National Board of Accreditation

NATIONAL BOARD OF ACCREDITATION

SELF ASSESSMENT REPORT (SAR) FOR ACCREDITATION OF

PG ENGINEERING PROGRAMMES (TIER-I) IN Integrated Power Systems (IPS)

NATIONAL BOARD OF ACCREDITATION

4th Floor East Tower, NBCC Place Bhisham Pitamah Marg, Pragati Vihar,New Delhi 110003 P: 91(11)24360620-22, 24360654 Fax: 91(11) 24360682

(January, 2013)

Contents

Page Title No.

PART- A 1. Institutional Information 3

2. Departmental Information 14

3. Programme Specific Information 17

PART- B 1. Vision, Mission and Programme Educational Objectives 19

2. Programme Outcomes 22

3. Programme Curriculum 30

4. Students’ Performance 36

5. Faculty Contributions 40

6. Facilities and Technical Support 49

7. Academic Support Units and Teaching-Learning Process 53

8. Governance, Institutional Support and Financial Resources 56

9. Continuous Improvement 85

Declaration 88

Annexures 89

EE/VNIT/Nov 13 Page 2 of 218

A-1 Institutional Information Self Assessment Report (SAR) PG Part A

I. Institutional Information

I.1 . Name and address of the institution and affiliating university :

VISVESVARAYA NATIONAL INSTITUTE OF TECHNOLOGY (VNIT), SOUTH AMBAZARI ROAD, NAGPUR 440010 I.2. Name, designation, telephone number, and e-mail address of the contact person for the NBA:

Dr. Narendra S. Chaudhari, Director VNIT. Ph : Email : [email protected] Dr. K D Kulat, Professor, Department of Electronics Engineering Ph : 0712-2801345 Email : [email protected] / [email protected] I.3. History of the institution (including the date of introduction and number of seats of various programmes of study along with the NBA accreditation, if any) in a tabular form:

1.3.1 Historical Background

The VNIT, Nagpur is one of the thirty National Institutes of Technology in the country. The Central Government by Act of Parliament (National Institutes of Technology Act, 2007 (29 of 2007)) declared VNIT Nagpur as an Institute of National Importance. The Act was brought into force from 15 th August 2007.

VNIT Nagpur was conferred the Deemed to be University status (under University Grants Commission Act, 1956 (3 of 1956)) with effect from 26 th June 2002 by the Central Government. Earlier, the Institute was known as Visvesvaraya Regional

College of Engineering (VRCE). It was established in the year 1960 under the scheme sponsored by Government of India and Government of Maharashtra. The college was started in June 1960 by amalgamating the State Government Engineering College functioning at Nagpur since July 1956. In the meeting held in October 1962, the Governing Board of the college resolved to name it after the eminent engineer, planner, and statesman of the country Sir M. Visvesvaraya.

EE/VNIT/Nov 13 Page 3 of 218

1.3.2 Location

Nagpur known as Orange City is centrally located and well-connected to all the parts of the country by air, rail and road. It is also the second capital of Maharashtra. Nagpur is the largest city in central India and the winter capital of the state of Maharashtra. It is a fast growing metropolis and is the third most populous city in Maharashtra after Mumbai and Pune, and also one of the country’s most industrialized cities. With a population of 2,405,421, Nagpur is the 13 th most populous city and 13 th largest urban agglomeration in India. It is the 154 th largest agglomeration and 164 th largest contiguous urban areas in the world.

Nagpur is the seat of the annual winter session of the Maharashtra state assembly, “Vidhan Sabha”. Nagpur is a major commercial and political center of the Vidarbha region of Maharashtra. In addition, the city derives political importance from being the heardquarters for the Hindu nationalist organisation RSS and an important location for the Dalit Buddhist movement.

According to a survey by ABP News-Ipsos, Nagpur has been identified as the best city in India by topping the liveability, greenery, public transport, and health care indices. It is famous for the Nagpur Orange and is known as the “Orange City” for being a major trade center of oranges cultivated in the region.

The city was founded by the Gonds and later became a part of the Maratha Empire under the royal Bhonsale dynasty. The British East India Company took over Nagpur in the 19 th century and made it the capital of the Central Provinces and Berar. After the first Pact” between political leaders, it was made the second capital of Maharashtra.

Nagpur is also called the “Tiger Capital of India” as it connects many tiger reserves in India to the world. It is among the important cities for the Information Technology Sector in Maharashtra. Nagpur lies at the dead center of the country with the Zero Mile marker indicating the geographical center of India. City of Nagpur is considered as geographic centre of India with its famous Zero Mile stone. Major National highways and rail networks connecting Delhi with Hydrabad/ Bangaluru/ Kanyakumari and Mumbai with Kolkata pass through the city. It is now recognized as Tiger Capital of India with major Tiger National parks around the city. It is popularly known as "Orange City". Nagpur is second capital of Maharashtra State.

EE/VNIT/Nov 13 Page 4 of 218

VNIT is located in the heart of Nagpur city on sprawling campus of 214 acres. The campus can be located on Google maps as VNIT, N 21 0, 7’ 28”, E 79 0, 3’ 8” The official website address for VNIT is: www.vnit.ac.in .

1.3.3 Regular Academic Programmes :

Academic Programmes

The Institute offers 9 Under-Graduate programs viz., B. Tech. in Chemical, Civil, Computer Science, Electrical and Electronics, Electronics and Communication, Mechanical, Metallurgical and Materials and Mining Engineering and Bachelor of Architecture.

The Institute also offers 16 Post-Graduate Full time programs (2 years duration) viz., M. Tech. in Industrial Engg., Heat Power Engg, CAD-CAM, Materials Engg, VLSI Design, Communication System Engineering, Computer Science Engg., Industrial Engg., Integrated Power System, Power Electronics and Drives, Structural Engineering, Structural Dynamics and Earthquake Engineering, Environmental Engineering, Water Resources Engineering., Construction Technology and Management, Transportation Engineering and Urban Planning. The Institute also offers M.Tech. by research program in all engineering departments,

Ph D (Full/Part Time).

Institute has stared M.Sc. programs in Chemistry, Mathematics and Physics from current year.

The Doctoral Research is done in all Engineering and Sciences departments. Institute is a recognized centre under QIP scheme for Ph.D. program in Electrical and Metallurgical & Materials Engineering department and for M. Tech. program in Electrical and Civil Engineering departments.

Sr.No. Program Name Year Intake Capacity Under Graduate Program : B Arch/B Tech 01. Architecture 1960 62 02 Chemical Engineering 2006 92 03. Civil Engineering 1956 92 04. Computer Science Engg. 1987 92 05. Electronics and 1980 92 Communication Engineering 06. Electrical And Electronics 1960 92 07. Mechanical Engineering 1960 92 08. Metal and Materials 1965 92 Engineering 09. Mining Engineering 1982 32 TOTAL 738 Post Graduate & Research Programs :

EE/VNIT/Nov 13 Page 5 of 218

M Tech 01. Environmental Engineering 1966 20 02. Water Resources Engineering 2011 20 03, Construction Technology 2010 20 04. Transportation Engineering 2011 20 05. VLSI Design 2007 20 06. Communication System 2012 20 Engineering 07. Computer Science Engineering 2007 20 08. Industrial Engineering 1989 20 09. Heat Power Engineering 2002 20 10. CAD-CAM 2010 20 11. Integrated Power System 1968 20 12. Power Electronics & Drives 2010 20+5 SP 13. Material Engineering 1960 20 14. Structural Dynamics and 2003 20 Earthquake Engineering 15. Structural Engineering 1991 20 16. Excavation Engineering 2012 20 17. Urban Planning 1988 20 TOTAL 320 M Sc. 01. M Sc Chemistry 2013 20 02. M Sc Mathematics 2013 20 03. M Sc Physics 2013 20 TOTAL 60

I.3.4 Accreditation Status :

National Board of Accreditation granted accreditation to the various eligible programs in 2009 wide letter No. F.No. NBA/ACCR-44 (II)/2002, Dated 2 nd March 2009. The details are given below:

The Accreditation Status of the programme(s) are:

Sr.No Name of UG & PG Programme(s) Accreditation Period of validity Status w.e.f. 10.02.2009 01. B.Tech. Electronics & Comm. Engg. Accredited 3 Years 02. B.Tech. Mechanical Engg. Accredited 3 Years 03. B.Tech. Civil Engg. Accredited 3 Years 04. B.Tech. Computer Science & Engg. Accredited 3 Years 05. B.Tech. Mining Engg. Accredited 5 Years 06. B.Tech. Metallurgical & Materials Accredited 5 Years Engg. 07. B.Tech. Electrical & Electronics Accredited 5 Years Engg. 08. M.Tech. Integrated power System Accredited 3 Years 09. M.Tech. Structural Dynamics & Accredited 3 Years Earth Quate Engg. 10. M.Tech. Environmental Engg. Accredited 3 Years EE/VNIT/Nov 13 Page 6 of 218

11. M.Tech. Structural Engg. Accredited 3 Years 12. M.Tech. VLSI Design Accredited 3 Years 13. M.Tech. Industrial Engg. Accredited 3 Years 14. M.Tech. Ferrous Process Metallurgy WITHDRAWN 15. M.Tech. Ferrous Process Metallurgy WITHDRAWN

(Total number of programmes Accredited vide this letter – Twelve and Withdrawn – Two)

New M.Tech Programs started (year)

Sr.No. Title of Program Intake 01. Transportation Engineering (2011) 20 02. Communication System Engineering 20 (2012) 03. Water Resources Engineering (2011) 20 04. Power Electronics and Drives (2010) 20 Total Increased Intake 80

Campus

VNIT Campus is spread over an area of 214 acres near Ambazari lake. It presents a panorama of harmony in architecture and natural beauty. The campus has been organized in three functional sectors;

•Hostels for students, Health centre, sports complex •Academic Buildings, Administrative Building, and Library •Residential Sector for family & staff The academic buildings are located fairly in close proximit, to the hostels and the staff quarters. The campus has a full-fledged computerized branch of State Bank of India with ATM facility, Canara Bank, Post office as well as courier services and other needs of students, residents and office are nearby.

The Institute has its own full fledged Health Center with a full time residential Medical Officer. The specialized medical services of a Psychological Counsellor, Dietician, Physiotherapist, Pathology lab, Yoga centre, and also medical consultants in Ayurveda and Homeopathy are available. Patients suffering from serious illness / requiring intensive care are referred to the Govt. Medical College and Hospital and other Health care centres duly approved under the CGHS. A full time dedicated Ambulance service in available at the dispensary.

Spacious and multicuisine canteen is located close to the instruction zone and hostels. Two more cafeterias exist on the campus. The Institute has a well equipped Gymkhana apart from various playgrounds for Tennis, Badminton, Volley Ball, Foot Ball, Hockey, and Cricket. NCC unit is also located on campus. There are very well used by students and campus residents of quarters.

EE/VNIT/Nov 13 Page 7 of 218

I.4. Ownership status: Govt. (central/state) / trust / society (Govt./NGO/private)/private/other:

CENTERAL GOVT. MHRD Declared as Institute of National Importance by NIT Act of 2007 (27 of 2007)

I.5. Mission and Vision of the Institution:

Mission The Mission of VNIT is to achieve high standards of excellence in generating and propagating knowledge in engineering and allied disciplines. V.N.I.T. is committed to providing an education that combines rigorous academics with joy of discovery. The Institute encourages its community to engage in a dialogue with society to be able to effectively contribute for the betterment of humankind. Vision To contribute effectively to the National Endeavour of producing quality human resource of world class standard by developing a sustainable technical education system to meet the changing technological needs of the Country, incorporating relevant social concerns and to build an environment to create and propagate innovative technologies for the economic development of the Nation. I.6. Organisational Structure:

I.6.1Administration

As per the provisions of the NIT Act, the Board of Governors (BoG) is responsible for superintendence, direction, and control of the Institute. Thus, the BoG is vested with full powers of the affairs of administration / management and finances of the Institute. Members of the Board represent Government of India, Government of Maharashtra, Industries, and faculty of the Institute. The Director is the principal academic and executive officer of the Institute. Besides the BoG, the Senate, the Finance Committee (FC) and the Building and Works Committee (BWC) are statutory committees and therefore, authorities of the Institute.

