis of accreditation of this rapidly growing and magnetic moments. Many electron atoms and Pauli exclusion principle. discipline. Time independent perturbation theory. Radiation interaction with crystalline solids emission and stimulated emission processes. Application to PHILOSOPHY AND OBJECTIVES OF THE FOOD SCIENCE AND semiconductor physics. ENGINEERING PROGRAMME EEE535 – Microelectronic Technology (2-1-0) FOOD SCIENCE is a body of knowledge that deals with the nature Fundamentals of monolithic and hydbrid circuits design. Multiphase of food, its composition and behaviour and how these are affected by integrated cirucuit. Diodes and transistors for monolithic circuits, passive processing, practical preservation and preparation. In order to be effective, components for IC. Assembly processing and IC packaging. Introduction to food science needs to be applied and be put to practical use. This practical the design and implementation of Very Large Scale Integrated (VLSI) use is what is referred to as FOOD TECHNOLOGY. In the process of this circuits. application a number of specialized processing equipment, conditions and operations must be developed to attain the ultimate goal. This is where FOOD ENGINEERING comes in. EEE536 – Electronic Devices: Design And Fabrication (2-1-0) The difference between Food Science, Food Technology and Food Operation, design and fabrication of vacuum and solid state electronic Engineering are sometime not clear, but the link between them is illustrated devices. Thermoinic devices, p-n junctions, LED's bipolar andfield-effect by a consideration of what is almost certainly the world's greatest problem – transistors, MOS devices and charge-coupled devices. how can we provide enough food to feed an ever-growing world population? Food Science helps us to understand the theory etc., what foods can be used 110 111 to make up a healthy diet, what methods can best be used to store and preserve Technology degrees in Food Science and Food Engineering; Postgraduate food so as to maintain quality and prevent spoilage. Food technology Diplomas, Masters and Doctoral degrees in various areas of Food Science demonstrates how the theory can be applied in practice, while food and Food Engineering. engineering deals with engineering principles as they affect processing conditions and nature of foods, and equipment/machinery fabrication. ADMISSION REQUIREMENTS The programme objective therefore is to produce prospective graduates who will be in a position to contribute to the production of (I) Ordinary level requirements adequate, safe and nutritious food products. The ideas that the graduates of Candidates must have minimum of five credits in GCE '0' level or the Department would disseminate across the country will be the seeds of a SSCE in five subjects to include English L a n g u a g e , M a t h e m a t i c s , stable and far reaching improvement in quantity and quality of foods. Chemistry, Physics and Biology/Agric. Science. (ii) University Matriculation Examination (UME) subject The ultimate goal is to make graduates of the Department creator of requirement: Mathematics, Physics, Chemistry and E n g l i s h employment by virtue of their training. Prospective food engineers would at Language. the end of their training possess registrable qualifications with the Council of (iii) Direct Entry requirements: (1) GCE 'A' Level passes in Registered Engineers of Nigeria (COREN). Mathematics, Physics and Chemistry or (2) Candidates with Upper The underlying philosophy of the programme is to train technically Credit in OND/HND in Food Science/Food Technology or relevant course skilled graduates with theoretical and practical knowledge in food from recognized institutions may qualify for admission into 200 level of processing, food storage and packaging, human nutrition, food product the programme. Food Science candidates for direct entry may possess A/L development, improvement of unit operations in food processing, food Biology in lieu of Physics. equipment design, fabrication and maintenance, so as to make safe, nutritious and wholesome processed food available for the ever-growing population. DURATION OF THE PROGRAMME The Bachelor of Technology programme runs for a minimum of Five (5) years. Ten (10) semesters for UME Candidates and Four (4) years OBJECTIVES OF FOOD SCIENCE AND ENGINEERING i.e. eight (8) semesters for direct entry students. The programme structure DEPARTMENT include period of formal studies in the University which comprises of Nine (9) semesters of course work consisting of lectures, tutorials, practicals, 1. To train manpower who will be in position to produce/manufacture high quality and nutritional food products. seminar presentation and assigned projects. As part of the programme 2. To train personnel required to establish, manage and direct cottage students visit the industries to enable them reconcile theoretical knowledge with what obtains in the industry. The student also undergoes the student food industries using locally available raw materials. nd 3. To produce graduates who will be involved in food product Work Experience Programme (SWEP) during the long vacation of 2 year development, research and development, p r o c e s s i n g a n d and 3rd year. In the second semester of the fourth year, the student undergoes preservation. a six-month Students Industrial Work Experience Scheme (SIWES) in a 4. To train engineers who will serve the food industry at all levels in food industry. At the end of the SIWES training the student will return to food process design, equipment design, fabrication and maintenance and spend the fifth year to complete their course work and undertake a detailed evaluation of food processing equipment and plants. research work (Project). 5. To train manpower who can work in higher educational institutions, research institutions and government establishment and SIWES ELIGIBILITY CRITERIA parastatals and international organizations. All 400 level students who have no carry-over in any of the core courses and those not on probation are eligible. However, candidates having AVAILABLE PROGRAMMES not more than 8 units of carryover are eligible to partake in the SIWES The Department offers programmes leading to the award of Bachelors of programme provided those course (s) is (are) not core course (i.e. 112 113 compulsory courses). EXAMINATION AND GRADING UNDER THE COURSE UNIT SYSTEM THE COURSE UNIT SYSTEM AND REGULATIONS GOVERNING 1. Continuous Assessment THE AWARD OF DEGREE. Assessment of students' performance shall be continuous. The final Description of the course Unit system examination for each course shall normally be at the end of the semester in The course unit system is an operational system in which the entire which the course is offered. The courses grade will be made up of the programme of course required by a student for a particular degree is packaged students' score in the continuous assessment as well as the end of course into a number of modules each consisting of a prescribed number of units. examination. the continuous assessment shall carry a maximum mark of Usually, one module is to be offered in one semester. Thus, the student's 40%. workload in a semester is defined in terms of units where one unit represent one hour of lecture or one hour of tutorials or two or three hour of practical 2. Attendance work per week throughout the semester normally of fifteen weeks duration. In order to qualify for a course examination, a student shall be required to achieve 75% attendance of all the scheduled classes (Lectures Mechanisms of the Course Unit System and laboratory work) for the courses. 1. REGISTRATION FOR COURSES This is normally at the beginning of each semester. Registration guidelines 3. Absence from Examination shall be distributed to the students before registration begins. A student who is absent from a course examination without the permission of the Head of Department during or at the end of the semester, 2. SUBMISSION OF REGISTRATION FORMS will receive a grade of F. Permission may be granted only on substantial (a) Harmattan Semester compassionate of medical grounds as approved by the University Health The submission of registration forms for the harmattan semester Services. shall end before matriculation in the case of freshmen and two 1. Terminologies weeks after the University official date of resumption in the case (a) The unit of a course is defined in relation to the semester duration; of returning undergraduate. this is equivalent to a lecture duration of one hour weekly for one semester (b) Rain Semester of about 15 teaching weeks or three to four hours every week, in the A maximum of two weeks from commencement shall be allowed laboratory for one semester of same duration (15 weeks) or the equivalent in for the acceptance of registration forms. workshop or filled work time. The size of course shall, as much as possible, be a maximum of four units and its duration shall be one 3. REGISTERING/DROPPING A COURSE semester except for projects and design courses which may carry more than Registration for a course at the beginning of a semester shall three units and may last more than one semester. automatically mean registration for the course and the examination shall be carried out. However, a student may drop a course, provided he/she formally (b) A core course is one which must be registered for and passed by a applied to do so within five weeks of the commencement of lecture in the student to get the degree, and is counted towards the classification of course, and obtains the approval of the Head of Department. his/her degree. An elective course is either compulsory or optional. 4. PENALTY FOR LATE REGISTRATION (c) A compulsory elective shall be counted towards the classification Students who submit their registration forms within two weeks after of students' degree. An optional elective is a course that may be taken by the the stipulated period shall pay a late registration fine as prescribed by the student and may not be counted towards the classification of his/her degree. university. For the purpose of determining the class of degree, the CGPA shall cover 100 to 500 level courses for UME students and 200-500 for Direct Entry students. 114 115 1. Grading System: A five-point grading system is currently adopted from the beginning to date. as shown. v. Grade Point Average (GPA) This is the Total Credit Point (TCP) divided by the Total Mark Range Letter Grade Grade Point Interpretation Load Units (TLU), for example, consider the student's score (%) referred to in section (iii), his T.C.P is 45.0 and has T.L.U of 70-100 A 5 Excellent 18 (i.e. 5 course of 3 units each for the semester, his G.P.A is 60-69 B 4 Very Good therefore 45/18 =2.50. The highest possible GPA that can be 50-59 C 3 Good earned is 5.0 and that is when a student has earned and “A” 45-49 D 2 Satisfactory grade in every course during the semester. The lowest G.P.A obtainable is 0.00, signifying and “F” grade all through. 50-44 E 1 Poor but passing vi. Cumulative Grade Point Average (CGPA) 0-39 F 0 Failure This is not the summation of GPA's for all semester, rather it is the summation of TCP for all the semester to date divided 2. Computation of Result by the summation of TLU for the said semesters. Like the The following terminologies and abbreviations are GPA CGPA's obtainable range from 0.00 to 5.00. in effect, commonly used in the progressive computation of students' CGPA=CCP/CLU where CCP is cumulative Credit Point results throughout his/her four /five-year stay in the and CLU is the Cumulative Load Unit. University. Final Assessment & Class of Degree i. Total Loading Units (T.L.U) Class CGPA First Class 4.50-5.00 This is the total number of course units carried by a student in nd a particular semester. It is the summation of the load units on 2 Class upper Division 3.50-4.49 2nd Class lower Division 2.40-3.49 all courses carried during the semester, for example, a rd student who is taking 8 courses of 2 units each has a T. L. U. 3 Class Division 1.50-2.39 If 8*2=16 for that semester. Pass 1.00-1.49 ii. Cumulative Load Units (C.L.U) vii. Academic Probation This is the summation of total load units over all the semester A student whose CGPA at end of any semester is less from the beginning to date. A student who is prone to than 1.00 shall be placed on academic probation during repeating courses will finish (if he does not drop out) with a subsequent semesters. higher C.L.U. than his non-repeating colleagues, and will viii. Withdrawal from the University most likely require a longer time to complete requirements A student who is on academic probation in a semester for the award of a degree. and fails to achieve a CGPA of at least 1.00 at the end of iii. Total Credit Point (T.C.P) that session shall be asked to withdraw from the This is the sum of the product of course units and rating in university. each course, for the entire semester. For example consider a ix. Repetition of Courses student who took 6 courses of 3 units each, suppose the grade Any course failed by a student must be repeated until he obtained in the six courses were A, B, C, D, E and F passed. A student may repeat only those courses in respectively. The TCP of this students is obtained as (3*0.0) which he has obtained a grade of F. The grade earned =15+12+9+6+3+0=45.0 for a repeated course shall be recorded and used in the iv. Cumulative Grade Point (CGP) computation of the GPA and CGPA in the usual way. This is summation of Total Credit Point over all semesters 116 117 2. Requirements for the Award of a Degree activities of the Nigerian Institute of Food Science and Technology (NIFST) For the award of a degree, a candidate must satisfactorily and Nigerian Society of Engineers (NSE) that has their Student Chapters complete the minimum number of units prescribed for the nationally known as the Nigerian Association of Food Science and degree. He /she must, in addition, complete successfully all Technology students (NAFSTS) and Nigerian Universities Engineering compulsory courses as well as the special and free electives for the degree as prescribed. Students Association (NUESA). NIFST is the professional body of Food To be eligible for Bachelor of Technology in Food Science or Scientists and Technologists in Nigeria while NSE is the professional body Food Engineering a student must pass a total of at least 198/204 of Engineers in Nigeria. Students on the Food Science and Food units for Food Science and Food Engineering respectively. This Engineering Programmes are eligible to register as student members of include NIFST and NSE and after graduation are qualified to apply for graduate Number of Units membership and subsequently may apply for corporate membership. The Food Food Department encourages criticisms and suggestions through the students' Science Engineering professional bodies. 1. University Compulsory Courses 40 40 2. General Studies 10 10 FOOD SCIENCE OPTION 100 LEVEL 3. Computer studies 04 04 FIRST SEMESTER (1) HARMATTAN 4.Deparmental Requirements (Core Courses) 122 128 Course Pre- Hours Course Title Units 5. Departmental Electives 12 12 Code Requisite L T P 6. Industrial training/ Student Work Experience 8 8 MTH 101 Mathematical Methods 4 1 0 5 PHY 101 General Physics I 3 1 0 4 7. Faculty Electives 2 2 PHY 103 Experimental Physics I 0 0 3 1 Total Number of Units 198 204 CHM 101 General Chemistry I 3 1 0 4 CHM 191 Experimental Chemistry I 0 0 3 1 BIO 101 General Biology I 3 0 0 3 STUDENTS IN THE DEPARTMENT BIO 103 Experimental Biology I 0 0 3 1 (a) Student Academic Advising Each lecturer is assigned as an adviser to a group of students for GNS 101 Use of English 2 0 0 2 counseling purposes both on academic and non-academic matters. The FAA 101 Fundamental of Drawing 2 0 0 2 adviser is to monitor the students' academic progress and advise him/her LIB 101 Use of Library 1 0 0 0 appropriately as to how many units he/she should register for in each semester. The University regulation stipulates a minimum of 12 units and a maximum of 24 units for full time studentship. Other regulation governing registration such as late registration may be obtained from the registry of the university. (b) Student Associations Total Number of Units 23 The Department recognizes the importance and professional 118 119 SECOND SEMESTER (2) RAIN SEMESTER (4) RAIN Course Pre- Hours Units Course Pre- Hours Units Course Title Course Title Code Requisite L T P Code Requisite L T P MTH 102 Mathematical Methods II 4 1 0 5 EEE 232 Engineering Analysis II 2 1 0 3 PHY 102 General Physics II 3 1 0 4 MEE 202 Engineering Drawing II 1 0 3 2 PHY 104 Experimental Physics II 0 0 3 1 MEE 204 Workshop Technology II 1 0 3 2 CHM 102 General Chemistry II 3 1 0 4 CHM 222 Basic Organic Chemistry CHM 102 3 1 0 4 CHM 192 Experimental Chemistry II 0 0 3 1 EEE 200 Applied Electricity 2 1 0 3 BIO 102 General Biology II 3 0 0 3 BIO 104 Experimental Biology II 0 0 3 1 EEE 202 Applied Electricity Lab. 0 0 3 1 CSE 100 Introduction to Computer Tech. 1 0 0 1 FSE 202 Intro to Food Science / 2 0 0 2 GNS 102 Use of English 2 0 0 2 GNS 202 Engineering 2 0 0 2 GNS 104 Science & Tech. In Africa through 2 0 0 2 Logic and Philosophy the Ages

Total Number of Units 24

Total Number of Units 19

FOOD SCIENCE OPTION – 200 LEVEL FET 200SWEP 1 -LONG VACATION 2 Units SEMESTER (3) HARMATTAN FOOD SCIENCE OPTION – 300 LEVEL Course Pre- Hours Units FIRST SEMESTER (5) HARMATTAN Course Title Code Requisite L T P Course Pre- Hours Units Course Title EEE 231 Engineering Analysis I MTH 102 3 1 0 4 Code Requisite L T P CHM 231 Basic Physical Chemistry CHM 102 3 1 0 4 FSE 301 Food Engineering I FSE 202 3 0 0 3 MEE 201 Engineering Drawing I 1 0 3 2 FSE 303 Human Nutrition 2 1 0 3 MEE 203 Workshop Technology I 1 0 3 2 FSE 205 Food Biochemistry 2 1 0 3 MEE 207 Fluid Mechanics I 2 0 0 2 APH 203 General Animal Husbandry I 3 0 0 3 MEE 211 Engineering Thermodynamics I 2 1 0 3 MCB 201 General Microbiology 3 0 30 4 MGS201 Technology and Society 1 0 0 1 CSE 331 Engineering Statistics 2 1 0 3 CSE 201 Basic Computer Programming 2 0 3 3 GNS 207 Science and History: Bio- 0 GNS 209 Elements of Administrative Historical Approach 2 0 2 Science/Citizenship Education 2 0 0 2

Total Number of Units 23

Total Number of Units 21 120 121 SECOND SEMESTER (6) RAIN SECOND SEMESTER (8) RAIN Course Pre- Hours Units Pre- Hours Course Title Course Course Units Code Requisite L T P Requisi Code Title L T P FSE 302 Food Chemistry 3 0 0 3 te FSE 304 Food Chemistry Laboratory 0 0 3 1 FET 400 SIWES 0 0 1 4 FSE 306 Unit operations in Food Processing 3 0 0 3 6 FSE 308 Unit operations in Food Processing 0 0 3 1 FSE 310 Laboratory 3 0 0 3 FSE 312 Basic Food Microbiology 2 0 0 2 CHE 304 Principles of Food Analysis I 3 0 0 3

AGN 306 Separation 3 0 0 3 FOOD SCIENCE OPTION – 500 LEVEL MEE 300 Tropical Crops 0 0 3 1 First Semester (9) Harmattan Mechanical maintenance & Repairs

Course Pre- Hours Units Course Title Code Requisite L T P Total Number of Units 20 FSE 501 Food Plant Design and Economics 2 1 0 3 FSE 503 Assigned Project I 0 1 6 3 FSE 505 Seminars 1 0 0 1 FET 300SWEP 2 LONG VACATION2 Units MGS 515 Principles of Accounting 1 0 0 1 MGS 513 Principles of Management 2 0 0 2 FOOD SCIENCE OPTION – 400 LEVEL CHE 551 Inventions and Patents 2 0 0 2 FIRST SEMESTER (7) HARMATTAN Department Electives 6 0 0 6

Course Pre- Hours Units Course Title Code Requisite L T P Total Number of Units 18 FSE 401 Principles of Food Analysis II FSE 312 2 1 0 3 FSE 403 Principles of Food Analysis Lab. 0 0 3 1 FSE 405 Food Microbiology MCB 201 2 1 0 3 FSE 407 Food Microbiology Lab. 0 0 3 1 FSE 409 Food Biotechnology 2 1 0 3 DEPARTMENTAL ELECTIVES FSE 411 Technology of plant Food Products I 3 0 0 3 HARMATTAN PRE-RE-QUISITE HOURS FSE 413 Technology of Flesh Food Products I 3 0 0 3 COURSE CODE COURSE TITLE L T P UNITS FSE 421 Technology of Plant & Flesh Food 0 0 3 1 CVE 401 Prdt I Lab. 2 0 0 2 FSE 507 Nutrition in Health and Disease 2 0 0 2 EEE 401 Project Methodology 1 0 3 2 FSE 415 Food Engineering II 2 0 0 2 Electrical Maintenance & Repairs FSE 509 Fermented Foods and Beverages 2 0 0 2 FSE 521 Advanced Food Analysis 2 0 0 2 Total Number of Units 22

122 123 Second Semester (10) Rain FOOD ENGINEERING OPTION 100 LEVEL Course Pre- Hours Units Course Title FIRST SEMESTER (1) HARMATTAN Code Requisite L T L T Course Pre- Hours SE 502 Food Product Development 2 0 0 2 Course Title Units FSE 506 Food Quality Control 2 0 0 2 Code Requisite L T P FSE 508 Food Product Development/ MTH 101 Mathematical Methods 4 1 0 5 Quality Control Lab. 0 0 3 1 PHY 101 General Physics I 3 1 0 4 PHY 103 Experimental Physics I 0 0 3 1 FSE 504 Assigned Project II 0 1 6 3 CHM 101 General Chemistry I 3 1 0 4 MGS 540 Technology Policy and Law 2 1 0 3 Departmental Electives 6 0 0 6 CHM 191 Experimental Chemistry I 0 0 3 1 BIO 101 General Biology I 3 0 0 3 Faculty wide Elective 2 0 0 2 BIO 103 Experimental Biology I 0 0 3 1

GNS 101 Use of English 2 0 0 2

FAA 101 Fundamental of Drawing

Use of Library 2 0 0 2 Total Number of Units 19 LIB 101 1 0 0 0

Total Number of Units 23 DEPARTMENTAL ELECTIVES COURSE CODE COURSE TITLE PRE-RE-QUISITE HOURS SECOND SEMESTER (2) RAIN L T P UNITS Course Pre- Hours Units FSE 510 International Food Policy 2 0 0 2 Course Title FSE 522 Advanced Food Technology 2 0 0 2 Code Requisite L T P FSE 514 Advanced Food Storage and Packaging Tech 2 0 0 2 FSE 516 Toxic Constituents of Food 2 0 0 2 MTH 102 Mathematical Methods II 4 1 0 5 PHY 102 General Physics II 3 1 0 4 FACULTY ELECTIVES (2 Units Each) RAIN PHY 104 Experimental Physics II 0 0 3 1 CHM 102 General Chemistry II 3 1 0 4 COURSE CODE COURSE TITLE PRE-RE-QUISITE HOURS L T P UNIT CHM 192 Experimental Chemistry II 0 0 3 1 CSE 552Computer Models of Physical BIO 102 General Biology II 3 0 0 3 Engineering Systems 2 0 0 2 BIO 104 Experimental Biology II 0 0 3 1 MEE 552 Engineering Risk/Benefit Analysis 2 0 0 2 CHE 552 Biochemical Engineering 2 0 0 2 CSE 100 Introduction to Computer Tech. 1 0 0 1 CVE 552 Elements of Civil Engineering Practice 2 0 0 2 GNS 102 Use of English 2 0 0 2 EEE 552 Electrical Installation 2 0 0 2 GNS 104 Science & Tech. In Africa through the Ages 2 0 0 2

Total Number of Units 24 124 125 FOOD ENGINEERING OPTION – 200 LEVEL FOOD ENGINEERING OPTION – 300 LEVEL FIRST SEMESTER (1) HARMATTAN FIRST SEMESTER (5) HARMATTAN Course Pre- Hours Units Hours Un Course Title Course Pre- Code Requisite L T P Course Title its Code Requisite L T P EEE 231 Engineering Analysis I MTH 102 3 1 0 4 MEE 201 Engineering Drawing I 1 0 3 2 MEE 207 Fluid Mechanics I 2 0 0 2 MEE 203 Workshop Technology I 1 0 3 2 MEE 209 Fluid Mechanics I Laboratory 0 0 3 1 MEE 205 Engineering Materials I 2 0 0 2 MEE 323 Machine design I MEE 213 2 1 0 3 MEE 211 Engineering 2 1 0 3 FSE 307 Heat Transfer 2 0 0 2 MEE 213 Thermodynamics I 2 1 0 3 CSE 331 Engineering statistics 2 1 0 3 CSE 201 Engineering Mechanics 2 0 1 3 MGS 201 Technology and Society 1 0 0 1 CHM 231 Basic Computer 3 1 0 4 Programming GNS 207 Science in History: Bio- 2 0 0 2 Basic Physical Chemistry FSE 301 Historical Approach FSE 202 3 0 0 3 FSE 305 Food Engineering I 2 1 0 3 APH 203 Food Biochemistry 2 1 0 3 Total Number of Units 23 General Animal Husbandry Total Number of Units 23