Apart from the above statutory committees, the Board has the power to constitute various sub- committees for smooth and efficient administration. Thus, the Board has constituted the Stores Purchase Committee (SPC), Grievance Committee (GC), and Special Cell. The SPC administers the centralized procurement of equipment and material whereas the GC provides a platform to hear the views of staff and faculty on grievances. The Special Cell functions to protect the interest of backward-class candidates through procedural, institutional, and other safeguards.

EE/VNIT/Nov 13 Page 8 of 218

I.6.2Flow Chart showing Institutional Administration

Figure I

EE/VNIT/Nov 13 Page 9 of 218

I.6.3 Flow Chart showing the hierarchy of Academic Departments

Figure II

EE/VNIT/Nov 13 Page 10 of 218

I.7. Financial status: Govt. (central/state) / grants-in-aid / not-for-profit / private self- financing / other:

(Instruction: Financial status of the institute has to be mentioned here.) CFI (Centrally funded institution) I.8. Nature of the trust/society :

Also list other institutions/colleges run by the trust/society

(Instruction: Way of functioning and activities of the trust/society have to be listed here.)

Name of the Year of Location Institution establishment

NA - -

1.9 . External sources of funds :

Name of the CFY CFYm1 CFYm2 CFYm3 External 2010-11 2011-12 2012-13 Source Plan 3825=00 00 7500=00 2200=00 Non Plan 1620=00 3200=00 4249=00 1500=00 (Instruction: The different sources of the external funds over the last three financial years are to be listed here.) I.10 Internally acquired funds:

Name of the CFY CFYm1 CFYm2 CFYm3 External 2010-11 2011-12 2012-13 Source Students’ fee 2,70,14,268 8,62,01,169 100,32,5,522 17,79,67,064 Interest & 4,88,21,680 8,16,88,699 5,63,25,522 3,23,85,087 Other Income

(Instruction: The different sources of the internal funds over the last three financial years are to be listed here.)

EE/VNIT/Nov 13 Page 11 of 218

I.11 Scholarships or any other financial assistance provided to students? (Instruction: If any scholarship or financial assistance is provided to the students then the details of such assistance over the last three financial years has to be listed here. Also mention needs to be made of the basis for the award of such scholarship).

Details CFY CFYm1 CFYm2 CFYm3

Category Scholarship Assistance Various sources given in I.11

Amount 3,28,05,922 1,74,86,164 1,77,64,254 2,37,27,156

I.12 Basis/criterion for admission to the institution:

All India entrance / state- level entrance/ university entrance/ 12th standard mark sheet / others:

(Instruction: The basis/criterion for student intake has to be listed here.)

I.13 Total number of engineering students:

CFY CFYm1 CFYm2 CFYm3 2012-13 2011-12 2010-11 2009-10 Total no. of 2868 2636 2398 2142 boys Total no. of 708 583 500 457 girls Total no. of 3576 3219 2898 2599 students Total number of other students, if any

(Instruction: Total number of engineering students, both boys and girls, has to be listed here. The data may be categorised in a tabular form under graduate or post graduate engineering, or other programme, if applicable.) I.14 Total number of employees : (Instruction: Total number of employees, both men and women, has to be listed here. The data may be categorised in a tabular form as teaching and supporting staff.) Minimum and maximum number of staff on roll in the engineering institution, during the CAY and the previous CAYs (1st July to 30th June):

14 Conti...

EE/VNIT/Nov 13 Page 12 of 218

A. Regular Staff (Instruction: Staff strength, both teaching and non-teaching, over the last three academic years has to be listed here.)

Items GENDER CAY CAYm1 CAYm2 CAYm3

Min Max Min Max Min Max Min Max

Teaching M 131 122 123 119 staff in engineering F 23 20 20 19 Teaching M 24 15 17 16 staff in sciences & F 7 7 7 7 humanities Physical Edu. Non teaching M 9 10 10 12 staff F 3 3 3 3

B. Contract Staff

Items GENDER CAY CAYm1 CAYm2 CAYm3

Max Min Max Min Max Min Max

Teaching M 00 01 00 00 02 00 00 staff in engineering F 00 00 00 00 00 00 00 00

Teaching M 00 01 00 00 00 00 00 00 staff in sciences & F 00 00 00 00 00 00 00 00 humanities Non M 00 73 00 75 00 77 00 76 teaching staff F 00 19 00 19 00 19 00 19

EE/VNIT/Nov 13 Page 13 of 218

A-2 Departmental Information

II. Departmental Information

II.1. Name and address of the department:

Electrical Engineering Department Visvesvaraya National Institute of Technology, Nagpur South Ambazari Road, Nagpur, Maharashtra - 440010

II.2. Name, designation, telephone number, and e-mail address of the contact person for the NBA: Dr. M. V. Aware Professor Telephone No. 0712-2801349, 09373225111 [email protected] , [email protected] Dr. B. S. Umre Associate Professor Telephone No. 07122801122, 9423102827 [email protected] , [email protected]

II.3. History of the department including date of introduction and number of seats of various programmes of study along with the NBA accreditation, if any:

Programme Description ......

UG in Started with 60 seats in 1960 Electrical and Intake increased to 92 in 2010 Electronics Engineering

UG in Electrical and Electronics Engineering ...... 1. Integrated Power Systems (IPS) (Since 1968) PG in 2. Power Electronics and Drives (PED)(Since 2010)

II.4. Mission and Vision of the Department

VISION: The Department of Electrical Engineering will provide programs of the highest quality to produce world class engineers who can address challenges of the millennium. It commits itself to impart the skills, knowledge and attitudes to create, interpret, apply and disseminate engineering to build better future for humankind. This department will endeavour to strengthen the state-of-art research environment to provide solutions to relevant engineering problems.

EE/VNIT/Nov 13 Page 14 of 218

II.4 Conti... MISSION: The mission of the Electrical Engineering Department is 1. To create the environment that facilitates learning the fundamentals of Electrical Engineering. 2. To impart the knowledge in Electrical Circuits, Power Systems, Electrical Machines, Power Electronics, Electrical Drives and Non-conventional Energy Systems. 3. To provide premier education through dedicated teaching, innovation and research. 4. To cater to practical issues by adapting to technical, economical and social trends. 5. To prepare students to face challenges in the global environment.

II.5. List of the programmes/ departments which share human resources and/or the facilities of this department/programme (in %):

Sl No Name of the Human Facilities Programme resource Share (Laboratory/Library/Internet) in % share in %

1. UG 60 70

2. PG 20 15 (PED)

II.6. Total number of students: 2012-13 UG: 296 (including DASA/ICCR), PG: 50 (IPS), 50 (PED)

II.7. Minimum and maximum number of staff on roll during the current and three previous academic years (1st July to 30th June) in the department:

Items CAY CAYm1 CAYm2 CAYm3 Min. Max Min. Max. Min. Max. Min. Max. Teaching staff in the 20 20 19 19 18 18 19 19 department Non-teaching staff 9 9 9 9 9 9 10 10 Total 29 29 28 28 27 27 29 29

Note: vacant faculty positions to the extent of short fall shall be filled in near future.

EE/VNIT/Nov 13 Page 15 of 218

II.7.1 . Summary of budget for the CFY and the actual expenditure incurred in the CFYm1, CFYm2and CFYm3 (for the Department): Items

in In In In in INR in in INR in in INR in INR in in INR in INR in in INR in INR in 2011-2012 2011-2012 2010-2011 2009-2010 in 2012-13 in 2010-2011 2009-2010 Budgetedin Budgetedin Budgetedin Actual expensesActual Actual Expenses Actual Expenses Actual Expenses Budgeted Budgeted in 2012-13 Laboratory 50 ,00,000 29 ,59 ,363 25 ,00,000 19 ,72 ,819 15 ,00,000 13 ,08 ,258 19,26,000 18 ,34 ,388 equipment

Software 2,62 ,250 - 27 ,181 24 ,300

Laboratory 3,00,000 1,27 ,520 3,00,000 2,21 ,157 2,00,000 67 ,161 4,74,000 80 ,870 consumable Maintenance 44,591 32,954 21,856 77,326 and spares Training and 65,222 57,826 5,689 36,129 Travel Miscellaneous 1,39 ,334 2,72 ,128 1,15 ,878 47 ,001 expenses for academic activities Total 53,00,000 35,98,280 28,00,000 25,56,884 17,00,000 15,46,023 24,00,000 21,00,014

* The amounts shown under expenditure do not include many items of routine expenses met from Centralised Institutional Source 'such as AMC/Computer Consumables and student related travel expenditure which, however, are aggregated in The Institutional Income Expenditure statement in Part I - item I-10.

EE/VNIT/Nov 13 Page 16 of 218

A-3 Programme Specific Information III. Programme Specific information

III.1. Name of the Programme: Integrated Power Systems

III.2. Title of the Degree: Master of Technology ( Integrated Power Syste ms)

III.3 . Name, designation, telephone number, and e-mail address of the Programme coordinator for the NBA: Dr. M. V. Aware Professor and Head Telephone No. 07122801349, 9373225111 [email protected] Dr. B. S. Umre Associate Professor Telephone No. 07122801122, 9423102827 [email protected] , [email protected]

III.4. History of the programme along with the NBA accreditation, if any:

Programme Description PG in Started in 1968 with intake of 18 Integrated Power Systems seats (including QIP of MHRD) Intake increased to 25 in 2013 Accredited in 2009 (3 Years)

III.5. Deficiencies, weaknesses/concerns from previous accreditations: 1. GoI has not yet (even after 6 years) approved statutes for VNIT. 2. There are no hostels for MTech and PhD male students. 3. Only 50% of the faculty has PhD degrees. 4. Although faculty is encouraged to register for PhD, the registration being largely in VNIT, it will lead to inbreeding of faculty. Also, the number of PG and research students is rather small. 5. Only senior faculty is involved in research and publishes reasonably good papers. Overall no of PhDs produced and no of publications are not good enough for an NIT.

III.6. Total number of students in the programme: 50

III.7 . Minimum and maximum number of staff for the current and three previous academic years (1st July to 30th June) in the programme:

Items CAY CAYm1 CAYm2 CAYm3 Min. Max. Min. Max. Min. Max. Min. Max. Teaching staff in the department * 5 7 5 7 5 7 7 7 Non-teaching staff * 4 4 4 4 4 4 4 4

Note: * Indicates shared staff with UG

EE/VNIT/Nov 13 Page 17 of 218

III.8. Summary of budget for the CFY and the actual expenditure incurred in the CFYm1, CFYm2 and CFYm3 (exclusively for this programme in the department):

Items

inINR inINR inINR inINR inINR inINR inINR inINR 2011-2012 2011-2012 2010-2011 2009-2010 2012-2013 2012-2013 2012-2013 2012-2013 2011-2012 2010-2011 2009-2010 Budgeted in in Budgeted in Budgeted in Budgeted in Budgeted Actual expenses in inexpenses Actual Actual Expenses in Expenses Actual in Expenses Actual in Expenses Actual

Laboratory equipment 5,00,000 4,78,844 4,00,000 4,03,740 3,00,000 2,60,962 4,00,000 3,61,481

Software 2,62,250 - 27,181 24,300

Laboratory 1,00,000 31,880 150,000 55,289 60,000 16,790 65,000 20,217 consumable Maintenance and 11,147 8,238 5,464 19,331 spares Travel 16,305 14,456 1,422 9,032

Miscellaneous 34,833 68,032 28,969 11,750 expenses for academic activities* Total 6,00,000 8,35,259 5,50,000 5,49,755 3,60,000 3,40,788 4,65,000 4,46,111

*Program specific library resources and software are purchased through centralized funding.