SEMESTER (4) RAIN SECOND SEMESTER (6) RAIN Course Pre- Hours Units Course Title Course Pre- Hours Units Code Requisite L T P Course Title EEE 232 Engineering Analysis II 2 1 0 3 Code Requisite L T P FSE 302 Food Chemistry 2 1 0 3 MEE 202 Engineering Drawing II MEE 201 1 0 3 2 FSE 304 Food Chemistry Laboratory 0 0 3 1 MEE 204 Workshop Technology II MEE 203 1 0 3 2 FSE 306 Unit Operations in Food Processing I 3 0 0 3 MEE 206 Mechanics of Machine MEE 205 1 0 3 2 FSE 308 Unit Operations in Food Processing I Lab. 0 0 0 1 MEE 208 Engineering Materials II MEE 207 2 0 0 2 FSE 310 Basic Food Microbiology 3 0 0 3 MEE 210 Engineering Materials Lab. 0 0 3 1 AGN 306 Tropical Crops 2 1 0 3 MEE 212 Engineering Thermodynamics II MEE 211 2 0 0 2 EEE 332 Engineering Analysis III 2 1 0 3 MEE 214 Strength of Materials I MEE 213 2 0 0 2 CHE 304 Separation 3 0 0 3 MEE 216 Strength of Materials Lab. 0 0 3 1 EEE 200 Applied Electricity 2 1 0 3 FSE 202 Intro. to Food Science & 2 0 0 2 EEE 202 Applied Electricity Lab. 0 0 0 1 GNS 202 Engineering 2 0 0 2 Logic and Philosophy

Total Number of Units 24 Total Number of Units 21

FET 200SWEP 1LONG VACATION 2 Units FET 300 SWEP II LONG VACATION 2 Units 126 127 FOOD ENGINEERING 400 LEVEL FOOD ENGINEERING 500 LEVEL FIRST SEMESTER (7) HARMATTAN FIRST SEMESTER (9) HARMATTAN Course Pre- Hours Units Course Pre- Hours Units Course Title Course Title Code Requisite L T P Code Requisite L T P FSE 501 Food Plant Design & Economics 3 0 0 3 FSE 415 Food Engineering II 2 0 0 2 FSE 503 Assigned Project I 0 1 6 3 FSE 417 Unit operations in Food 2 0 0 2 MGS 513 Principles of Management 2 0 0 2 FSE 303 Processing II 3 0 0 3 MGS 515 Principle of Accounting 1 0 0 1 CHE 551 Invention and Patents 2 0 0 2 FSE 411 Human Nutrition 3 0 0 3 FSE 505 Seminars 1 0 0 1 FSE 413 Technology of Plant 3 0 0 3 FSE 511 Food Equipment Design & 2 0 0 2 FSE 409 Food Product I 3 0 0 3 Fabrication 6 0 0 6 MEE 423 Technology of Flesh 2 1 0 3 Departmental electives CVE 401 Food Product I 2 0 0 2

EEE 401 Food Biotechnology 2 0 0 2 FSE 421 Machine Design II Project Methodology 0 0 3 1 Total Number of Units Electrical Maintenance 20 & Repairs Technology of Plant & Flesh Prdts I Lab. Total Number of Units 24 DEPARTMENTAL ELECTIVES HARMATTAN PRE-RE- QUISITE COURSE CODE COURSE TITLE L T P UNITS FSE 507 Nutrition in Health & Diseases 2 0 0 2

SECOND SEMESTER (8) RAIN FSE 509 Fermented Foods & Beverages 2 0 0 2 FSE 513 Food Engineering III 2 0 0 2 Course Pre- Hours Units Course Title FSE 521 Advanced Food Analysis 2 0 0 2 Code Requisite L T L T FET 400 SIWES 0 0 16 4 FACULTY ELECTIVES CVE 411 Environmental Engineering 2 0 0 2 CHE 501 Process Dynamics & Control 2 0 0 2

128 129 FOOD ENGINEERING 500 LEVEL COURSE CONTENTS SECOND SEMESTER (10) RAIN FSE 201: Introduction to Food Science and Engineering - Course Pre- Hours Units 2 Units Course Title Philosophy, definition and interrelationship of Food Science, Technology Code Requisite L T P and Engineering. Interphases of agriculture, food and nutrition. Review of FSE 506 Food Quality Control 2 0 0 2 global food situation with emphasis on Nigeria and Africa. The role of FSE 504 Assigned Project II 0 1 6 3 agriculture in the nation's economic growth and development. National FSE 514 Advanced Food Storage and 2 0 0 2 Food Security issues. The Nigerian Food Industries and National FSE 512 Packaging Technology 2 0 0 2 Development. Poverty, employment and income generation in Food Science MGS 540 Food Process Design 2 0 0 2 and Engineering. Technology Policy and Law 6 0 0 6 Departmental Electives 2 0 0 2 FSE 301: Food Engineering I - 3 Units Physical and Engineering Properties of food materials. The strength of food Faculty wide Electives materials tensile, compressive and shear stress measurements. The use of Young modulus, the shear modulus and poisson's ratio in the evaluation of food strength. Food emulsions: - Basic emulsion types. Emulsifying agents – hydrophilic – lyophylic balance values. Food Rheology, Newtonian and Non Newtonian fluids. Viscosity, Viscoelasticity, Physico – Chemical Properties of food materials: Density, specific heat, thermal conductivity. Total Number of Units 19 FSE 302: Food Chemistry - 3 Units The reaction between food composition and its nutritional physical and Departmental Electives organoleptic characteristics. Water activity and chemical reactions in foods RAIN Carbohydrates and their derivatives. Proteins in food systems. Changes in COURSE PRE-RE-QUISITE foods in the course of processing; Browning reactions – enzymatic and non- CODE COURSE TITLE L T P UNITS enzymatic, retrogradation, denaturation. Food Lipids: occurrence, importance and reactions - changes that occur in pro9cessing. Food colloids, FSE 522 Advanced Food Technology 2 0 0 2 emulsions, and foams. Food flavours and additives. Terpenoids FSE 518 Technology of Plant Food porhphyrins. The use of enzymes in the food industry. Toxic constituents of Products II 2 0 0 2 foods. FSE 520 Technology of Flesh Food Products II 2 0 0 2 FSE 303: Human Nutrition - 3 Units FSE 510 International Food Policy 2 0 0 2 Caloric and energy requirements. Metabolic functions of food nutrients. Faculty Electives Digestion and absorption of major food macromolecules; Proteins, RAIN COURSE PRE-RE-QUISITE Metabolism, essential amino acids. Nutritional value of proteins. CODE COURSE TITLE L T P UNITS Evaluation methods, Carbohydrates in Nutrition Hormonal control of blood CSE 552 Computer Models of Physical glucose. Lipid metabolism, cholesterol and lipoproteins. Essential fatty Engineering Systems 2 0 0 2 acids, minerals and vitamins in nutrition. Food fortification, energetics, MEE 552 Engineering Risk/Benefit Analysis 0 0 2 CHE 510 Biochemical Engineering 2 0 0 2 physiology and interrelationships of energy, protein, lipid and carbohydrate CVE 552 Elements of Civil Engineering requirements. Nutrition and Infection. Nutrition and mental retardation. Practice 2 0 0 2 EEE 552 Electrical Installation 2 0 0 2 Toxicology of common food contaminants. Effect of processing on CVE 504 Unit Process in water & Waste nutritional requirements. Nutrition deficiencies and control, kwashiorkor, Water Engineering 2 0 0 2 scurvy, pellagra, etc. food intake and nutritional disorders such as 130 131 arthrosceleresis, anaemia, ketosin, avitaminosin, hypertension, kidney and Relation between structures and functions of eukaryotic and prokaryotic protists. Microbial growth. Microbial metabolism. Mechanism of liver malfunctions. pathogenicity. Factors that influence microbial activities (moisture, oxidation-reduction potential, temperature). Effect of micro-organisms on FSE 304: Food Chemistry Laboratory - 1 Unit Qualitative and quantitative tests in foods. Preparation and standardization processing equipment. Alcoholic beverages production and aromatic of reagents. Acids and bases PH determination. Preparation of buffer products. Laboratory methods of assessing microbiological status of solution. Titrations. Report writing. Methods of separation. Preparation of different classes of food commodities: beverages, cereals, roots and tubers, Chromatographic columns: Thin layer, paper column, ion exchange. fruits and vegetables, meat, fish and dairy products. Dialysis and electrophoresis. Removal of toxic components in foods and its determination. Simple enzyme reactions. Determination of Kmax and other FSE 312: Principles of Food Analysis 1 - 2 Units enzymatic parameters. Theoretical consideration of proximate analysis, determination of fats, proteins, crude fiber, moisture and ash. Analysis of edible oils (including gas FSE 305: Food Biochemistry - 3 Units chromatography), properties and composition of ash. Wet digestion of Introduction: Hydrogen ion concentration and buffers. Properties of water: foodstuffs, and determination of minerals chloride, and phosphorus. solvent nature, dissociation, ionic product, Hindiason Hasselbach equation. Determination of vitamins. Importance of buffers in biochemical systems. Food macromolecules: Carbohydrates – mono, di, tri and polysacehandes, Liquid: Functions and FSE 401: Principles of Food Analysis II - 3 Units types. Proteins: Animo acids, Reations. Biochemical energetics, Free Determination of sugars and starches (including polarimetric method). energy changes in biochemical reactions and calculations. Metabolic Specific analysis of a number of foodstuffs: milk, cereals, processed fruit reactions: carbohydrates, lipids and animo acid, acid oxidation. Enzymes: and vegetable products, essential oils and alcoholic beverages. Kinetics, mechanism of action, prosthetic groups, energy rich bonds, enzyme Determination of preservatives. inhibition. Use of enzymes in the food industry. FSE 403: Food Analysis Laboratory - 1unit FSE 306: Unit Operations In Food Processing I: -3 Units Preparation and standardization of reagents. Proximate analysis, lipids, Preliminry and Preparative operations including: cleaning sorting, washing, proteins, crude fiber, moisture and ash, oil content in various products, peeling, deskinning, cutting, blanching etc. Ancillary Operations including: Vitamin C determination in fruits. Determination of various characteristics size reduction, sieving and sifting, centrifugation, floatation, filtration, in oils and fats: acid, peroxide, TBA, iodine, saponification-conjugated mixing, emulsification. Water and Waste water treatment, solid waste oxidative products-values: melting characteristics, refractive index, fatty disposal, Steam boilers. Heat exchangers. Materials Handling Systems in acid composition. Specific gravity determination. Determination of starch, food processing. sucrose and reducing sugars. Analysis of essential oils (acidity, rotation of FSE 307: Heat Transfer - 2 Units polarized light). Determination of preservatives. Analysis of canned foods. General principles and mode of heat transfer-conduction, convection and Determination of mineral elements in fruit juice and baby foods. radiation processes as applied to Food Engineering, Processing and Storage. Identification of chemical groups by IR Spectrophotometry. Natural and forced convection. Use of dimensional analysis and empirical correlations in heat transfer. Types of heat exchangers. Determination of FSE 405: Food Microbiology - 3 Units convective and overall heat transfer coefficients. Psychrometric properties of Microbiology of foods and their raw materials, fermented foods, food air-water mixtures. sanitation; sanitary aspects of food-borne diseases, water microbiology. Control of pathogens in foods. Insects and rodents in food and their control. FSE 308: Unit Operations in Food Processing I Laboratory –1 Unit Water disinfection and requirements for water in the food industry. Most Laboratory practical would be on each of the operations listed in FSE 306. probable number (MPN) and its use in microbial analysis. Microbial toxin: Malting and brewing of alcoholic beverages. FSE 310: Basic Food Microbiology - 3 Units Micro-organisms and their functions in food spoilage, preservation and FSE 407: Food Microbiology Laboratory - 1 Unit processing. Classification of bacteria, fungi and yeast important in foods. Sterilization: Media and stain preparation. Culture techniques. 132 133 Morphological study and biochemical characteristics of selected pathogens. Technologies. Evaporation, Concentration and Distillation, Absorption, Basic food fermentation: alcoholic, acetic, and lactic acid and indigenous Solvent extraction processes. Chemical, Sugar, and salt preserves. fermentation. Sanitation measures in food processing. FSE 421: Technology of Plant & Flesh Food Products I Lab.: 1 Unit FSE 409: Food Biotechnology - 3 Units Laboratory and Pilot scale production of plant and flesh based goods. Introduction to genetics and molecular biology. DNA structure and recombination. Bioreactor design and operation. Microbial cell culture. FSE 501: Food Plant Design and Economics - 3 Units Plant cell and tissue culture. Animal cell and tissue culture. Applications of Plant layout in the food industry. Economics of process design. Feasibility these biotechnologies in food processing. The cooking food extruder as a analysis and optimization techniques. Optimum design of food processing bioreactor. plant to include well defined spaces for the following: raw materials storage, source of water supply, waste water and by-products disposal, sanitation FSE 411: Technology of Plant Food Products I - 3Units consideration of the plant, parking spaces for both empty goods and finished Cereals, legumes, Oil seeds, Sugar cane. Chemistry and technology of the products. Industries and a plant design project. primary cereals (maize, rice, sorghum millet). Conversion of cereals into a sequence of products: flour, semolina, semovita. Baking technology: bread, FSE 502: Food Product Development 2 Units biscuits, confectionery products. Manufacture of breakfast cereals. An evaluation of the various factors involved in the development of new food Processing of cowpea into flour and other products such as akara and moin- product: Socio-cultural, economic, technological know-how. Availability of moin. raw materials. Costing, consumer behaviour and acceptability. Evaluation of Oil seed and nuts including palm fruit, palm kernel, soyabean, groundnuts, product based on quality and cost. Codex alimentarius. GRAS Compounds. melon seeds to produce oils and cakes. Sugar cane conversion into sugar (brown, white, granulated and cubed), syrups. Vegetable milks from Soya, FSE 503: Assigned Project I - 3 Units melon and groundnut. Fermented beverages from cereals and their adjuncts. Each student is expected to carry out research investigation under the Waste by-product recovery and management. supervision of a member (s) of academic staff of any area (s) of Food Science and Food Engineering. The research should be directed at solving an FSE 413: Technology of Flesh Food Products I - 3 Units identified problem related to Food. The student is expected to make an oral Pre-slaughter examination of animals/inspection of carcasses. Meat quality presentation at a seminar of the project plan and / or a literature review on the assessment. Manufacture of sausages, bacons and other table meats. Handling project topic before the investigation. methods in fish preservation-freezing, smoking, salting, canning, oiling, irradiation etc. Technology of egg handling, preservation and processing FSE 504: Assigned Project II - 3 Units preservation of egg by pasteurization, cryogenic freezing and dehydration. This will involve bench work on project, analysis and interpretation of results. Machinery design, development and testing or process design and development. A final report on the research project should be compiled, FSE 415: Food Engineering II - 2 Units typed and bound in a format designed by the department. The report will be Thermobacteriology and its applications to canning and aseptic processing. presented in form of a dissertation to be followed by an oral examination Kinetics of biological reactions especially applied for analysis of storage and before an external examiner. deterioration. Applications of enzyme systems in food processing. FSE 505: Seminar on Recent Development in Food Science and FSE 417: Unit Operations in Food Processing II - 2 Units Engineering – 1 Unit Flour Milling Technology, Baking and Confectionery Technology. Enzyme Each student is expected to prepare and make an oral presentation of selected and acid hydrolysis of starches. Starch extraction process. Starches as topics. ingredient in food systems. Food dehydration and drying technology, Cooking, Roasting and Extrusion 134 135 FSE 506: Food Quality Control - 2 Units conditions. Students work in design teams to elaborate a practical design Food standards and various laws for establishing food standards and grades. problem and present a seminar and report. Food Quality assessments and methods. Plant sanitation and hygiene. Statistical methods of Quality Control: quality charts according to variables FSE 511: Food Equipment Design and Fabrication - 2 Units and attributes, process quality control. Sampling by variables and attributes. Verification of sampling results with consumer acceptance. Statistical Review of machine design concepts and components earlier covered in methods for sensory evaluation. Mechanical Engineering. Students work in teams to design a machine, present a seminar and report on each team's experience. FSE 507: Nutrition in Health and Diseases - 2 Units Nutrient requirements of infants and adults. Evaluation of nutritional status. FSE 513: Food Engineering III - 2 Units Weaning foods: types and nutritional quality. Food intake and nutritional disorders such as artherosclerosis, anaemia, ketosis, avitaminosis, Novel technologies involving advances in food processing. Use of hypertension, kidney and liver malfunctions. Fibre in foods -nutritional cryogenic freezing systems. Application of irradiation and safety issues. importance. Improvement of nutritional status. Micronutrient fortification Use of on-line moisture meters. Boiling characteristics of organic liquids especially, iodine deficiency disorder (IDD) and vitamin A deficiency and application involving boilers, cookers and cryogenic freezers. High disorder (VADD) and iron deficiency anaemia. pressure sterilization, Ohmic and other novel heating systems. Membrane processing. Ultrafiltration processing. Systems analysis. FSE 508: Food Product Devt. and Quality Control Laboratory - 1 unit Case studies in food product development. Characterization of the developed food product. Statistical assessment of food quality factors. FSE 514 : Advanced Food Storage and Packaging Technology – 2 Units FSE 509: Fermented Foods and Beverages – 2 Units Definition: Role and importance of packaging. Principles of packaging. The origin and history of fermented foods. The fermenting microorganisms Characteristics of packaging materials- classification and types. and their growth characteristics in liquid, semi-solid fermentation. Manufacture and properties of flexible packaging materials- paper, paper Classification of fermented food substrates. Classical fermented food of cereals, vegetables, fruits, milk, meat and fish. Tropical fermented foods. board, regenerated cellulose, flexible plastic films, rigid plastic films. Manufacture and quality parameters. Future development in food Manufacture and properties of aluminium plates, tin plates, or foils, wood fermentations. and glass used in food packaging. Packaging requirements for fresh and FSE 510: International Food Policy Research - 2 Units processed foods, for local and foreign markets. Effects of packaging on Status of Food and Nutrition in the world. Production levels of different food storability of different classes of foods packaging for food transportation items: pulses, tubers, cereals, meat, oils. Population growth and food demand. and special handling. Testing for structural quality and performance of Structural changes and the demand for food in Africa and Asia. Regionalism. Food security and strategic grain reserves. Agriculture, Technological change packaging materials. Legislation on packaging. and the Environment Linkages between Agriculture and Nutrition implications for policy and research. Case studies for consideration. FSE 516: Toxic Constituents of Foods - 2 Unit Harzadous food components (of natural and adventitious origin, and FSE 512: Food Process Design - 2 Units contaminants), toxic factor induced by processing safe evaluation. Review of real process design problems. Block diagrams. Process and Teratogenesis and carcinogenesis; relationships of chemical structure, engineering flow diagrams, process charts incorporating method study, and activity and metabolism. The use of experimental animals in toxicological critical examination. Emphasis on conception and invention of processes as studies, analytical aspects; detoxification mechanism. The chemistry, well as analysis and economic balance to specify optimum design operating biosynthesis and physiological effects of food toxins – Tannins, linamarin and lotustratin, phytate, saponins, Lecithings etc are also considered. 136 137 Methods of removal of food toxins. Manner of processing of toxic foods.

FSE 518: Technology of Plant Food Products II – 2 Units Fruits, vegetables, roots, tubers, coffee, tea and cocoa.Harvesting systems and practices. Post harvest physiology of fruits, vegetables, roots and tubers. Fruit and vegetable processing by chemical, sugar, salt preserves, juices, nectars, purees, and concentrates; canning, freezing and dehydration, flavours, powders, tablets. Roots and tubers storage; Conversion into gari, fufu, flour, chips. Cocoa, Coffee, and tea processing into beverages. Wine making from fruits.

FSE 520: Technology of Flesh Food Products II - 2 Units Dairy products: Technology of dairy products- milk, ice cream, yoghurt, cheese, butter. Meat : Sausages, bacons, corned beef, ground beef, suya,. Fish: Sardine, fish protein concentrates, fish meal, crayfish, and oyster, smoking, freezing etc.

FSE 521: Advanced Food Analysis – 2 Units Application of modern instrumental methods of analysis to the examination of food products: Atomic Absorption Spectrometer, (AAS) High pressure liquid chromatography (HPLC). Gas chromatography (GC) Gas chromatography Mass Spectrometer (GC/MS), infrared spectrometer (IR), Nuclear Magnetic Resonance Spectroscopy (NMR), preparation Gas Chromatography (PGC), NEAR infrared reflectance spectroscopy. Theory, and applications in the food industry. Hands-on-demonstrations in the Laboratory. Use of radioactive isotopes and bio-assays.

FSE 522: Advanced Food Technology – 2 Units Particulate food transport systems with reference to sedimentation centrifugation, fludization, pneumatic and hydraulic transport. Comminution of solid foods including particle size distribution and analysis. Atomization of liquid. Detailed consideration of processes and equipment for dehydration and concentration.