EE/VNIT/Nov 13 Page 18 of 218

B-1 Vision, Mission and Programme Educational Objectives

PART B 1. Vision, Mission and Programme Educational Objectives (75)

1.1. Vision and Mission (5) 1.1.1. State the Vision and Mission of the institute and department (1) Vision and Mission of the institute: Vision To contribute effectively to the national endeavour of producing quality human resource of world class standard by developing a sustainable technical education system to meet the changing technological needs of the country, incorporating relevant social concerns and to build an environment to create and propagate innovative technologies for the economic development of the nation. Mission The Mission of VNIT is to achieve high standards of excellence in generating and propagating knowledge in engineering and allied disciplines. V.N.I.T. is committed to providing an education that combines rigorous academics with joy of discovery. The Institute encourages its community to engage in a dialogue with society to be able to effectively contribute for the betterment of humankind. Vision and Mission of the department: VISION: The post graduate program in Integrated Power Systems aims at further enhancing the knowledge and skills of the graduates. This program will mould the graduates into excellent researchers, academicians and entrepreneurs in the field of power systems. MISSION: The mission of the post graduate program in Integrated Power Systems is 1. To provide students with a supportive environment that facilitates learning the advances in power systems. 2. To impart the state-of-the-art knowledge in the relevant field of Power Systems. 3. To provide excellence in learning through dedicated teaching, innovation and research. 4. To imbibe self learning attitudes and professional ethics. 5. To prepare students to face the challenges in the area of power systems.

1.1.2. Indicate how and where the Vision and Mission are published and disseminated (2) The display of vision and mission are at following locations through the banners, display boards. 1. Head of the Department’s Office 2. Departmental corridor 3. Departmental Brochure 4. Institute website/Departmental web site 1.1.3. Mention the process for defining Vision and Mission of the department (2)

EE/VNIT/Nov 13 Page 19 of 218

The vision and mission of the “Electrical Engineering Department” are in line with the institute vision and mission. These were defined keeping in view the priorities of the MHRD. These points were discussed in the departmental meetings and vision and mission statement is finalised.

1.2. Programme Educational Objectives (10) 1.2.1. Describe the Programme Educational Objectives (PEOs) (1) The main objectives of IPS-PG program are 1. To develop specialised manpower for electrical power and energy industry. 2. To enhance analytical skills so as to enable to solve complex industrial problems. 3. To augment the students’ capacity in pursuing research in emerging areas of power system. 4. To improve students’ perspective towards environmental issues by sensitising and building the awareness of green technologies. 5. To inculcate the culture of research oriented projects with state-of-art facility laboratories in power system.

1.2.2. State how and where the PEOs are published and disseminated (1) The display of PEOs is at following locations; 1. Departmental Brochure 2. Institute website/Departmental web site

1.2.3. List the stakeholders of the programme (1) Major stakeholders of this programme are: 1. Society 2. Academia 3. Power utilities 4. Research Organisations such as: CSIR, BARC, CPRI, BHEL R&D, ERDA, GE , etc. 5. Industries such as: BHEL, ONGC, NTPC, IOCL, etc.

1.2.4. State the process for establishing the PEOs (3) 1. Monthly departmental meeting 2. Mentor meeting for quality improvement 3. Participation of student committee and their feedback 4. Peer review of the departmental academic activity

1.2.5. Establish consistency of the PEOs with the Mission of the institute (4)

PEOs Mission 1. Advances 2. Relevant field of 3. Teaching, 4. Attitudes 5. Challenges in in power power systems innovation and the area of systems. and research professional power ethics systems 1. × × × 2. × × × × 3. × × × 4. × × × 5. × × × ×

EE/VNIT/Nov 13 Page 20 of 218

The departmental mission is consistently followed by reviewing objectives and deliverables through departmental meeting, mentor’s suggestion, student feedback.

1.3. Achievement of Programme Educational Objectives (20) 1.3.1. Justify the academic factors involved in achievement of the PEOs (10)

The broad curriculum is based on making students understand power system operation, its analysis, control and management. This is further more integrated with relevant practical sessions, experts/guests seminars, projects, and industrial visits. The industry institute interaction helps to build students confidence in their problem solving abilities.

1.3.2. Explain how the administrative system helps in ensuring the achievement of the PEOs (10)

The curriculum improvement, modifications and additions are governed by Board of Studies (BOS) and executed through senate on a continuous basis through feedback from the stakeholders and changing societal needs. This is feasible because our institute is autonomous. The BOS is held once in a semester and all the faculty members are contributing in the curriculum development along with the experts from the IIT/NIT/Industry/Research Institutes. The student class committee meets twice in each semester and their views are incorporated in order to improve the curriculum. The scheme of examination and award of the degree is followed as per the rules set by the Dean (Academics) and approved by senate.

1.4. Assessment of the achievement of the Programme Educational Objectives (35)

1.4.1. Indicate tools and processes used in assessment of the achievement of the PEOs (5)

(a) The feedback from Training and Placement (b) The feedback from student class committees (c) A mentor committee having industrial experts suggests areas of skills and knowledge to be improved upon, by the students in the context of changing situation. (d) The continuous academic quality assessment is carried out through a peer (external) review process once in a year.

1.4.2. Provide the evidence for the achievement of the PEOs (30) Evidence collection process consists of feedback from Alumni at the time of annual alumni meet as well as feedback from industry representative at the time of placement interviews. It is proposed to finalise the format for alumni survey and employer survey.

1.5. Indicate how the PEOs have been redefined in the past (5) There were no formal processes for PEOs. However these were assessed on the basis of performance of past three pass out batches and feedback given by stakeholders.

EE/VNIT/Nov 13 Page 21 of 218

B-2 Programme Outcomes 2. Programme Outcomes (250)

2.1. Definition and Validation of Course Outcomes and Programme Outcomes (20)

2.1.1. List the Course Outcomes (COs) and Programme Outcomes (POs) (1)

The course outcomes of M. Tech. program in (Integrated Power Systems) are given in Annexure II . The program outcomes are as follows:- Students are able to-

a. Work in power industry which is involved with the aspects of generation, transmission, and distribution. b. Shoulder responsibilities in planning and utilization of electrical energy. c. Design of electrical systems. d. Analyze and model the complex electrical systems. e. Expose to the recent state-of-art in electrical engineering. f. Contribute in academics. g. Undertake research in emerging areas of power systems. h. Use recent soft tools in analysis of power system problems. i. Deploy knowledge and skills in inter-disciplinary areas. j. Understand the importance of financial aspects in power system infrastructure development. k. Appreciate the impact of industrial activities on global warming and finding the sustainable technical solutions.

2.1.2. State how and where the POs are published and disseminated (1)

Departmental syllabus booklet, departmental information brochure, website

2.1.3. Indicate processes employed for defining the POs (3)

The curriculum improvement, modifications and additions are governed by BOS and executed through Senate on a continuous basis, ours being an autonomous institute. The mentor committee consists of experts from IIT/NIT/Industry/Research Institute who meet on a regular basis. The BOS is held once in a semester and all the faculty members are contributing in the curriculum development. The student committee meets twice in each semester and their views are incorporated in order to improve the curriculum. The scheme of examination and award of the degree is followed as per the rules set by the senate.

EE/VNIT/Nov 13 Page 22 of 218

2.1.4. Indicate how the defined POs are aligned to Graduate Attributes prescribed by the NBA (7)

Graduate a b c d e f g h i j k Attributes\POs × × × × × × × × × × 1. Scholarship of Knowledge 2. Critical Thinking × × × × × × × × × ×

3. Problem Solving × × × × × × × × × × ×

4. Research Skill × × × × × × × ×

5. Usage of modern × × × × × × × × × × × tools

6. Collaborative and × × × × × × × × × × Multidisciplinary work

7. Project × × × × × × × Management and Finance

8. Communication × × × × × × × × × ×

9. Life-long Learning × × × × × × × ×

10. Ethical Practices × × × × × × × × and Social Responsibility

11. Independent and × × × × × × × Reflective Learning

2.1.5. Establish the correlation between the POs and the PEOs (8)

PEOs a b c d e f g h i j k POs 1 × × × × × × × × × × × 2 × × × × × × × × 3 × × × × × × × × ×

EE/VNIT/Nov 13 Page 23 of 218

4 × × × × × × × × × 5 × × × × × × × 2.2. Attainment of Programme Outcomes (75) 2.2.1. Illustrate how the course outcomes contribute to the POs (5) Each course outcomes for M.Tech Integrated Power Systems is listed as under and also mapped with departmental PEOs. Complete syllabus structure is presented in Section 3.1. It is indicated below, how the course outcomes (COs) contribute to programme outcomes (POs). Sample mappings are presented here and complete mapping between COs and POs are given in Annexure I. Semester I Core Subjects: 1. Course Name: EEL501-POWER SYSTEM ANALYSIS Course Outcomes Should be able to i. Calculate steady state voltages and bus angles given the load and generation using Load flow Calculation methods i.e. GSLF, NRLF, FDLF ii. Analyze and calculate fault currents and post fault voltages for shunt, series and simultaneous faults iii. Carryout contingency analysis and ranking iv. Estimate the state of system (bus voltage magnitudes and angles) based on available measurements and other information

Course POs a b c d e f g h i j k Outcomes × × × × × × i ii × × × × ×

iii × × × × ×

iv × × × × × ×

Semester II Core Subjects: 2. Course Name: EEL411-APPLICATION OF POWER ELECTRONICS TO POWER SYSTEMS Course Outcomes i. Students are able to understand and analyze the operation of various FACTS devices. ii. Model them for overcoming transmission bottle necks and for improvement of power quality. iii. Simulation of different controllers and analyzing the effects they make. iv. For doing project as FACTS controllers using modeling aspects.

EE/VNIT/Nov 13 Page 24 of 218

v. Helps in getting research areas related to FACTS.

2.2 conti..

Course POs a b c d e f g h i j k Outcomes × × × × × × × × i ii × × × × ×

iii × × ×

iv × × ×

v × × ×

Semester III 3. Course Name: EEL505-ARTIFICIAL INTELLIGENCE BASED SYSTEMS Course Outcomes Students are able to: i. Decide use of appropriate soft computing applications to problems in power system. ii. Design and build fuzzy inference systems and ANN based systems. iii. Use genetic algorithm (GA) for solving optimization problems.

Course POs a b c d e f g h i j k Outcomes × × × × × × × i ii × × × × × × ×

iii × × × × × × ×

EE/VNIT/Nov 13 Page 25 of 218

2.2.2. Explain how modes of delivery of courses help in attainment of the POs (5)

Modes of 1. Black / 2. PPT 3. Guest 4. Visit 5.Presentation delivery White Lecture POs Boards

a × × × × × b × × × × c × × × d × × × e × × × × × f × × × g × × × × × h × × × i × × × × j × × k × × ×

2.2.3. Indicate how assessment tools used to assess the impact of delivery of course/course content contribute towards the attainment of course outcomes/programme outcomes (15)

Assessments/POs a b c d e f g h i j k

Assignments × × × × × × ×

Examination × × × × × × ×

Research Paper × × × × × × × ×

Projects × × × × × × × × × × ×

Seminar × × × × × × ×

How the assessment tools are set to assess the impact of delivery of course/course content contribute towards the attainment of course outcomes. Sample mappings are presented below and complete mapping between COs and POs are presented in Annexure II. Semester I [1]. Course Name: EEL409-HVDC Course Outcomes Students are able to i. Understand, analyze and model the HVDC long distance bulk power transmission systems. ii. Simulate converters using MATLAB SIMULINK. iii. Understand necessity of HVDC under deregulated environment. iv. Know different control methods and protective schemes of HVDC systems

EE/VNIT/Nov 13 Page 26 of 218

Assessments/COs i ii iii iv

Assignments × ×

Examination × × × ×

Research Paper × × ×

Projects × × ×

Seminar × ×

Semester II Core Subjects: 1. Course Name: EEL411-APPLICATION OF POWER ELECTRONICS TO POWER SYSTEMS Course Outcomes Students are able to i. Understand transmission bottle necks and the methods to overcome them. ii. Know the method of series and shunt compensation for improvement of power quality. iii. Simulate different FACTS controllers and analyzing their effects. iv. Undertake projects on power quality improvements using FACTS devices.