FSE 552 : Elements of Food Processing and Preservation – 2 Units Processing and preservation techniques. Low temperature preservation and use of preservatives. Considerations in the selection of equipment for food processing Unit operations in food processing. 138 DEPARTMENT OF MECHANICAL ENGINEERING PHILOSOPHY In the concept of Ladoke Akintola University of Technology , the Mechanical Engineering department has to be well associated with other departments in the Faculty of Engineering and Technology, the Faculty of Agriculture (e.g. Agronomy); College of Health Sciences (e.g. physiology and surgery), Faculty of Environmental Sciences and Faculty of Sciences. The particular philosophy of mechanical engineering includes the pursuance of training research and applications in the field of Mechanical Engineering to advance and achieve the main goal of the University. As a result, student in the department on resumption participate in a week-long orientation programme designed to familiarize them with the general rules and regulation of the University. The first year in the programme exposes the student to advanced knowledge in the basic sciences of Physics, Chemistry, Mathematics and Biology to prepare them for the full fledged training in the mechanical engineering sciences and related professional courses. Also a number of credit units were made compulsory in general studies and Computer studies for the students. At the end of the Harmattan semester of the forth year they proceed on a supervised six month industry based training programme which exposes the student to practical aspects of the curriculum in preparation for the final year specialized programmes and projects. Mechanical Engineering is the basic profession that is involved in putting into practical applications, the physical applications of the physical sciences and other organized knowledge of the properties and behavior of matter at rest and in motion, to design and manufacture machine tools, engines, equipment, instruments etc. Mechanical Engineering harnesses energy resources and convert same into desired use with a view of advancing technology as well as improving the quality of human life. The curriculum of the programme in LAUTECH has been fashioned out to provide a broad engineering knowledge that spreads through the spectrum of engineering practices. It is therefore a foundation profession requiring a highly comprehensive and carefully organized training. OBJECTIVES:

Engineers are primarily concerned with design, manufacture, installation and maintenance of systems such as machine tool, equipment and other things that people use. The engineer is however faced with the challenge of 139 integrating technology, economy, management, human factor, marketing and in line with the above objectives, a programme which integrates period of attitude in his work. Mechanical engineering like other fields of engineering is industrial training with basic theoretical work for five years has been fashioned out to facilitate adequate professional training and development a profession in which knowledge of basic and applied sciences gained by which shall lead to the award of Bachelor of Technology degree in study, experience and practice is applied with judgment in order to develop Mechanical Engineering. ways of utilizing economically the material and forces of nature for the benefit of mankind. Admission Requirements The programme is designed to train and equip students with enough technical (i) UME Candidates skills and knowledge through the type, quality and content of relevant courses The minimum admission requirements shall be passes at credit in the engineering drawing, Auto-Cad, design, production, thermodynamic, mechanics, metallurgy, material science, tribology, control, automation and level in the Senior Secondary School final year examination or GCE '0' simulation of machine tools. As part of efforts to achieve the laudable Level in five subjects including Mathematics, Physics, Chemistry, objectives of the programme, laboratory practices complimenting sound class Biology and English Language. room lectures and works together with workshop practices, industrial UME Subject shall be use of English, Mathematics, Physics and Chemistry. experience, and supervised project were all blended to produce the type of engineer that will be able to cope with the challenges of a developing nation like ours. It is expected that with the content of the progamme, students will be (ii) Direct Entry able to sustain themselves after graduation. ·Candidates must have passes in Mathematics, Physics and Our graduates have been trained to first, be self employed in areas such as automobile, small engine and turbo-machine maintenance services and Chemistry at GCE 'A' Level or equivalent in addition to UME entry repairs shops, metal fabrication, job and machine shops, simple products requirement. manufacture, air conditioning and refrigeration systems design and services ·Candidates with OND and HND may be admitted into 200 Level etc given minimum funding possible. They are also needed in both private and courses. In addition, such candidate must also satisfy the UME public sectors as power generation; manufacturing; food Industries; public utilities; construction industries; aviation industries; road transportation entry requirement. industries; banking industries; defense and security; agricultural (iii) Transfers and Other Cases mechanization and water resources; chemical and allied industries; mining ·Students can transfer into either 200 or 300 level courses in the and metallurgy; communication industry; health services industries; department provided they have the relevant qualification. Polytechnics and Research Institutes; Universities. Summarily, the Mechanical Engineering Programme has been ·Candidates from recognized Institutions may be allowed to transfer designed to produce graduates who will exhibit competence in: to 200 or 300 Level provided they possess the relevant qualifications. (i) the Analysis and design of engineering systems such as Each case shall be considered on its own merit. machines, tools, equipment, etc; (ii) the exploitation and refining of materials resources such as metal-ores for use in the production of machine tool, equipment (d) Programme/Sub-Discipline/Discipline Structure to include period etc; of formal studies in the Universities, Industrial Training, Planned Visit (iii) research in all areas of Mechanical Engineering and related and Projects: fields; and The duration of the programme shall be five years leading to the award of a (iv) be self reliant after graduating from the university Bachelor of Technology (Honours) Degree in Mechanical Engineering, 140 141 which shall be designated as B.Tech. (Hons) Mechanical Engineering. The B.TECH (MECHANICAL ENGINEERING) PROGRAMME first year (100 Level) of the programme shall take care of Basic Sciences and FIRST YEAR General Studies Courses being handled by the Faculty of Pure and Applied LIST OF COURSES Sciences of the University. The second year (200 Level) shall involve courses introducing students to engineering in general and Mechanical Engineering in 100-LEVEL (HARMATTAN SEMESTER) particular, while the third and the fourth years (i.e. 300 and 400 Level H o u r s W ee k ly respectively) shall consolidate on the knowledge from the second year. G r o u p in g C o u rs e Co u rs e /S u b jec t Pr e. L T P C o n ta ct Students are expected to go for Students Work Experience Programme N o L e v e l R eq H o u r (SWEP) for a minimum period of two months during the semester break . following the second semester of year two and three. Students' are expected to G en era l G N S 1 0 1 U s e o f En g li sh I - 2 0 0 2 undergo a six-month Student Industrial Work Experience Scheme (SIWES) S t u d i es F A A 1 0 1 F u n d a m e n t al s o f D ra w in g - 2 0 0 2 commencing at the beginning of the second semester of year four (400 Level). M T H 1 0 1 El em en ta ry M a th e m a ti cs I - 4 1 0 5 The final year (500 Level) is devoted to application courses in Mechanical P H Y 1 0 1 G en e ra l P h y s i cs I - 3 1 0 4

s P H Y 1 0 3 Ex p eri m e n t al P h y s ic s I - 0 0 3 1

Engineering. Students shall also carry out independent work on designated e c n

e C H M 1 9 1 Ex p eri m e n t al C h e m i s try I - 0 0 3 1 project. i c

§ S Requirements for the Award of Degree c C H M 1 0 1 G en e ra l C h em is tr y I - 3 1 0 4 i s a B IO 1 0 1 G en e ra l B i o l o g y I - 2 1 0 3 To be eligible for the award of the Bachelor of Technology Honour Degree in B Mechanical Engineering, a candidate must pass a minimum of 192 units B IO 1 0 3 Ex p eri m e n t al B io lo g y I - 0 0 3 1 which is distributed as shown in the section below: L IB 1 0 1 U s e o f th e Li b ra ry - 1 0 0 0 Summary of the Curriculum of the Programme To tal 2 3 (i) Compulsory Courses: 100-LEVEL (RAIN SEMESTER)

(a) University Requirement – 46 Units Grouping Course Hours Weekly (b) General Studies – 08 Units No Level Course/Subject Pre. L T P Contact (c) Computer Studies – 06 Units Req. Hour General GNS 102 Use of English II - 2 0 0 2 (d) Faculty/Department – 112 Units Studies GNS 104 Sci. & Tech. in Africa thru. the Ages. - 2 0 0 2 Requirements MTH 102 Elementary Mathematics II - 4 1 0 5 (ii) Electives PHY 104 Experimental Physics II - 0 0 3 1

s PHY 102 General Physics II - 3 1 0 4 e c

(a) Restricted – 16 Units n e CHM 192 General Chemistry II - 3 1 0 4 i c S

(b) Free Elective – 04 Units c CHM 102 Experimental Chemistry II - 0 0 3 1 i s a BIO 102 General Biology II - 2 1 0 3 Total Units – 192 Units B BIO 104 Experimental II. - 0 0 3 1 Course content specifications/syllabus of all courses in the Programme CSE 100 Introduction to Computer Tech. - 1 0 0 1 Total 24 142 143 200-LEVEL (HARMATTAN SEMESTER) 300-LEVEL (HARMATTAN SEMESTER) Course Hours Total Course H ours Tota l Grouping No/Level Course/Subject Pre. Req. Week L T P G ro uping No/Lev el Co urse/Subject Pre. L T P Week Load Req. Lo ad EEE 201 Basic Electrical Engineering I - 2 1 0 3 GNS C ourse GNS 207 Science in Histo ry (Bio- - 2 0 0 2 EEE 203 Basic Electrical Engineering Laboratory I - 0 0 3 1 Historical Approach) s CSE 201 Basic Com puter Pro gramm ing C SE 1 00 2 0 3 3 e s EEE 231 Engineering Analysis I MTH 102 3 1 0 4 r s u e CSE 331 En gineering Statistics 2 1 0 3 s o MEE 201 Engineering Drawing I - 1 0 3 2 r C u o y MEE 3 13 Man ufactu rin g Tech nolo gy MEE 20 4 1 0 3 2 r C o MEE 203 Workshop Technology I - 1 0 3 2 s y l r

u MEE 3 21 Strength of M aterials II MEE 21 4 2 1 0 3 o s p MEE 205 Engineering M aterial I - 2 1 0 3 l u m p o MEE 3 23 Machine Design I MEE 20 6 2 1 0 3

C MEE 207 Fluid Mechanics I - 2 0 0 2 m / o e

r MEE 3 33 Mechanics of Machines II MEE 20 6 2 0 0 2 C o MEE 209 Fluid Mechanics Laboratory - 0 0 3 1 / e C r

o MEE 3 61 Applied Therm odyn am ics I MEE 21 2 2 0 0 2

MEE 211 Engineering Thermodynamics I - 2 0 0 2 C

Core/Compulsory Courses MEE 3 91 Metallu rgy MEE 20 8 2 0 0 2

Core/Compulsory Courses MEE 213 Engineering M echanics - 2 1 0 3

l s e a

e l v e n i s a t r v o i n i None ------c u t t o e c i

None ------o l p t e C l E p O E O Total 22 Total 23

300-LEVEL (RAIN SEMESTER) 200-LEVEL (RAIN SEMESTER) Course Hours Total Course Hours Total Grouping No/Level Course/Subject Pre. Req. L T P Week Grouping No/Level Course/Subject Pre. L T P Week Load Req. Load EEE 232 Engineering Analysis II MEE 231 2 1 0 3 GNS Course GNS 202 Logic, Philosophy and Science 2 0 0 2 MEE 202 Engineering Drawing II MEE 201 1 0 3 2 EEE 332 Engineering Analysis III EEE 232 3 0 0 3 MEE 204 Workshop Technology II MEE 203 1 0 3 2 s MEE 300 Mechanical Maintenance and Repairs 1 0 3 1 e s r MEE 206 Mechanics of Machines I MEE 213 2 0 0 2 u

o MEE 314 Workshop Practice MEE 313 2 0 3 3 C MEE 208 Engineering Materials II MEE 205 2 0 0 2 y s r

e MEE 316 Engineering Drawing III MEE 202 1 0 3 2 o s s l MEE 210 Engineering Materials Lab. MEE 205 0 0 3 1 r u u p

o MEE 324 Measurements & Instrumentation 2 0 0 2 m MEE 212 Engineering Thermodynamics II MEE 211 2 0 0 2 C o y C

r MEE 326 Fluid Mechanics II MEE 207 2 0 0 2 /

MEE 214 Strength of Materials I MEE 213 2 0 0 2 o e r s l o

u MEE 328 Automobile Workshop Practice 1 0 3 2 C

MEE 216 Strength of Materials Lab. 0 0 3 1 p m

MEE 200 Introduction to Mechanical Engineering 1 0 0 1 o EEE 308 Electromechanical Energy 3 1 0 4 C / Conversion Devices & Machines. e Core/Compulsory Courses FET 200 SWEP I 0 0 4 2 r

o CVE 202 Theory of Structures 2 0 0 3 None ------C l Core/Compulsory Courses FET 300 SWEP II FEE 200 0 0 4 2 s e a e

v n Total 20 s i o r t i c u t None ------e o p E C O Total 26 144 145 400-LEVEL (HARMATTAN SEMESTER) 500-LEVEL (HARMATTAN SEMESTER) Course Hours Total Course Hours Total Grouping No/Level Course/Subject Pre. L T P Week Grouping No/Level Course/Subject Pre. L T P Week Req. Load Req. Load MGS 201 Technology and Society 1 0 0 1 GNS Course None - CVE 401 Project methodology 2 0 0 1 MGS 511 Industrial Economics - 2 0 0 2 y r

EEE 401 Electrical Maintenance & Repairs 0 0 3 1 o MGS 513 Principles of Management - 1 0 0 1 s l u s e p s

MEE 423 Machine Design II MEE 323 2 1 0 3 s MGS 515 Principles of Accountine g - 1 0 0 1 e r s m s r u o r u o u MEE 431 Mechanical Vibrations MEE 333 2 1 0 3 C MEE 541 Thermal Engines o MEE 461 2 0 3 3 / C o C e r C o

y MEE 441 Automatic Control Systems MEE 324 2 0 0 2 MEE 551 Fluid Machinery MEE 451 2 0 3 3 C r o s

l MEE 451 Applied Fluid Mechanics MEE 326 2 0 0 2 MEE 591 Assigned Project I 0 0 9 3 u p

m MEE 461 Applied Thermodynamics II MEE 361 2 0 0 2 MEE 531 Energy Studies & Power Plant Generation - 2 1 0 3 o C

/ MEE 471 Heat & Mass Transfer 2 1 0 3 MEE 561 Min. Processing & Extractive Metallurgy - 2 0 0 2 e l a r t o n

Core/Compulsory Courses MEE 573 Advanced Heat Transfer - 2 1 0 3

MEE 481 Mechanics of Metal Forming MEE 391 2 0 0 2 e C m t r MEE 583 Refrigeration & Air Conditioning - 2 0 0 2 s l a e s e a p e v v n i e i s l t t o r Departmental Electives - 5 c i None ------D E e c u t e l o p E C O CHE 519 Inventions & Patents 2 0 0 2 s e y v

t i l Total 20 e t u c d c i e l a

F W E 400 LEVEL RAIN SEMESTER Total 20

Course Hours Total Grouping No/Level Course/Subject Pre. Req. L T P Week Load FET 400 SIWES FEW 300 0 0 1 4 2 Total 4

146 147 500-LEVEL (RAIN SEMESTER) COURSE DESCRIPTIONS Course Total MEE 200 – Introduction to Mechanical Engineering – 1 Unit Grouping No/Level Course/Subject Pre. Hours Week Introduction to various fields of Engineering practices with special emphasis Req. L T P Load on Mechanical Engineering. Job opportunities in Mechanical Engineering GNS Course None - components of Mechanical Engineering. Roles of Mechanical Engineering MGS 540 Technology Policy & Law - 2 0 0 2

s in the development of Nigeria. Case studies in Mechanical Engineering.

e MEE 522 Industrial Engineering - 2 1 0 3 s r

u MEE 201 – Engineering Drawing I – 2 Units o MEE 542 Advanced Mechanical Engineering MEE 423 2 0 0 2 C Engineering drawing as a means of communicating technical details on y

r Design o structures, components, engines, instruments, electrical wiring details etc. s l u

p MEE 554 Production Engineering MEE 314 2 1 0 3 Materials and instruments in use for engineering drawing. Different types of m o MEE 592 Assigned Project II - 0 0 9 3 lines and their uses; lettering; borderlines, details-box and dimensioning on C / drawings, paper sizes, drawing layout. First and third angles, triangles and e r o Department Electives - 6 polygon; pictorial and orthographic projections. Conic sections; ellipse, C Faculty Electives - 2 parabola and hyperbola; screw thread. Loci including involute, cycloid, epi MEE 532 Tribology 2 0 0 3 and hypocycloids.

s MEE 540 Automotive Transmission and Gear 2 0 0 3 MEE 202 – Engineering Drawing II – 2 Units e s v i e

t Train (i) Representation of mechanical fastener in drawing; bolts, nuts, s c r e u l MEE 562 Advanced Strength of Materials 2 0 0 3 studs cap screws, rivets, etc internally threaded holes. o E C t l n MEE 576 Operation Research 2 0 0 3 (ii) Sectioning Practices; necessity for sectioning, cutting planes a e n m

o and cutting plane lines, full and half sections; hatching; rules t i r

t MEE 582 Engineering System Analysis 2 0 0 3 a p relating to sectioning; examples of sectioning in machine p O e MEE 584 Physical Metallurgy MEE 431 2 1 0 3

D drawing. MEE528 Advanced Vibration 2 0 0 3 (iii) More on orthographic projections for standard machine parts. (iv) Isometric projections MEE 552 Engineering Risk Benefit Analysis 2 0 0 2 (v) Points, lines and objects in space; true shapes and dimensions

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a Practice F EEE 552 Electrical Installations 2 0 0 2 MEE 203 – Workshop Technology I – 2 Units General introduction of facilities in Engineering workshops and safety in Total 21 148 149 workshops, measuring instruments, calipers, micrometers, gauges etc, conservation of mass, momentum and energy. Simple application of manual and machine-operated workshop tools for metal and woodwork and conservation laws. Flow measurements. their care. Benchwork; metal and woodwork practice. Machines for turning, milling, shaping, drilling etc, introduction to welding. General introduction is MEE 208 – Engineering Materials II – 2 Units automobile workshop practices. Identification of automobile parts and their Structure of materials, crystals and defects in crystals. Conductors, functions. semiconductors. Alloy theory application to industrial alloy – steel in particular. Metal working; hot and cold working, heart treatment, etc. MEE 204 – Workshop Technology II (Pre. Req. MEE 203) – 2 Units principles of mechanical testing of materials. Impact test tensile tests, Introduction to automobiles; main components of automobiles. fatigue tests, creep and non – destructive tests, corrosion and corrosion Fundamentals of Engine operation and construction; basic concepts and controls, isotropy and anisotropy, dielectric materials. definitions, engine cycles, principles of operations of valve mechanism, cooling, lubrication, fuel and starting system, etc, maintenance and general MEE 209 – Fluid Mechanics Laboratory – 1 Unit servicing of automobiles; daily, routine preventive maintenance, etc. Fault tracing, troubleshooting and remedies for ignition, fuel, brake systems etc. Pressure measurement; stability of floating bodies, flow measurement using fabrication and machining of components from available drawings. Welding venturi-meter, orifice, weir, rotameter, etc. impact of jet on flat and round and fabrication, fundamentals of welding, welding processes, welding joint surface. preparation, weld inspection, etc. MEE 210 – Engineering Materials Laboratory (Pre. Req. MEE 205) – 1 Unit MEE 205 – Engineering Material I – 3 Units Mechanical test, impact tests, hardness tests, fatigue test, creep and non Physical properties of materials; atomic and molecular structure, bonding forces, structure of materials, wood, cement, plastics, metallic states. Crystals destructive test of engineering materials. Testing of magnetic materials e.g. and defects in Crystal, Isotropy and anisotropy; Essential and desirable transformer coils, testing of insulators, cable and transformer oils. properties of engineering materials; physical mechanical, thermal, chemical, technological and electrical properties. Common engineering materials for structures, machine parts/equipment, electrical items, instruments, etc, MEE 211 – Engineering Thermodynamics I – 2 Units inherent properties in these and how they may be modified as required. Basic concepts, units in use: Open and Close system; thermodynamics as the Factors to be taken into account in the selection and choice of engineering study of inter-relationships between work, heat and the properties of system, materials. thermodynamics properties of a systems; Pressure, Specific volume, temperature, internal energy. The first law of thermodynamics and it MEE 206 – Mechanics of Machines I (Pre. Req. MEE 213) – 2 Units corollaries. Flow and non-flow processes, steady state equation and its Newton's laws and the fundamentals of rigid dynamics. Displacement, applications. Velocity and acceleration of points and simple mechanism in two – dimensional motion, low graphical analysis, instant centers, images flexible MEE 212 – Engineering Thermodynamics II (Pre. Req. MEE 211) – 2 shaft couplings, virtual work energy and speed fluctuations in machines. Units Power transmission by clutches and belts. The flywheel and mechanical The second law of thermodynamics and its corollaries. Reversibility and governors. irreversibility. The thermodynamic temperature scale entropy and its characteristics. Pure substance. State changes in a system consisting a pure MEE 207 – Fluid Mechanics I – 2 Units fluid substance. Introduction to heat engines and heat pumps. Nature and types of fluids. Physical properties of fluids. Fluids static, Refrigeration, gas liquefaction, phase equilibra, chemical for homogeneous stability of submerged and floating bodies. Fluids flow concepts, and heterogeneous system. 150 151 MEE 213 – Engineering Mechanics – 3 Units Manufacture, Robotics, Introduction to Advanced Manufacturing STATICS – Law of statics, system forces and their properties simple Technique. problems. Center of mass, moment of inertia, analysis of coplanar forces, friction. Work and energy. MEE 314 – Workshop Practice (Pre. Req. MEE 313) – 3 Units PARTICLE – Kinematics of plane motion, Newton's Law Practical operation of machine tools; lathe, milling, shaping, drilling DYNAMICS - Kinetics of particles, momentum and energy method. machines. Description of machine tools with reference to the following; KINEMATICS OF RIGID BODIES – Velocity and acceleration diagrams fixture, work holding devices or methods, tools or cutter classification used, for Simple Problems. indexing and thread cutting calculation, etc. importance of tool grinding SIMPLE HARMONIC MOTION and cooling agents to machine tools. Installation, testing and maintenance of machine tools; machine tool alignment, machinery mounts and fixing MEE 214 – Strength of Material I – 2 Units (Pre. Req. MEE 213) foundry and casting techniques; foundry materials and tools, casting Resultants of forces, moments and couples. Equivalents force system methods/techniques. Hookes' law. Method of superposition. Stresses and deformation resulting from temperature changes. Stresses in thin cylinders and spheres. Stresses MEE 316 – Engineering Drawing III (PRE. REQ. MEE 202) – 2 Units on inclined planes. Principal stresses, structural mechanics of statically Projection of lines and laminae; auxiliary views and mixed projections. determinate rigid body systems and plane pin-jointed frames. Bending Preparation of detailed working drawing for production; semi – detail moment and shear in beams. Simple beams, trusses and column deflection drawings, conventional presentation methods. Assemble drawing of of beams, torsion. machines, devices and installation layout. Itemization and parts listing Drawing office practice and reprographics. MEE 216 – Strength OF Material Lab. I – 1 Unit Demonstration of Hooke's law Experiment on Stress – strain relationship. MEE 321 – Strength of Materials II (Pre. Req. MEE 214) – 2 Units Bending stresses in beams. Demonstration of deflection of beams. Two dimensional stress and strain analysis. The concept of stress at a point, principal stresses, principal styrain; Hooke's law; torsional loading, shear MEE 300 – Mechanical Maintenance and Repairs – 1 Unit forces and bending moment; thin and thick walled cylindrical pressure The need for maintenance and repairs. Types and Procedure for machinery vessels, deflections under flextural loading, statically determinate and inspection; maintenance tools and equipment; steps for developing indeterminate structures, shear flow, strain energy, failure theories, repeated Preventive Maintenance, Program Reliability centered Maintenance. loading impact loading. Maintenance Management and costing. Prediction of the rate of wear. Maintenance of plants. Adjustment of belt and chain drives brake and MEE 323 – Machine Design I (Pre. Req. MEE 206) – 2 Units clutches. Treatment of worn-shafts, bearing, etc. lubrication, Reassembly of Principles of design. Simple stress analysis. Use of threaded and non machine process equipment maintenance. –threaded fasteners. Shaft design. Design of scresws. Flexible mechanical elements (belt and chain drives). Couplings, clutches and brakes. MEE 313 – Manufacturing Technology (Pre. Req. MEE 203) – 2 Units Mechanical springs. Antifriction bearing, roller contact bearing. Scope of manufacturing processes; production and manufacturing Identification of standard machine components. processes and their elements. Datum surfaces and their selection, total and interpass machining, organisation of manufacturing process. Numerical MEE 324 – Measurements and Instrumentation – 2 Units control(NC), Computer Numerical Control(CNC), Direct Numerical Measurement principles and basic definitions. Standard Accuracy and error Control(DNC), Ergonomics and it application in equipment Design and analysis; measurement statistical instrument systems; sensing devices, 152 153 transmitting devices, terminating devices typical systems and devices for of materials. The modification of properties through changes in micro measuring quantities such as temperature, pressure, flow, size, displacements, structure. Materials strengthening mechanisms, alloying including high velocity, acceleration, force, power, torque, stress and strain. Analogue strength and heat resistant alloys; non ferrous metals and their alloys. Tool methods of measurements. Dynamics of measurements data presentation and steels. Metallurgy of casting, brazing, soldering and welding, modern curve fitting. welding techniques and applications; weldability of industrial materials. Non – destructive materials testing MEE 326 – Fluid Mechanics II (Pre. Req. MEE 207) – 2 Units Kinematics of fluid motion; streamlines, velocity, acceleration, rotation and MEE 423 – Machine Design II (Pre. Req. MEE 323) – 3 Units circulation. Control volume analysis, continuity, momentum, angular Design of various joints (riveted, brazed, welded, key, pins, splines). Design momentum and energy equations. The euler equation, Bernoulli's equation; and production matching (limits and fits). Design of gear systems (spur, Lamina incompressible flow between parallel plates, circular tubes and helical, bevel, worm gears) including strength of cast, forged and welded circular annuli; Lamina and turbulent flow in pipes. Pipe network flow housing and structures. Joints, fasteners, shaft and bearing mounting. measurements; pressure, velocity and flow rates. Potential flow. Aerofoil Design project (to be carried out in groups of 3 to 4 students per group). theory. MEE 431 –Mechanical Vibration (Pre. Req. MEE 333) – 3 Units MEE 328 – Automobile Workshop Practices (2 Units) Free and forced oscillation for lumped mass-spring system with and without Introduction to automobile workshop practice. Major components of the damping. Detailed study of one degree of freedom system in Mechanical automobile. The power transmission system, chassis engine and its related vibration. Multi-degree of freedom system by receptance, impedance system and the body. Basic concept and definitions, engine cycles, valve methods. Selected topics including rigid body vibration on elastic coils. mechanism, cooling, lubricating fuel, starting and charging systems etc. Fault Perturbation methods of non-linear vibration problems. Vibration of tracing techniques and rectification procedure in fuel, ignition, transmission machinery; free and forced vibration. Natural frequencies, damping and and brake systems. Fundamentals of wheel suspensions: front – wheel and critical speeds; Transverse vibration of beams. Whirling of shafts, torsional rear-wheel suspension systems; wheel balance and wheel alignment; Tyres vibrations. Practical classes; A T16 vibration bridge needed for a minimum and tyres wear, Troubleshooting steering difficulties. of five practical