Assessments/COs i ii iii iv

Assignments × × ×

Examination × × × ×

Research Paper × ×

Projects × ×

Seminar × ×

2.2.4. Indicate the extent to which laboratory and project course work are contributing towards attainment of POs (50) - Projects offered are with latest and new technological development in the area of power system - Projects are based on mathematical modelling through simulation to analyse the operation and performance under various operating condition. - The hardware prototyping through various building blocks are carried out in the respective laboratories for these projects.

EE/VNIT/Nov 13 Page 27 of 218

2.3. Evaluation of the attainment of Programme Outcomes (125) 2.3.1. Describe assessment tools and processes used for assessing the attainment of each PO (25) (a) - Examination- Two sessional examinations per semester are conducted with end semester examination based on complete coverage of syllabus. The average grade of the students in specified core subject is taken as a key performance indicator. - Assignment and quizzes are conducted as a part of continuous assessment. - Seminar and a discussion of a latest and important topic is conducted on a regular interval. - Projects based on software and hardware are offered and assessed by external examiners. - Students are encouraged to appear for IES/CSIR/DRDO examinations for their employment. (b) Assessment is continuous throughout the semester. After every written examination students are shown their valued answer books and discussed with course coordinators. This gives complete transparency in examination. Students are benefited by discussing their answers and perceptions with the faculty members.

2.3.2. Indicate results of evaluation of each PO (100) The program outcomes are as follows:- Students are able to- a. Work in power industry which is involved with the aspects of generation, transmission, and distribution. Reslts of PO (a): Students are working in power industries in good numbers. b. Shoulder responsibilities in planning and utilization of electrical energy. Reslts of PO (b): Students are working at responsible/higher positions in power utility. c. Design of electrical systems. Reslts of PO (c): Many of the students are working as consultants and contributing in electrical industries. d. Analyze and model the complex electrical systems. Reslts of PO (d): Students are persuing higher education as well as working with software industries in electrical engineering domain. e. Expose to the recent state-of-art in electrical engineering. Reslts of PO (e): Students are also working in R & D areas in reputed industries. f. Contribute in academics. Reslts of PO (f): Many of the students are working as faculties in various premier educational institutes. g. Undertake research in emerging areas of power systems. Reslts of PO (g): Subtantial numbers of our alumini are working in India and abroad in emerging research areas. h. Use recent soft tools in analysis of power system problems. Reslts of PO (h): Students are exposed to much recent software related to power system design and analysis. i. Deploy knowledge and skills in inter-disciplinary areas. Reslts of PO (i): Many inter-disciplinary subjects are offered to the students to enhance the knowledge and skills. j. Understand the importance of financial aspects in power system infrastructure development. Reslts of PO (j): Many students have developed their enterprises to support power system EE/VNIT/Nov 13 Page 28 of 218

infrastructure. k. Appreciate the impact of industrial activities on global warming and finding the sustainable technical solutions. 2.3.2 Conti.. Reslts of PO (k): Students are sensitized towards the global warming and challenges of sustainable development. 2.4. Use of evaluation results towards improvement of the programme (30) 2.4.1. Indicate how the results of evaluation used for curricular improvement (5) Each subject is assessed with the performance of the students including those failed. Any deficiency on account of content/teaching in the subject is modified in BOS meeting with the help of student class committee meeting and their feedback. 2.4.2. Indicate how results of evaluation used for improvement of course delivery and assessment (10) The course evaluation and deliverable skills of the teacher are assessed by the students in each semester. This feedback is compiled by the committee and its outcome is intimated to concern teacher. 2.4.3. State the process used for revising/redefining the POs (15)

All the feedbacks are provided with student feedback is collected by the department so as to improve upon the process of teaching/ learning. The suggested correction/modification in the syllabus of various subjects is taken up the in BOS for discussions. Any corrections/alleviation/modifications approved by the BOS are implemented from the ensuing sessions. Experienced Engineers from Industry and senior faculty members from IITs and similar national institutes and research industries are invited to work on the BOS, thus contributing their expertise and knowledge.

EE/VNIT/Nov 13 Page 29 of 218

B-3 Programme Curriculum 3. Programme Curriculum (75)

3.1. Curriculum (15) 3.1.1. Describe the Structure of the Curriculum (5) (Integrated Power Systems) Credit requirements: Category Credits Departmental 70 Core(DC) Departmental 34 Elective(DE) Total 104

I Semester Code Course L-T-P Credits Core EEL501 Power System 3-0-0 6 Analysis EEL502 Power System 3-0-0 6 Dynamics I EEL504 Digital Protection of 3-0-0 6 Power System Elective EEL409 HVDC 3-0-0 6 EEL410 Advanced Control 3-0-0 6 Theory EEL421 Power Quality 3-0-0 6 Practical EEP501 Power System 0-0-2 2 Analysis Lab EEP504 Protection Lab 0-0-2 2

II Semester Code Course L-T-P Credits Core EEL411 Application of PE to 3-0-0 6 PS EEL414 µP Application to 3-0-0 6 PE/PS EEL503 Power System 3-0-0 6 Management EEL507 Power System 3-0-0 6 Dynamics II Elective EEL408 Advanced Power 3-0-0 6 EE/VNIT/Nov 13 Page 30 of 218

Electronics EEL413 Advanced Electric 3-0-0 6 Drives & Control EEL506 Special Topics in PS 3-0-0 6

Practical EEP499 Power Electronics 0-0-2 2 Lab EEP413 Advanced Electric 0-0-2 2 Drives Lab

EEP502 Power System 0-0-2 2 Dynamics Lab

III Semester Code Course L-T-P Credits Core EED501 Project Phase-II --- 6 Elective EEL407 Electrical Power 3-0-0 6 Distribution System EEL417 Energy Conservation 3-0-0 6 & Audit EEL505 AI Based Systems 3-0-0 6

IV Semester Code Course L-T-P Credits Core EED502 Project Phase -II --- 18

Curricular Composition Credits Theory Courses Core : 70 Elective: 34 Laboratory Courses 10 Seminars Project works 24

EE/VNIT/Nov 13 Page 31 of 218

3.1.2 . Justify how the curricular structure helps for the attainment of the POs and PEOs (10)

Subjects\POs a b c d e f g h i j k

Core

EEL501 × × × × × × × Power System Analysis EEL502 × × × × × × × × Power System Dynamics I EEL504 × × × × × × × × Digital Protection of Power System Elective

EEL409 × × × × × × × × × × HVDC EEL421 × × × × × × × Power Quality EEL410 × × × × × × Advanced Control theory Core

EEL507 × × × × × × × × Power System Dynamics II EEL414 × × × × × µP Application to PE/PS EEL503 × × × × × × × Power System Management EEL411 × × × × × × × × × × × Application of PE to PS Elective

EEL413 × × × × × × × × × Advanced Electric Drives & Control EEL506 × × × × × × × Special Topics in PS EEL408 × × × × × × × × Advanced Power Electronics Core

EED501 × × × × × × × Project Phase-II Elective

EE/VNIT/Nov 13 Page 32 of 218

EEL505 × × × × × × × AI Based Systems EEL417 × × × × × × × Energy Conservation & Audit EEL407 × × × × × × × × × × Electrical Power Distribution System EED502 × × × × × × Project Phase-II EEP504 Digital Protection × × × × × × of Power System Lab EEP501 Power System × × × × × × × Analysis Lab EEP499 Power Electronics × × × × × Lab × × × × × EEP502 Power System Dynamics Lab EEP413 Advanced Electric × × × × Drives Lab Guest/Expert Lecture × × × × × ×

Industrial Visit × × × × ×

Participation in internal and × × × × × external events Participation in National × × × × × and International Conferences

Subjects\PEOs 1 2 3 4 5

Core

EEL504 × × × × Digital Protection of Power System EEL502 × × × × Power System Dynamics I EEL501 × × × × Power System Analysis Elective

EEL409 × × × × × HVDC EEL421 × × × × Power Quality

EE/VNIT/Nov 13 Page 33 of 218

EEL410 × × × Advanced Control theory Core

EEL507 × × × × Power System Dynamics II EEL414 × × × × µP Application to PE/PS EEL503 × × × Power System Management EEL411 × × × × × Application of PE to PS Elective

EEL413 × Advanced Electric Drives & Control EEL506 × × × × Special Topics in PS EEL408 × × × × × Advanced Power Electronics Core

EED501 Project Phase-II Elective

EEL505 × × × AI Based Systems EEL417 × × × × Energy Conservation & Audit EEL407 × × × × Electrical Power Distribution System EED502 Project Phase-II EEP504 Protection Lab × × × ×

EEP501 Power System Analysis × × × × Lab EEP499 Power Electronics Lab × × × × ×

× × × × EEP502 Power System Dynamics Lab EEP413 Advanced Electric × × Drives Lab Guest/Expert Lecture × × × ×

EE/VNIT/Nov 13 Page 34 of 218

Industrial Visit × × × ×

Participation in internal and × × × × external events Participation in National and × × × × International Conferences

3.2. Indicate interaction with R&D organisations / Industry (40)

1. Prof. H. M. Suryawanshi MoA was signed on 23 rd April, 2007 between H. M. Suryawanshi (VNIT, Nagpur) and NaMPETs under C-DAC (T) for the project Design and Development of multilevel converter for industrial drives (2007-2009). The project was successfully completed and the technology transferred to NaMPETs. 2. Prof. M. V. Aware Name of the organization: BARC, Mumbai. The project title “Analogue Fractional order PID” was developed and technology has been transferred to BARC, Mumbai (2009-11). Interaction with Industry: Name of the Industry: 1. Victrance Engineers, MIDC, Hingna, Nagpur (Transformer Design) 2. SPANCO, Nagpur (Analysis of Transformer failures). 3.3. Curriculum Development (15)

3.3.1. State the process for designing the programme curriculum (5) The broad curriculum is based on making students understand power system operation, its analysis, control and management. This is further more integrated with relevant practical sessions, experts/guests seminars, projects, and industrial visits. The industry institute interaction helps to incorporate the relevant technology in curriculum. 3.3.2. Illustrate the measures and processes used to improve courses and curriculum (10) The curriculum improvement, modifications and additions are governed by BOS and executed through Senate on a continuous basis, ours being an autonomous Institute. The mentor committee consists of experts from an IIT/NIT/Industry/Research Institute. The BOS is held bimonthly and all the faculty members are contributing in the curriculum development. It also meets with external experts from academic / industry at least once in a year. The student committee meets every semester and their views are incorporated in order to improve the curriculum. The scheme of examination and award of the degree is followed as per the rules set by the senate. 3.4. Course Syllabi (5) Complete syllabus is given in Annexure III.

EE/VNIT/Nov 13 Page 35 of 218

B-4 Students’ Performance Students’ Performance (100)

4.1. Admission intake in the programme (15)

YEAR Sanctioned Number of Percentage Number of Percentage of Strength of Students of seats Students Students with the Admitted filled Admitted with Valid GATE Programme Valid GATE Score/PG Score/PG entrance of entrance of State State CAY 20 20 100 20 100 CAYm1 20 20 100 20 100 CAYm2 20 17 85 17 100 CAYm3 18 13 72.22 13 100

Average percentage of seats filled through approved procedure = 89.305 Average percentage of students admitted with valid GATE Score /PG entrance of state = 100

YEAR Number of Students API = Academic Admitted Performance Index = Average CGPA or Average Marks on a Scale of 10 (Compiled from the Graduation Records) CAY (12 -13) 20 7.16 CAYm1(11-12) 21 6.75 CAYm2(10-11) 17 7.49 CAYm3(9 -10) 14 6.65 Average API = 7.012

4.1.1 Number of seats filled through the admission procedure approved by the University (5)

Assessment will be based on average percentage of seats filled through approved procedure and points awarded to be proportionate accordingly. Assessment = 4.47

4.1.2 Quality of students as judged from their complete graduation records (5) Assessment = 1.5×Average API=10.52

4.1.3 Number of students admitted having a valid GATE score/PG entrance of state (5)

Assessment = 10* (Average percentage of students admitted with valid GATE score/PG entrance of state)

EE/VNIT/Nov 13 Page 36 of 218

= 10*100% =10

4.2. Success Rate (20) Provide data for the past three batches of students

GI =Graduation index = (number of students graduated from the programmed)/(number of students joined the programmed) Year Number Of Number Of Gi Students Graduated Students Joined The Form The Programme Programme LYG (11-13) 17 21 0.809 LYGm1 (10-12) 10 15 0.666 LYGm2 (09-11) 13 14 0.928 Average GI=0.801

Assessment = 20*average GI =16.02

4.3 Academic Performance (20) API = Academic Performance Index = Average CGPA or Average Marks On A Scale Of 10

YEAR Number of students in the API batch LYG 17 7.46 LYGm1 10 8.43 LYGm2 13 7.66 Average API = 7.85

Assessment =2*average API =15.7

4.4. Placement and Higher Studies (20)

Assessment Points = 20 × (x + 3y)/N

where, x = Number of students placed

y =Number of students admitted for higher studies with valid

qualifying scores/ranks, and

N =Total number of students who were admitted in the batch maximum assessment points = 20.

EE/VNIT/Nov 13 Page 37 of 218

4.4 Conti.. Item LYG LYGm1 LYGm2 Number of admitted students corresponding to LYG ( N) 18 10 13 Number of students who obtained jobs as per the record in the 08 03 06 industry/academia Number of students who opted for higher studies with valid 01 01 02 qualifying scores/ranks ( y) Assessment points 12.2 12 18.4

Average assessment points = 14.2

4.5. Professional Activities (25) 4.5.1. Membership in Professional Societies / Chapters and organising engineering events (5) • IEEE Student chapters • AXIS

4.5.2. Participation and their outcomes in international/national events (5) Paper publications.

4.5.3. Publication and awards in international/national events (10)

1. B. S. Gajbhiye and M. V. Aware, “ Single-to-three phase matrix converter for traction drives” IEEE Conf. IICPE 2012, pp 1-6. 2. Jaya Agrawal and M. V. Aware, “Photovolatic system emulator” IEEE PEDS 2012, New Delhi, 2012, pp 1-6. 3. Jayant Mane, S. Muley and M. V. Aware, “Performance of 5-level NPC inverter with multi-carrier multi-modulation technique” IEEE PEDES 2012. 4. Jaya Agrawal and M. V. Aware, “Golden section search (GSS) algorithm for maximum power point tracking in photovoltaic system”, IEEE Conf. IICPE 2012, pp 1-6. 5. Prafulal Nandankar and M. V. Aware, “High efficiency discontinuous mode interleaved multiphase bidirectional dc-dc converter” IEEE Conf. PEDES 2012, pp 1-6. 6. Jayant Mane, and M. V. Aware, “A comparative study of different multi-level inverters under different modulation strategies” NaMPET 2011, Kolkatta, India. 7. Jaya Agrawal and M. V. Aware, “Algorithm for PV system performance evaluator” RTIEE 2012, SVNIT, Surat, India. 8. Jaya Agrawal and M. V. Aware, “Modelling and simulation of a grid connected solar power system with new MPPT algorithm” RTIEE 2012, SVNIT, Surat, India. 9. Sonali Renkey, B. S. Umre, J. B. Helonde, J. P. Modak, . “ Application of Gate- Controlled Series Capacitors (GCSC ) for reducing stresses due to Sub - Synchronous resonance in Turbine -Generator shaft”. International conference

EE/VNIT/Nov 13 Page 38 of 218

2010 Sept Energy Conversion Congress and Exposition 2010 (ECCE 2010) at Hilton Hotel, Atlanta Georgia USA 10. R. J. Satputaley, Bharath. K, “Single phase asymmetrical cascaded multilevel inverter design for induction motor”. International Conference 2013 ASAR Bangalore Chapter- 2013, 11. Arun Tez and Ishwari Prasad Sahu, S. R. Bhide, “A Comprehensive Analysis of Algorithms for Digital Methods of Power System Frequency Measurement”, (20 11-12) ,GITAM University , Visakhapatanam, 12. D. Shankar, A. S. Werulkar, P. S. Kulkarni, “ Simulation of soft switching boost converter with MPPTfor solar home lighting system”, All India Seminar on clean energy & Energy convertion 2012, A3-14 Oct. 2012. 13. , V. B. Borghate, Bharath. K, M. A. Chaudhari, R. J. Satpulay “ Third harmonic injection for dynamic voltage restorer with repitative controller”, , International Journal of Electrical, Electronicsand Data Communication, ISSN 2320-2084, Vol. 1 Isssue-3. 14. Ashish Doorwar, M. S. Ballal, H. M. Suryawanshi , “Review of various condition Monitoring Technique for Transfomers in Renewable Energy Power Plants,” All India Seminar on clean energy & Energy convertion 2012, A3-14 Oct. 2012. 15. A. S. Werulkar, P. S. Kulkarni and A. Sahusakde‘Simulation and Energy Balance study of Solar Home Lighting System’ All India Seminar on Power System : Control, Operation & Maintenance, I.E.(I), Chandrapur,4-5 Dec. 2010, pp. 83-88. 16. A.S.Werulkar, S.K.Ksheersagar, P.S.Kulkarni, “Design of Solar powered Reverse Osmosis Water purification System for Rural Area”, ENERSTATE 2010,An International Conference on “Clean Energy Technology and Energy Efficiency for Sustainable Development”organized by Uttarakhand Technical University,Dehradun,Hartcourt Butler Technological Institute,Kanpur,Shivalik College of Engineering,Dehradun, held in Dehradun during December 27-30, 2010 17. A.S.Werulkar, P.S.Kulkarni, A.Sahusakde,” Energy Analysis of Solar Home Lighting System”, IIES 2011, 1st India International Energy Summit conducted on January 28-31,2011 in VNIT, Nagpur, pp 64-81 18. S.K.Ksheersagar,A.S.Werulkar,P.S.Kulkarni,” Study of design of single phase inverter for solar home lighting system”, IIES 2011, 1st India International Energy Summit conducted on January 28-31,2011 in VNIT, Nagpur, pp 11-24 19. Prashant Shukla, S. Pattnaik, “Simulink Model of PV Module and Implementation of MPPT Algorithm for a Single Phase Grid Connected PV Systems” National Conference on Recent Trends in Energy System, NCRTES 2013, 5 & 6 April. 20. P. Naresh, S. Pattnaik, “Design and analysis of multilevel inverters with reduced number of switches” International Conference on Advances in Electrical, Electronics, Mechanical and Computer Science (ICAEEMCS), 21st April 2013

4.5.4. Entrepreneurship initiatives and innovations (5) • Hardware projects with few innovative ideas are implemented.

EE/VNIT/Nov 13 Page 39 of 218

B-5 Faculty Contributions

5. Faculty Contributions (200)

List of Faculty Members: Exclusively for the Programme / Shared with other Programmes is given in Annexure IV.

5.1. StudentTeacher Ratio (STR) (20)

U1 = Number of Students in UG 2 nd Year U2 = Number of Students in UG 3 rd Year U3 = Number of Students in UG 4 th Year P1 = Number of Students in PG 1 st Year nd P2 = Number of Students in PG 2 Year N1 = Total Number of Faculty Members in the Parent Department

S=Number of Students in the Parent Department = U1 + U2 + U3 + P1 +P2 Student Teacher Ratio (STR) = S / N1 Assessment = [20 x 13 /STR], subject to maximum of 20.

Year U1 U2 U3 P1 P2 S F (N1) STR Assessment CAY 2012-2013 94 99 99 20 20 332 18 18.44 14.09 CAYm1 2011-2012 94 94 99 20 20 327 16 20.43 12.72 CAYm2 2010-2011 92 82 71 20 18 283 16 17.68 14.69 CAYm3 2009-2010 82 71 60 18 15 246 17 14.47 17.96

Average Assessment = 14.86 5.2. Faculty strength in PG programme (20)

X = Number of faculty members with Ph.D available for PG Programme Y = Number of faculty members with Ph.D. / M.Tech. / M.E available for PG Programme Assessment will be done on the basis of the number of faculty members with Ph.D./M.Tech./M.E., available for the PG programme. [Minimum number suggested: 4] X Y Assessment CAY 2012-2013 4 7 11.42 CAY m1 2011-2012 5 7 14.28 CAY m2 2010-2011 5 7 14.28

Assessment = 20 x [X/Y] Average Assessment = 13.32

EE/VNIT/Nov 13 Page 40 of 218

5.3. Faculty Qualifications (30)

Assessment = 4 × FQI where, FQI = Faculty qualification index = (10 x + 6 y + 4 z0)/ N2 such that, x + y +z0 ≤ N2; and z0 ≤ z where, x = Number of faculty members with PhD y = Number of faculty members with ME/ M Tech z = Number of faculty members with BE / BTech / MSc.

x y z N FQI Assessment

CAY m2 2010-2011 13 3 0 16 9.25 37

CAY m1 2011-2012 13 3 0 16 9.25 37

CAY 2012-2013 15 3 0 18 9.33 37.32

Average assessment 37.1

5.4. Faculty Competencies correlation to Programme Curriculum (15) Biography of faculty’s correlation to programme curriculum are presented in Annexure V.

EE/VNIT/Nov 13 Page 41 of 218

5.5. Faculty as participants/resource persons in faculty development / training activities (15) Participant/resource person in two week faculty development programme: 5 points Participant/resource person in one week faculty development programme: 3 Points

(max. 5 per faculty) Name of the faculty CAY m2 CAY m1 CAY 2010-11 2011-12 2012-13

Prof. M. V. Aware 5 5 5 Prof. H. M. Suryawanshi 5 5 5 Prof .S. R. Bhide 0 0 0 Prof. B. S.Umre 0 3 3 Prof. V. B. Borghate 3 3 0 Prof. A. S. Junghare 0 5 5 Prof. P. S. Kulkarni 3 3 5 Prof. M. R. Ramteke 0 3 3 Prof.M. A. Chaudhari 5 5 3 Prof. S. S. Bhat 0 0 3 Prof.V. S. Kale 0 3 3 Prof. M. S. Ballal 3 3 5 Prof. S. Pattnaik 0 3 5 Prof. N. R. Patne 0 0 3 Prof. R. J. Satputaley 3 5 3 Prof. A. Dhabale 0 0 0 Prof. S. R. Tambay 0 0 0

Sum 26 44 51 N (Number of faculty positions required for an STR 19 22 22 of 15)

Assessment = 3 × Sum/ N 4.1 6 6.9

Average assessment 5.66

EE/VNIT/Nov 13 Page 42 of 218

5.6. Faculty Retention (15)

Assessment = 3 × RPI/ N Retention point where RPI = index = Points assigned to all faculty members

Where points assigned to a faculty member = 1 point for each year of experience at the institute but not exceeding 5. Item CAY m2 CAY m1 CAY Number of faculty members with experience of less than l year ( x0) 0 0 1 Number of faculty members with 1 to 2 years experience (x 1) 0 0 1 Number of faculty members with 2 to 3 years experience (x 2) 0 0 0 Number of faculty members with 3 to 4 years experience (x 3) 0 0 0 Number of faculty members with 4 to 5 years experience (x 4) 0 0 0 Number of faculty members with more than 5 years experience ( x5) 16 16 18 N 16 16 18 RPI = x1 + 2 x2 + 3 x3 + 4 x4 + 5 x5 80 80 90 Assessment 15 15 15 Average assessment 15

5.7. Faculty Research Publications (FRP) (30) List of research publications are presented in Annexure VI. Assessment of FRP = 6 × (Sum of the research publication points scored by each faculty member)/ N =6*60/16=22.5

The researc h papers considered are those (i ) which can be located on Internet and/or are included in hard-copy volumes/proceedings, published by reputed publishers, and (ii) the faculty member’s affiliation, in the published papers/books, is of the current institution.