MEE 333 – Mechanics of Machines II (Pre. Req. MEE 206) – 2 Units MEE 441 – Automatic Control Systems (Pre. Req. MEE 324) – 2 Units Gear tooth geometry, in volumetry, typical gearing, cam displacement diagrams layout equivalent mechanisms, force analysis, mechanical Linear feed back control theory with emphasis on mechanical systems; fluctuations of Kinetic energy and inertia effects. Complete static and transient and frequency response, stability, system, performance, control dynamic analysis. Balancing of multi – cylinder engines (in line vee and radial engines). modes, compensation methods; analysis of hydraulic, pneumatic, inertia components and systems. Transducers; differential equations of control MEE 361 – Applied Thermodynamics I (Pre. Req. MEE 212) – 2 Units Properties of mixture of ideal gases, and a condensable vapour; psychrometry. syste Application of first and second laws of thermodynamics to combustion. Analysis of vapour and gas power cycles. General thermodynamic relations. MEE 451 – Fluid Mechanics III (Pre Req. MEE 326) – 2 Units MEE 391 – Metallurgy (Pre. Req. MEE 208) – 2 Units Boundary layer theory. Naiver Strokes equation and simple applications. Structure of crystalline materials, solidification, mechanical working; liquid Compressible flow, isentropic flow, speed of sound, wave phenomenon, and solid solution; concept of phase equilibrium. Micro and macro structure flow in nozzle and diffuser, shock wave, Raleigh line flow, Fanno line flow. 154 155 MEE 461 – Applied Thermodynamics II (Pre Req. MEE 361) – 2 Units product safety. Process capability and reliability measurements, process Multi-stage reciprocating compressors, rotary compressors, centrifugal and and design. Practical problem of data collection and problem formulation. axial flow, stagnation properties, a simple gas turbine plant, the steam power Applied linear programming. plants, combustion of fuels; chemistry of common hydrocarbon fuels; MEE 531 – Energy Studies and Power-Generation Plant – 3 Units combustion with deficiency or excess air, Thermos chemistry; Hess law of Energy studies; a broad survey of methods for direct conversion of heat into heat summation, heat of combustion and reaction, ideal adiabatic flame electrical energy; solar energy; motion of the sun and the solar constant. temperature, reciprocating internal combustion engines. Atmospheric attenuation of the direct and diffuse radiation. Thermodynamic principles of energy conversion systems (emphasis on MEE 471 – Heat and Mass Transfer – 3 Units thermoelectric, photovoltaic and thermionic fuel cell) wind energy, wind Modes of heat transfer, General heat conduction equation. Steady state of mill design and flat plate collectors. Concentrating devices, solar tracking conduction in one dimension, composite bodies lagging, economics of systems, low temperature Rankine cycle. Sterling engine vacuum tubes. insulation. Thermal convection, use of dimensional analysis, relative heat Nuclear power plant; introduction to nuclear energy and its uses. Neutron transfer, black bodies, grey surfaces. Heat exchangers, extended surfaces life cycle in a thermal read or types of reactors; PWR, BWR, FBR, GCR, engine cooling. Combined modes of heat transfer. Mass transfer between Magnox reactor, AGR, HRT, etc phases, Humidification gases, types of gases, types of dryers and evaporators. Power plants; Revision of problems in thermodynamic cycle, effects of irreversibility. Steam cycles, gas turbine cycles. Boiler and Heat MEE 481 – Mechanics of Metal Forming (Pre Req. MEE 391) – 2 Units exchangers. Large thermal power plants, water plants, electric power Metal forming, stress-strain curves, yielding, Mohr's circle yield criterion true supply and distribution. Power systems structure, transformer, line, cables stress-strain curve; compression tests, torsion tests etc. for yield stress and generators. determination. Determination of working loads by consideration of work and stress distribution; by consideration of metal flow. Examination of processes; MEE 532 – Tribology – 3 Units rolling of flats and strips, extrusion, tube making deep drawing, forging, Lubricants mechanics; principles of friction, lubrication and wear. Types punching and piercing. Friction and lubrication in metal making. Adhesive and properties of lubricants, materials for tribological applications. Dry and boundary friction. Surface studies; topography and quality. Hydrodynamic in engineering. Aspects of welding design, weldability of materials weld theory applied to tapered wedge and journal bearings, hydrostatic stresses and distortions, methods of relieving weld stresses. lubrication applied to journal bearings. Air lubrication.

MEE 522 – Industrial Engineering – 3 Units MEE 541 – Thermal Engines (Pre. Req. MEE 461) – 3 Units Formation and optimization of mathematical models. Review of thermodynamics. Introduction to combustion engine with Techniques of operations research, such as mathematical programming, queing theory, inventory mode replacement techniques, applied to production emphasis on application of thermodynamics and fluid dynamics. Analysis control and inventory control. Transportation and assignment problems; of cycles. Performance characteristics of gas and steam turbines. Internal critical path analysis, PERT. Production planning; production control combustion engines (I.C.E) propulsion systems; compressors and forecasting, work study, work system design. Quality control. Industrial and combustion units. Exhaust emissions. 156 157 MEE 542 - Advanced Mechanical Engineering Design (Pre. Req. MEE MEE 562 – Advanced Strength of Materials (Pre. Req. MEE 321) – 2 423) – 2 Units Applications of principles of strength of materials to problems of analysis and Units design under combined load. Failure analysis. Elastic deformation of Review of concepts in solid mechanics; stress, strain, momentum balance, machine parts, introduction to computational methods in mechanical design, energy principles, linear and non-linear stress-strain laws. Plane stress and optimization in design, materials selection in design. strains in cylinders. Small deflections of plates, classical approximate and strain energy methods. Computer applications, cylindrical shells. MEE 551 – Fluid Machinery (Pre. Req. MEE 451) – 3 Units Introduction to Turbomachinery. Characteristic curve for axial-flow and Analysis of stress and strain; Torsion theory. Introduction to plasticity, slip centrifugal pumps, fans, blowers, impulse and reaction turbines, fluid line theory and plastic stress-strain laws. Fracture mechanics. couplings, similarity laws. Pelton wheel, reaction turbine, hydraulic MEE 573 – Advanced Heat Transfer (Pre. Req. MEE 471) – 3 Units transmission, fluid coupling, torque converter, hydraulic accumulators and Concepts of conductions convection, radiation and heat exchanger application to cranes, hydraulic intensifiers. principles. Applications of the analysis of engineering problems which MEE 552 – Engineering Risks/Benefit Analysis – 2 Units involve fluid flow, heat transfer and mass transfer to design and simulation Risks associated with different engineering undertaking. Types of risks. problems. Boundary layer theory in heat and mass transfer. (Emphasis on Methods of identifying and estimating the gravity of such risks. analytical and numerical methods). Unsteady problems. Heat transfer with Incorporation of risk factors into costs. Insurance cover. Consideration of phase changes. risks against benefits. Engineering decision making in a situation where risk out weighs benefits. Time value of money, Estimating of Costs and benefits, the Economic feasibility of Independent projects. Comparism of MEE 576 – Operation Research – 3 Units Alternatives. Formation and Optimisation for mathematical models. Techniques of operations research such as mathematical programming, queuing theory. MEE 554 – Production Engineering (Pre. Req. MEE 314) – 3 Units Inventory models, replacement techniques applied to production control and Review of Manufacturing technology. Design and production metrology; inventory. metrology laboratory setting, metrological experiment techniques, Calculus of variation, maximum principles, dynamic programming, application of metrology, control of metrology labs. optimization and optimum seeking methods. Project analysis of Design of manufacturing facilities; production systems; network based metallurgical processing systems. Method of regression analysis and management, production organization; inventory models and designs. statistical testing. Production control. Transportation and assignment problems, non-linear programming models critical path analysis, PERT. Practical problems of data collection and MEE 561 - Mineral Processing and Extractive Metallurgy (Pre. Req. problem formulation. MEE 391) – 2 Units MEE 582 – Engineering System Analysis – 2 Units Ore preparation, drying, roasting, sintering and heat balance. Floatation Introduction to major concepts and techniques of system analysis as an solution chemistry and surface chemistry as related to froth and floating. approach to engineering problem solving. Calculus of variation, maximum Absorption, interfacial energy, flocculation; dispersion and floatation principles, dynamic programming. Optimization and optimum seeking kinetics. Hydro and Electro-metallurgy; physical and chemical principles methods. Project analysis of metallurgical processing systems. Method of involved in the extraction and retraction and refining of metals by hydro and estimating process costs and profitability regression analysis and statistical Electorial-metallurgical technique. Units testing. Application to real problems in planning and design of mechanical Iron and Steel Production; raw materials for steel plants, coal, limestone, iron, metallurgical systems. ore, etc. Basic units of steel plants; blast furnance, direct reduction plant; coke over and by product plant, steel making processes. Auxiliary units. MEE 583 – Refrigeration and Air-conditioning – 2 Units Application of thermodynamic theory and design principles to comfort 158 159 cooling, food refrigeration and cryogenics systems. Refrigeration and air- comparisons and characters, conditional execution and transfers, conditioning, equipment design, fault diagnosis, scheduled maintenance. subprogram. Arrays user-defined values, sub-ranges and record structures; files pointer structures, set structure. MEE 540 (Manual, Automatic Transmission and Power Trains (3 Units) A study of the principles and operation of Transmissions, drivelines, CSE 331 - Engineering Statistics 3 Units 2-1-0 differentials and rear suspensions. A detailed study of 4-speed and 5-speed Measures of Dispersion: mean, median, mode, geometric mean, harmonic mean for grouped and ungrouped data. Correlation and regression analysis. manual transmission models and five speed overdrive Transmissions. Probability theory: Definition, axioms, Normal, binomial, poisson Servicing, testing and rebuilding transmission components, driveline, and distributions, mathematical expectations, probability density function. rear suspension components.