Include a list of all such publications and IPRs along with details of DOI, publisher, month/year, etc.

EE/VNIT/Nov 13 Page 43 of 218

5.7 Conti..

FRP points (max. 5 per faculty) Name of the faculty (contributing to CAY m2 CAY m1 CAY FRP) 2010-11 2011-12 2012-13

Prof. M. V. Aware 05 05 05 Prof. H. M. Suryawanshi 04 03 05 Prof .S. R. Bhide 05 05 01 Prof. B. S.Umre 01 01 01 Prof. V. B. Borghate 00 01 02 Prof. A. S. Junghare 00 00 03 Prof. P. S. Kulkarni 03 02 05 Prof. M. R. Ramteke 00 00 05 Prof.M. A. Chaudhari 01 02 05 Prof. S. S. Bhat 02 02 00 Prof.V. S. Kale 05 05 04 Prof. M. S. Ballal 03 01 05 Prof. S. Pattnaik 01 04 05 Prof. N. R. Patne 02 01 01 Prof. R. J. Satputaley 00 01 05 Prof. A. Dhabale 00 02 02 Prof. S. R. Tambay 00 00 00

Sum 32 35 54 N (Number of faculty positions required for an STR 19 22 22 of 15)

Assessment o f FRP = 6 × Sum/ N 10.1 9.54 14.7

Average assessment 11.44

EE/VNIT/Nov 13 Page 44 of 218

5.8. Faculty Intellectual Property Rights (FIPR) (10)

Assessment of FIPR = 2 × (Sum of the FIPR points scored by each faculty member)/ N (Instruction: A faculty member scores a maximum of five FIPR points. FIPR includes awarded national/international patents, design, and copyrights.) Name of faculty member FIPR points (max. 5 per faculty member) (contributing to FIPR) CAY m2 CAY m1 CAY Prof. M. V. Aware 03 01

Prof. H. M. Suryawanshi

Prof .S. R. Bhide

Prof. B. S.Umre

Prof. V. B. Borghate

Prof. A. S. Junghare

Prof. P. S. Kulkarni

Prof. M. R. Ramteke

Prof.M. A. Chaudhari

Prof. S. S. Bhat

Prof.V. S. Kale 03 Prof. M. S. Ballal

Prof. S. Pattnaik

Prof. N. R. Patne

Prof. R. J. Satputaley

Prof. A. Dhabale

Prof. S. R. Tambay Sum 03 01 03 N 19 22 22 Assessment of FIPR = 0.315 0.09 0.136 2 × Sum/ N Average assessment 0.18

EE/VNIT/Nov 13 Page 45 of 218

5.9. Funded R&D Projects and Consultancy (FRDC) Work (30)

Assessment of R&D and consultancy projects = 6 × (Sum of FRDC by each faculty member)//N (Instruction: A faculty member scores maximum 5 points, depending upon the amount.) A suggested scheme is given below for a minimum amount of Rs. 1 lakh:

Five points for funding by national agency, Four points for funding by state agency,

Four points for funding by private sector, and

Two points for funding by the sponsoring trust/society. Prof. H. M. Suryawanshi

Sr. No. Title of Project Sponsored By Outlay Status

1. Developments in Power Electronics DST 63.5 lakhs Ongoing (FIST-project) 2009-11

Prof. M. V. Aware Sr. No. Title of Project Sponsored By Outlay Status

1. Analog fractional order PID controllers BRNS 2009-11 28 Lakhs Completed

2. Industrial digital fractional order BRNS 2012-13 24 Lakhs Ongoing controllers

5.9 Conti..

EE/VNIT/Nov 13 Page 46 of 218

Name of faculty member FRDC points (max. 5 per faculty member) (contributing to FPPC) CAY m2 CAY m1 CAY Prof. M. V. Aware 05 05 05 Prof. H. M. Suryawansi 05 00 00 Prof .S. R. Bhide Prof. B. S.Umre Prof. V. B. Borghate Prof. A. S. Junghare Prof. P. S. Kulkarni Prof. M. R. Ramteke Prof. M. A. Chaudhari Prof. S. S. Bhat Prof.V. S. Kale Prof. M. S. Ballal Prof. S. Pattnaik Prof. N. R. Patne Prof. R. J. Satputaley Prof. A. Dhabale Prof. S. R. Tambay Sum 10 05 05 N 19 22 22 Assessment of FRDC = 2.1 0.91 0.91 4 × Sum/ N Average assessment 1.3

5.10. Faculty Interaction with Outside World (15)

FIP = Faculty interaction points

Assessment = 3 × (Sum of FIP by each faculty member)/ N

Five points for interaction with a reputed institution abroad, institution of eminence in India, or national research laboratories,

Three points for interaction with institution/industry (not covered earlier). Points to be awarded, for those activities, which result in joint efforts in publication of books/research paper, pursuing externally funded R&D / consultancy projects and/or development of semester-long course / teaching modules. Details of Interactions with outside world are given in Annexure VII

Name of faculty member FIP points (contributing to FIP) CAY m2 CAY m1 CAY

EE/VNIT/Nov 13 Page 47 of 218

Prof. M. V. Aware 5 5 5 Prof. H. M. Suryawansi 0 0 5 Prof .S. R. Bhide 0 0 5 Prof. B. S.Umre 3 3 5 Prof. V. B. Borghate 0 0 0 Prof. A. S. Junghare 0 0 5 Prof. P. S. Kulkarni 0 0 5 Prof. M. R. Ramteke 0 3 5 Prof.M. A. Chaudhari 3 3 5 Prof. S. S. Bhat 0 0 5 Prof.V. S. Kale 0 0 5 Prof. M. S. Ballal 0 0 5 Prof. S. Pattnaik 0 0 5 Prof. N. R. Patne 0 0 0 Prof. R. J. Satputaley 0 0 5 Prof. A. Dhabale 0 0 0 Prof. S. R. Tambay 0 0 0 Sum 11 14 65 N 19 22 22 Assessment of FIP = 3 × Sum/ N 1.74 1.9 8.86 Average assessment 4.17

EE/VNIT/Nov 13 Page 48 of 218

B-6 Facilities and 6. Facilities and Technical Support (75)

Description of classrooms, faculty rooms, seminar, and conference halls: (Entries in the following table are sampler entries) Room description Usage Shared/ Capacity Rooms equipped exclusive with PC, Internet, Book rack, meeting No. of Classrooms 05 For 1st and 2nd Shared 1 of 50 , 4 of yes year 100

Tutorial rooms 05 For 1st and 2nd Shared 1 of 50 , 4 of yes year 100

No. of Seminar rooms For 1st and 2nd Shared 1 of 50 , 4 of yes 05 year 100 No. of Meeting rooms For meeting Exclusive 30 yes 01 No. of Faculty rooms 23 Exclusive 01 yes

Room No.: PGE 1/24, EN 0/1, E 1/10, E1/8, EN 1/1

6.1. Classrooms in the Department (15) 6.1.1. Adequate number of rooms for lectures (core/electives), seminars, tutorials, etc., for the programme (5) YES

6.1.2. Teaching aids ‐‐‐ multimedia projectors, etc. (5) Each room is equipped with LCD projector, internet connection etc.

6.1.3. Acoustics, classroom size, conditions of chairs/benches, air circulation, lighting, exits, ambience, and such other amenities/facilities (5) Class room are specious, well ventilated and clean.

6.2. Faculty Rooms in the Department (15) 6.2.1. Availability of individual faculty rooms (5) Each faculty is having separate room.

6.2.2. Room equipped with white/black board, computer, Internet, and such other amenities/facilities (5) YES

EE/VNIT/Nov 13 Page 49 of 218

6.2.3. Usage of room for counselling / discussion with students (5)

The following table is required for the subsequent criteria.

Laboratory Exclusive use Space, Number of Quality of Laboratory / shared instruments manuals description in number of experiments the curriculum students PE lab Shared 25 8 Good Yes Shared 25 8 Yes Drives lab Good Shared 25 8 Yes PSA lab Good Shared 25 8 Yes Protection lab Good

6.3. Laboratories in the Department to meet the programme curriculum requirements and the POs (30) 6.3.1. Adequate, well ‐equipped laboratories to meet the curriculum requirements and the POs (10) YES

6.3.2. Availability of computing facilities in the department (5) YES

6.3.3. Availability of research facilities to conduct project works / thesis work (5) YES

6.3.4. Availability of laboratories with technical support within and beyond working hours (5) YES

6.3.5. Equipment to run experiments and their maintenance, number of students per experimental setup, size of the laboratories, overall ambience, etc. (5) YES

EE/VNIT/Nov 13 Page 50 of 218

6.4. Technical Manpower Support in the Department (15)

6.4.1. Availability of adequate and qualified technical supporting staff for programme ‐ specific laboratories (10)

Name Designat Exclusi Date of Qualification Other Technical Responsibilit of the ion ve/ Joining At Now skills granted y Techni (pay- shared Joining cal scale) work Staff R. D. Assistan Assists 15.5.19 B. Com M S-CIT, Gov. Cert. in All types of Pathak t in 90 D. In Lib. Computer Electric Motor official work. 5200- whole Sc., Govt. Course Repairing, Gov. 20000 official Cert. in Certificate in Motor work English/ & Armatures Hindi winding Typing 40 w.p.m P. D. Sr. Lab Lab 20.1.19 B. Sc. One yr. 1. ADCSSAA from In Charge PA Jaronde Assistan work 97 (PCM), Advanced Bombay Technical & Projection t Member M. Sc. Diploma In Board. System at of (Maths), Comp. 2. LINUX System Institute level Various Software Adm. committ form 3. VB. Net Course. ee at Bombay 4. Deputed to IITB, Institute Technical IITK, Kanpur for Board Technical Up- gradation. K. M. do Assists 16.7.19 H.S.S.C. , Same as on To handle Manap in Lab. 99 ITI in joining and maintain ure work console the Lab. operator Equipment cum program Assist. T. F. Supporti Office 13.8.19 S.S.C. Same as on ……do…… Gour ng Staff & Lab 91 Fail joining … work V. P. do Office 16.9.19 IX th Same as on ……do…… Gudadh & Lab 81 Pass joining … e work S. D. do Office 7.10.90 S.S.C. Same as on ……do…… Sahakat & Lab Fail joining … e work P. T. do Office 14.1.94 S.S.C. Same as on ……do…… Bante & Lab Pass joining … work

EE/VNIT/Nov 13 Page 51 of 218

Laboratory description in the curriculum Technical Supporting Staff Power Electronics lab Mr. S. D. Sahakate Drives lab Mr. Vishnu Gudadhe Power System Analysis lab Mr. Vishnu Gu dadhe Protection Lab Mr. T. F. Gour

6.4.2. Incentives, skill ‐upgrade, and professional advancement (5)

Skill ‐upgrade and professional advancement • Professional/Technical Training • Skill Developement program organised by Government of India • Workshop: Knowledge about insulation and overall up-keep of electrical equipments Incentives • Bonus • Advances: Festival, Cycle • Allowances: Clothes and washing

EE/VNIT/Nov 13 Page 52 of 218

B-7 Teaching-Learning Process

7. Teaching ‐‐‐Learning Process (75)

7.1. Evaluation process: course work (25) 7.1.1. Evaluation Process – Class test / mid ‐term test schedules and procedures for systematic evaluation, internal assessments. (10) (i) Evaluation Process:

Sr.No Examination Marks 01 First Sessional Exam 15 02 Second Sessional Exam 15 03 Assignment/class 10 test/Surprise Test/Quiz 04 End Semester Exam 60 Total 100 Assessment is based upon the efficacy of the evaluation process being followed. Relevant data may be inserted here.

Assessment = 25 7.1.2. Seminar and Presentation Evaluation (10)

For PG project six monthly open seminars are carried out. A committee consisting of supervisor, one expert; Head of the Department and one external member/Directors nominee evaluate the performance of the project final seminar to evaluate the project.

Assessment is based upon the methodology being followed and its effectiveness Assessment = 10

7.1.3. Performance and Feedback [3]

• This Institute is following open evaluation system. The valued answer books are shown to the entire student within short time after their test and final examination. • There is provision for engaging extra classes for academically poor student • Written handouts and power point presentations are distributed to the Student • Since internal evaluation and final examination evaluation is done ‘In House’ there is no need for comparison. • Midterm and post semester Feedback of students are taken for every semester

Assessment is based upon effective implementation of the following activities: •Post-semester feedback to students on their performance •Extra care for poor performers and remedial classes •Comparison of mid and end semester performance Relevant data may be inserted here Assessment = 03

EE/VNIT/Nov 13 Page 53 of 218

7.1.4. Mechanism for addressing evaluation related grievances [2]

• Since it is an open evaluation system, valued answer books of all exams are shown to all the students by concerned evaluating teacher.

• If in case the student feels dissatisfied, he/she can approach grievance redresseal committee .The concerned answer book is re-evaluated by an expert, in consultation with concerned teacher

Assessment is based upon the efficacy of the mechanism being followed. Relevant data may be inserted here. Assessment = 02

7.2. Evaluation Process: Project Work/ THESIS (25)

Details of Thesis Allocation, Evaluation and Presentation are given in Annexure VIII :

7.2.1. Allocation of Students to Eligible Faculty Members (supervisors) [10]

• List of supervisor and project offered is displayed. The students submit their choices in preferential order to PG coordinator.

• The PG coordinator allocates the students based on their performance in exam/( first two semester) and their preferences to the guides.

Assessment = 10 7.2.2. Constitution of Evaluation Committee with at least One External Member [10]

By statute the evaluation committee consist of one external examiner, Director’s nominee from other department and the supervisor. Assessment = 10 7.2.3. Schedule Showing Thesis Presentation at least twice during the semester [5]

Sample notices are presented in Annexure IX. Assessment =

7.3. TEACHING EVALUATION AND FEEDBACK SYSTEM [10] 7.3.1. Guidelines for Student Feedback System [3] Regularly twice in a system student feedback (oral and writing) is taken.

Assessment is based upon the effectiveness of the guidelines for student feedback system. The design and effective implementation of the guidelines are essential for student feedback system.

EE/VNIT/Nov 13 Page 54 of 218

Assessment = 10

7.3.2. Analysis of Feedback by HOD and the Faculty [2]

This feedback is analysed be feedback committee and HOD and reports are formed.

Assessment is based upon the methodology being followed for analysis of feedback and its effectiveness.

Assessment = 02 7.3.3. Corrective Measures and Implementation Followed [5]

This feedback is conveyed to faculty members in the departmental meeting. According to the student suggestions, the necessary action is taken by the faculty member.

Assessment is based upon the effectiveness of the implementation of the corrective measures and subsequent follow-up.

Assessment = 05 7.4. Self-learning beyond syllabus and outreach activities [15]

7.4.1. Scope for self ‐learning (5) Details are given in Annexure X

7.4.2. Generation of self ‐learning facilities, and availability of materials for learning beyond syllabus (5) • NPTEL • CDs from IITs on course material • Expert Lectures • Involvment in demonstration of newly purchased electrical equipments • Visit to substation 7.4.3. Career Guidance, Training, Placement, and Entrepreneurship Cell (5) • T&P Cell • Axis programme • Industrial visit

EE/VNIT/Nov 13 Page 55 of 218

B-8 Governance, Institutional Support and Financial Resources

8. Governance, Institutional Support and Financial Resources (75)

8.1. Campus Infrastructure and Facility (10)

8.1.A Campus

New 1000 Seat Boys Hostel

The VNIT Campus is spread over an area of 214 acres near Ambazari lake. It presents a spectacle of harmony in architecture and natural beauty. The campus has been organized in three functional sectors;

• Hostels. •Academic area: Departments, Administrative Buildings, Library and Information •Center and various central facilities. *Residential Sector for staff and faculty.

The academic buildings are located fairly close to both, the hostels and the staff quarters. The campus has a full-fledged computerized branch of State Bank of India with ATM facility, Canara Bank, and a Post Office.

The Institute has its own well equipped Health Center with a residential Medical Officer. The specialized services of Psychiatric & Psychological Counsellor, Dietician, Physiotherapist, Pathology lab, Yoga centre. Also medical consultants in Ayurveda and Homeopathy are available. Patients suffering from serious illness / requiring intensive care are referred to the Govt. Medical College and other Hospital nearby and other Health Care Centers duly approved under the CGHS.

EE/VNIT/Nov 13 Page 56 of 218

An adequately equipped canteen is close to the instruction zone and hostels. Two more cafeterias exist on the campus. The Institute has a well equipped Gymkhana apart from various playgrounds for Tennis, Badminton, Volleyball, Football, Hockey, and Cricket. NCC unit is also located on campus.

Institute is gearing us its infrastructure over the years and is improving its infrastructure. This year, Institute has finished construction of 1000 seat boys hostel. Construction of classroom complex is in place.

8.1.B Administration

8.1.C Academic Programmes

Institute has stared M.Sc. programs in Chemistry, Mathematics and Physics from current year.

EE/VNIT/Nov 13 Page 57 of 218

8.1.1 . Maintenance of academic infrastructure and facilities (4) (Instruction: Specify distinct features)

Maintenance of Infrastructure & facilities :

The college has an extensive Infrastructure spread over 214 acres comprising of Academic Buildings, Departments, Lecture Theatres, Auditorium, Food outlets, student Residences, faculty and staff quarters, Guest House, sport fields, stadia, roads, power supply systems, Roads, Water supply, selvage disposal Network etc. A full fledged Estate Maintenance section is operational since the inception of the college. For civil maintenance as well as the supervision of new construction, Electrical Maintenance including Back up generation by Diesel Generator Telecom and Data network (ISDN & Optical Fibre) is taken care by independent units. A security section supervises the maintenance of Law & order on the campus and vicinity.

Annual Maintenance contract for academic infrastructures including computing facility, UPS and air-conditioning (facility management at Institute level)

Annual maintenance contract or on-call basis maintenance service is affected for critical level laboratory equipment. Many of the critical equipment are procured with 3 years warranty.

Assistant Engineer has the responsibility to maintain the Institute campus under the supervision of Dean (Planning & Development). Assistant Estate Engineer coordinates and oversees the functions of the buildings, water supply and electrical wings.

8.1.2 . Hostel (boys and girls), transportation facility, and canteen (2)

Hostels No, No. of Rooms No. of Students accommodated Hostel for 9 3508 2986 Boys Hostel for 2 522 555 Girls

8.1.3. Electricity, power backup, telecom facility, drinking water, and security (4)

8.1.3..A Electricity :

EE/VNIT/Nov 13 Page 58 of 218

As a self sufficient campus which is also a minor township, the entire energy requirements are under own control of the Institute. The Institute is an HT consumer getting supply from the State Electricity Board at 11 kv by UG cable/as a high priority express Feeder and is exempt from load shedding interruptions. The current maximum load demand is of the order of 1000 KVA while the total connected load is estimated at 1500 Kw at substantially unity power factor. The 200 acre Campus is served by three substation having 3 transformers of 400 KVA each and a smaller transformer of 250 KVA. The Internal distribution to various units of the campus such as Hostel, Academic Bldgs., Residential area is entirely by underground LT cabling. As a backup to the Electricity Board supply due to unforeseen reasons beyond institute’s control, a set of 2 Diesel Generators each of 250 KVA capacity is available for serving essential load such as computer/Network center Library/Administration Bldg. etc.

The entire Electrical Installation is maintained in house under the supervision of coordinator – Electrical maintenance who is usually a senior Professor in Electrical Engg. Deptt. The Campus roads are also having energy efficient lighting which under automatic timer control device. The entire installation is annually checked by the statutory authority of Electrical Inspector for safety, reliability and Earthing etc. The average Electrical consumption of the campus is around 112000 KWh units over one calendar year with hostels being significant part of the overall load. As a part of the modernisation solar water heaters are installed in all hostels and plan are underway to introduce solar PV as well LED lights to significantly reduce Main Power from Electric supply utility.

8.1.3.B Water Supply Details :

The college campus gets its water supply from Nagpur Municipal Corporation as well as from it’s own wells. To ensure regular and uninterrupted supply to all user a network of 9 underground sumps (reservoirs) are created having total storage capacity of 12-85 lakh litres of Potable Drinking Water. The average daily consumption is 6.50 lakh litres, mains water supply is limited to daytime hours from 7.45 am to 11.00 a.m. to individual Buildings overhead tanks.

8.1.4 C Campus Security Section :

The VNIT campus has a full fledged security section having 12 permanent employees. The section is headed by Security Officer assisted by Asstt. Security Officer and 10 permanent cadre service guards. This is supplemented by designated guard units provided by a private security

EE/VNIT/Nov 13 Page 59 of 218

agency supervised by college security personal. All Major Installations such as Entry gates, Hostels (Boys & girls), Library and other sections are provided round the clock security supplemented by walkie-talkie phone system.

8.2. Organisation, Governance, and Transparency (10)

8.2.1 . Governing body, administrative setup, and functions of various bodies (2) (i)Board of Governors--Annexure - A

(ii) Senate--Annexure - B

(iii) Finance Committee--Annexure - C

(iv) Building & Works Committee--Annexure – D

(A) Board of Governors

Sr. No Name Designation 1. Dr. S. K. Joshi. Distinguished Scientist, New Chairman Delhi. 2. Smt. Amita Sharma (IAS), New Delhi. Member 3. Shri. A. N. Jha, Jr. Secretary & F. HRD, New Member Delhi. 4. Prof. (Mrs.) Joyshree Roy, Prof. DOE, Kolkata Member 5. Shri. Pramod Chaudhary, Executive Member Chairman, Pune. 6. Prof. S.C. Sahasrabudhe, Director, Member D.A.I.I.C.T., Gandhinagar 7. Prof. A. G. Kothari, Prof. EED, Nagpur Member 8. Mr. I. L. Muthreja, Assott. Prof. M.E.D., Member Nagpur 9. Dr. T. Srinivasa Rao, Director, VNIT, Nagpur Member 10. Dr. B. M. Ganveer, Registrar, VNIT, Nagpur Secretary

(B) Senate

1. Dr. N. S. Chaudhari, Director, VNIT, Nagpur Chairman

2. Prof. S. V. Bhat, Deptt. of Physics, IIS, Member

Bangalore – 560 012

3. Dr. T. S. Sampath Kumar, Asso. Prof., Deptt. of Member

EE/VNIT/Nov 13 Page 60 of 218

M.M.S.