MEE 584 - Physical Matallurgy - 3units CVE 202 – Theory of Structures – 3 Units Classification of transformation, Classification by structural and kinetics Definition and determination of the degree of statically indeterminacy and features. Generalised approach to reaction equation, free energy consideration and the stability. Analysis of determination trusses, beams and simple frames by equilibrium diagram, spinodal decomposition. various methods. Application of Williot-Mohr diagram. Shear forces, Nucleation: Random, non-random, site saturation measurements. Growth: Morphology of particles, Canellar growth partitioning coalescence bending moment slope and deflection for simple beams and cantilever by measurements. various analytical methods. Determination of fixed and moments Metastability: Hardening mechanism (precipitation – hardening e.t.c.) distribution method for simple continuous beams. Influence lines for shear Theory of martensitic transformation, massive transformation, micro- struction of tempered martensite. Tempering, effect of allowing elements forces, moments and reactions in simple determinate beams, minima and secondary hardening. maximal values consideration.

MEE 591, 592 Student Final Year Project (3 Units each). EEE 201 - BASIC ELECTRICAL ENGINEERING I – 3units CSE 100 – Introduction to Computer Technology – 1 Unit Brief history of electrical engineering. Review of basic electrostatics, Computers: Definition, types (Digital, analogue and hybrid); categories Terminal and physical description of electric circuit elements: resistors, capacitors, inductors, mutual inductors, transformers, voltage and current (Mainframe, Minicomputer, microcomputer). Problems solving using sources. Network theorem; kirchoff's voltage law (KVL), kirchoff's current law (KCL), thevenin, Norton and superposition theorems. algorithms and flowcharts, using the style of structured programming. Power and energy in electric circuits, Equivalences. Periodic waveforms Programming in BASIC Overview of BASIC language. Input, output, data and their effective values. Transient and steady state response of electric networks. Single time structures and files designs. Computation, advanced features of BASIC. constant circuit, concept of impedance and admittance. Elementary Impact of computers on the society. treatment of resonant circuits. Review of magnetic fields of currents in space. Magnetic flux and flux density. Brief discussion of magnetic circuits. Transformers: their features CSE 201 – Basic Computer Technology – 3 Units and applications: polyphase systems. Introduction to electrical machines: Direct current (DC) motors and Structured algorithm using pseudo-code PASCAL – Control structures, generators Electric lamps and illumination. 160 161 EEE 203 - BASIC ELECTRICAL LABORATORY I – 1 Unit regulation, loading diagram, salient pole generators synchronous This course consists of experiment designed to familiarize the students with condensers. the use of electrical measuring instruments like ammeters, voltmeters, ohmmeters, flux meters, oscilloscopes, bridges for direct current (d.c.) as EEE 332 ENGINEERING ANALYSIS III – 3 Units well as alternating current (a.c.) circuit. The experiment will also acquaint the Solution of linear and non linear equations, system of equation, Finite student with the use of power and single sources like power supplies, sine wave oscillators and pulse generators. differences, function of complex variable. Differentiation and integration of complex functions, Cauchy – and Riemmann's equations, applications to EEE 231 – ENGINEERNG ANALYSIS – 4 Units Laplace and Fourier transformers. Introduction to non-linear differential Principle of differential calculus, Applications to plane, curves, tangent, equation. normal and curvature. Sequence and series Taylor's and maclaurin's series; to Power and series solution of Differential equations. The Euler method; include functions of several variable maxima, minimal and saddle point. Runge – Kutta method; introduction to optimization methods. Approximate solution of equations. Principles of integral calculus, Numerical integrations. First and second order differential equations. Multiple integration; line, EEE 401 – Electrical Maintenance and Repairs of Equipment – 1 Unit surface and volume integral. Partial differential equation and applications to Electrical tools and equipment for Maintenance and repairs. Maintenance Engineering problems. purpose, types and procedure. Ground rules of Appliance Repair, trouble Introduction to Fourier series analysis, Fourier transforms and applications to shooting small appliances. Electrical safety. Maintenance of plants. engineering. Integral functions: Gamma, Beta, Error and Elliptic function. Repairs of electrical motor, radio receiver and other major electrical equipment. Case studies from the Electrical Repairs Units. EEE 232 – ENGINEERING ANALYSIS I – 3 Units Vector, Scalars, Vectors and Scalars fields. Product of two, three or more vectors. Vectors differentiation and integration. Gradient, divergence, curl CVE 401 – Project Methodology – 2 Units and physical significance. Three-dimensional coordinate geometry of lines Project proposal – Aims, objectives, scope and methodology. Desk and planes. research work – Review of previous works and justification for the project. Introduction to complex numbers. Elementary functions of complex Main investigation – theoretical consideration, experimental works, field variable. Determinant and their properties. Solution of a set of linear works and data collection and designs. Analysis of data/results – collation equations, Crammer's rule. Matrices ands their properties; characteristics of findings, assessment of accuracy, further investigations, results functions. Eigen values and eigen vectors. Introduction to linear consideration and objective appraisal. programming. Documentation – Format of write-up, major headings and sub-headings, citing of references, tables, figures, listing of references, appendices etc. Phraseology. EEE 308 – Electromechanical Energy Conversion, Devices and Machines – 4 Units CHE 519 – Inventions and Patents – 2 Units Transformer; equivalent circuit, efficiency, testing of single phase Discoveries, inventions and their contributions to developments. The transformers, parallel operation; three phase transformers, group connection background history of inventions and their economic impacts on world of windings. Auto transformers. Principles of electromechanical energy development. Example of inventions in various fields of technology, conversion. DC machines; construction, e.m.f. equation, armatures reaction, management, socio-economics and political systems. Patents and Need for characteristics of generators and motors efficiency, parallel operation patency. Procedure to obtain the various types of Cover Rights and starting, testing. Trademarks. Interferences and breaches of patent Rights – the legal Angle. Three phase induction motors. Construction, rotating magnetic field Patency in development economics. MGS 540 – Technology Policy and Law – 2 units equivalent circuit, characteristics speed-control, starting efficiency, single An overview of the National Technology Policy, Acquisition, adaptation phase induction motors pulsating magnetic field, symmetrical components, and application of scientific and technological knowledge for other starting, equivalent circuits phasor diagram for cylindrical motor. Voltage 162 163 national development objectives. National strategy, patents and inventions; Engineer in Nation building; social Implication of Technology; trademarks and copy-right, contract documents, professional Technology policy and implementation. responsibilities and liabilities. MGS 511 (Industrial Economics) (2,0,0) 2 Units CSE 552 – Simulation and Modelling of Physical and Engineering The scope, concept and methodology of industrial economics the Systems – 2 Units structure, conduct performance paradigm. Theories of the firm the (a) Formulation – System definition, classification of model, maginalist, behavioural and managerial theories. The contributions by characteristics of models. Baumol, Williamson, Marries, Cyert and March, Simon etc. The theories (b) Methodology – Defining, and documenting the problem. Analysis of Growth output maximization and the labour managed firms. Property of data requirements, formulation of subsystem models, integration of subsystems, parameter estimation, debugging the simulator validating and Rights and the theory of the firm. Models of market organizations and running the simulator types of business organizations. Galbraith and the new Industrial State. (c) Experimental Design – Selecting a Statistical Procedure, Variance Ownership and Control:- Implications for firm performance. Reduction Technique – Monte Carlo, Random, Number Generators. (d) Simulation languages – Features of FORTRAN, CRSS, GASP, FSE 552 – Elements of Food Process, Preservation – 2 Units Comparison of Simulation language. A case study choice of a language. Processing and preservation techniques. Low temperature preservation and use of preservation and use of preservatives. Consideration in the CVE 552 – Elements of Civil Engineering Practice – 2 Units selection of equipment for food processing. Unit of operations in food The relationship among the professionals in Civil Engineering. processing. Contracting in Civil Engineering Projects. Execution of Civil Engineering projects and site organization. Techniques, procedures and plants involved in large scale earth movement. Principles and construction of firework, MGS 552 – Entrepreneurship - 2 units trusses and floors. External work. Forms of Business Ownership: Business planning and management, organizing resources, making business decision through the use of EEE 552 – Electrical Installation – 2 Units feasibility study and viability of a project; comparative project analysis National Electric Power Authority and Electricity Supply Regulations, and evaluation using accounting information. systems of supply – Single phase 3-wire, Three phase 3-wire, Three phase 4-wire. Consumer circuits – Internal distribution and protection. Identification of Component parts. Conductors and Cables – Conductor materials, insulation materials; cable selection Joints and Jointing, Wiring systems and accessories including lamp holder, fuses, distribution board and miniature circuit breakers. Earthing – definition, regulation electrodes testing and installation. Illumination and electric heating. Electric signaling systems installation – single stroke electric bell, continues ringing bell, burglar alarms and fire alarms. Intercommunication telephone system wiring. MGS 201 – Technology and Society (1 Unit) History of Engineering and Technology; Importance of Technology to society, Safety in Engineering, Introduction to risks analysis; role of the 164 165