4. Prof. (Ms.) R. B. Nair, HD,. H & S.S.,IIT, Delhi Member

5. Dr. Rajesh Gupta, Dean (Planning & Member Development), VNIT, Nagpur

6. Dr. R. K. Ingle, Dean (Faculty Welfare), VNIT, Member Nagpur

7. Dr. Animesh Chatterjee, Dean (Research & Member Consultancy), VNIT, Nagpur

8. Dr. R. M. Patrikar, Dean (Academics), VNIT, Member Nagpur

9. Dr. A. P. Patil, Dean (Students Welfare), VNIT, Member Nagpur

10. Dr. S. V. Bakre, Head, Deptt. of Applied Member Mechanics, VNIT, Nagpur

11. Prof. L. M. Gupta, Professor of Structural Member Engineering, VNIT, Nagpur

12. Prof. O. R. Jaiswal, Professor of Structural Member Engineering, VNIT, Nagpur

13. Dr. M. M. Mahajan, Professor of Structural Member Engineering, VNIT, Nagpur

14. Dr. G. N. Ronghe, Professor of Structural Member Engineering, VNIT, Nagpur

15. Dr. S. A. Mandavgane, Head, Chemical Engg. Member Deptt., VNIT, Nagpur

16. Dr. V. A. Mhaisalkar, Head, Civil Engg. Deptt., Member VNIT, Nagpur

17. Dr. A. D. Pophale, Professor of Civil Engg., VNIT, Member Nagpur

18. Dr. Y. B. Katpatal, Professor of Civil Engg., VNIT, Member Nagpur

19. Dr. H. M. Suryawanshi, Head, Deptt. of Electrical Member Engg., VNIT, Nagpur

EE/VNIT/Nov 13 Page 61 of 218

20. Dr. A. G. Kothari, Professor of Electrical Engg., Member VNIT, Nagpur

21. Dr. M. V. Aware, Professor of Electrical Engg., Member VNIT, Nagpur

22. Dr. K. L. Thakre, Professor of Electrical Engg., Member VNIT, Nagpur

23. Dr. K. D. Kulat, Head, Deptt. of Electronics Engg., Member VNIT, Nagpur

24. Dr. A. G. Keskar, Professor of Electronics & Member Comm., VNIT, Nagpur

25. Dr. R. B. Deshmukh, Professor of Electronics Member Engineering, VNIT, Nagpur

26. Dr. A. S. Gandhi, Professor of Electronics Member Engineering, VNIT, Nagpur

27. Dr. S. R. Sathe, Head, Deptt. of Computer Sc. & Member Engg., VNIT, Nagpur

28. Dr. C. S. Moghe, Professor of Computer Science Member Engg., VNIT, Nagpur

29. Dr. I. K. Chopde, Head, Deptt. of Mechanical Member Engg., VNIT, Nagpur

30. Dr. P. M. Padole, Professor of Mechanical Engg., Member VNIT, Nagpur

31. Dr. A. M. Kuthe, Professor of Mechanical Engg., Member VNIT, Nagpur

32. Dr. S. G. Sapate, Head, Deptt. of Met. & Mat. Member Engg., VNIT, Nagpur

33. Dr. R. K. Paretkar, Professor of Met. & Mat. Engg., Member VNIT, Nagpur

34. Dr. S. U. Pathak, Professor of Met. & Mat. Engg., Member VNIT, Nagpur

35. Dr. D. R. Peshwe, Professor of Met. & Mat. Engg., Member VNIT, Nagpur

EE/VNIT/Nov 13 Page 62 of 218

36. Dr. R. R. Yerpude, Head, Deptt. of Mining Engg., Member VNIT, Nagpur

37. Prof. S. Shringarputale, Professor of Mining Engg., Member VNIT, Nagpur

38. Ms. Alpana Dongre, Head, Deptt. of Architecture, Member VNIT, Nagpur

39. Dr. V. S. Adane, Professor of Architecture, VNIT, Member Nagpur

40. Dr. (Mrs.) Sujata Patrikar, Head, Deptt. of Appl. Member Physics, VNIT, Nagpur

41. Dr. V. K. Deshpande, Professor of Applied Physics, Member VNIT, Nagpur

42. Dr. (Mrs.) Anupama Kumar, Head, Deptt. of Member Chemistry, VNIT, Nagpur

43. Dr. S. S. Umare, Professor of Chemistry, VNIT, Member Nagpur

44. Dr. G. P. Singh, Head, Deptt. of Mathematics, Member VNIT, Nagpur

45. Dr. (Ms) M. Ghoshal, Head, Deptt. of Humanities, Member VNIT, Nagpur

46. Dr. S. B. Thombre, Professor of Mech. Engg & i/c Member T&P, VNIT, Nagpur

47. Dr. D. H. Lataye, Chief Warden, VNIT, Nagpur Member

48. Dr. B. M. Ganveer, Registrar, VNIT, Nagpur Secretary

1. Dr. S. K. Joshi, Distinguished Scientist (CSIR) & Chairman Vikram Sarabhai Professor of JNCASR, New Delhi.

2. Shri Rajesh Singh, Director Deptt. Higher Eduction, Member New Delhi

EE/VNIT/Nov 13 Page 63 of 218

3. Shri Navin Soi, Driector, Ministry HRD, New Delhi. Member

4. Prof. S. C. Sahasrabudhe, Director D.A.I.I.C.T., Member Gandhinagar

5. Prof. A. G. Kothari, Professor, Electrical Member Engineering Department, VNIT, Nagpur

6. Dr. N. S. Chaudhari, Director, VNIT, Nagpur Member

7. Dr. B. M. Ganveer Member-Secretary

Registrar, VNIT, Nagpur

(D) Building & Works Committee

1. Dr. N. S. Chaudhari, Director, VNIT, Nagpur Chairman

2. Shri Rajesh Singh, Director Director HMHRD, New Member Delhi

3. Shri Navin Soi, Director IFD, New Delhi Member

4. Prof. S. C. Sahasrabudhe, Director D.A.I.T, Member Gandinagar

5. Dr. Rajesh Gupta Member

Dean (P&D), V.N.I.T., Nagpur

6. Mr. R. K. Naik, Superintending Engineer (Civil), Member

Central P.W.D., , Nagpur–440 006

7. Shri Arvind Garg, Suptd. Engineer (Electrical) Member

NAGPUR – 440006

8. Chief Engineer, Public Works Department, Member

NAGPUR – 440001

9. Supdt. Engineer (Electrical), Public Works Member Department, NAGPUR – 440001

10. Dr. B. M. Ganveer Registrar, VNIT, Nagpur Member-Secretary

EE/VNIT/Nov 13 Page 64 of 218

Other information is as under -

Statutory Committees -

Name of the Committee Frequency of the Attendance meetings

Board of Governors 4 in a year Average 70%

Finance Committee 3 in a year Average 80%

Building & Works Committee 4 in a year Average 80%

Senate 4 in a year Average 90%

Other than the above Committees, there in also the Staff Selection Committee (Statutory) for Selection of faculty and non-faculty employees which meets as and when necessary. This is a standard composition of the committee which includes official & Non official members.

The last Staff Selection Committee for recruitment of faculty posts was held in 2012 and for non-faculty posts in 2008.

In addition the board has constituted following Committees for compliance with rules & regulations.

1) Special Cell :To the Goal reservation policy is observed scrupulously. No meeting of Special Cell held during current year i.e. 2013.

2) Stores Purchase Committee: To assist the Director in procurement of item/equipment/material costing beyond 10 Lakhs.

Total 3 meetings are held during current year i.e. 2013

3) Grievance Cell : To address the Grievances of all the employees.

No meeting was held during current year 2013.

4) Women’s Cell : To address the Grievances of working women.

Two meetings held during 2013.

EE/VNIT/Nov 13 Page 65 of 218

8.2.2 . Defined rules, procedures, recruitment, and promotional policies, etc. (2)

(Instruction: List the published rules, policies, and procedures; year of publications; and state the extent of awareness among the employees/students. Also comment on its availability on Internet, etc.)

8.2.3, 8.2.4 Most of the information viz.. Act, Statutes, constitution of various Committees, Academic Programmes, grievance mechanism, and minutes of all Statutory Committees are placed on Institute web-site and updated from time to time.

8.2.3 . Decentralisation in working including delegation of financial power and grievance redressal system (3)

(Instruction: List the names of the faculty members who are administrators/decision makers for various responsibilities. Specify the mechanism and composition of grievance redressal system, including faculty association, staff-union, if any.)

LIST OF DELEGATION OF FINANCIAL POWERS

Sr.No. Particulars Functionaries Proposed Financial Power

01. All kinds of expenditure under plan Director Up to 8 Crores and non plan budget 02. All kinds of expenditure under plan Deputy Director Upto 50 Lakhs and non plan budget 03. All kinds of purchases & other expenditure from Sponsor Research, Dean (R&C) Upto 10 Lakhs Projects, Schemes and Consultancy Funds 04. For Purchase of Consumables from Principal Upto 2 Lakhs (for Projects, Schemes and Consultancy Investigator Consumables only) Fund 05. 1. Stores, spares, accessories Heads of Deptts. Upto 2 Lakhs under allotted operating grant (Non Prof-in-Charge Plan) (T&P), Librarian 2. Purchases under allotted Plan Grant,

EE/VNIT/Nov 13 Page 66 of 218

06. All Expenditure related to student’s Dean (St. Welfare) Upto 2 Lakhs activities, including sports. 07. Purchases, Payments of scholarship & other allied expenditure within approved & allotted grant of the Dean (Academics) Upto 10 Lakhs year. All related expenditure of PG students & research scholars within approved budget. 08. Expenditure related to their All Deans Upto Rs. 2 Lakhs operational expenses (Office, small equipment, consumables etc. 09. Expenditure for campus development, minor repairs, cleaning, minor repair of roads, parks, convocation and Dean (P&D) Upto Rs. 2 Lakhs miscellaneous for which the administrative approval is accorded and fund is allotted for the purpose. 10. Purchases of Journals, consumables, Chairman, Library Upto Rs. 2 Lakhs spares and accessories etc. form Committee budgetary allocation of the year 11. Expenditure for medicine/consumabl MO: upto Rs. 1 -es/equipments directly related to Medical Officer Lakhs in each case, Health Service expense. with Celling of Rs. 5 lakhs per year 12. [i] Payment of Telephone bill FAX, Full power of [i] and Bill Electricity/bill, Water bill etc., Upto Rs. 2 Lakh [ii] Purchases of equipment, uniform,

consumables, stationeries, spares & Registrar accessories. for registry/requirement for departments not covered above within allotted grant of the year. 13. For contingency expenditure Dy. Registrar, Ass. Up to Rs. 10000 Registrar (Independent Charges) List of faculty members who are administrators/decision makers for various jobs –

EE/VNIT/Nov 13 Page 67 of 218

Deans * Dean (Planning and Development) -- Dr. S. R. Sathe * Dean (Faculty Welfare) -- Dr. R. K. Ingle * Dean (Research and consultancy) -- Dr. H. M. Surywanshi * Dean (Academics) -- Dr. O. R. Jaiswal * Dean (Students Welfare) -- Dr. G. P. Singh

The Institute Grievance Redressal Committee is constituted with the following members:- * Dr. M. M. Mahajan, Prof. of Structural Engg. – Chairman * Dr. Aniket M. Deshmukh, Assoc Prof. of Architecture -- Member * Shri Askok Thakur, Senior Assistant -- Member * Shri C. V. Chalpati Rao -- Member * Shri V. S. Kapse, Liaison Officer, SC/ST -- Member * Dr. A. Andhare, Associate Prof. of Mech. -- Member Secretary Engg. 8.2.4 . Transparency and availability of correct/unambiguous information (3) (Instruction: Availability and dissemination of information through the Internet. Information provisioning in accordance with the Right to Information Act, 2005).

All relevant information are made available through website. Information is made available through emails and circulars. The RTI Cell is constituted in accordance with the provisions of Right to Information Act, 2005 as follows- Public Information Officer --Dr. B. M. Ganveer, Registrar First Appellate Authority --Dr. S. R. Sathe, Dean, (P&D) Second Appellate Authority- -Dr. N. S. Choudhary, Director 8.3. Budget Allocation, Utilisation, and Public Accounting (10) Summary of current financial year’s budget and the actual expenditure incurred (exclusively for the institution) for three previous financial years. In Rupees

Item Budgeted in Expenses in Expenses in Expenses in CFY (2013- CFY (till 30- (2012-13) (2011-12) 14) 09-2013)

Infrastructural 2,65,54,000 36,13,35,022 2,81,64,291 15,95,93,770 built-up

Library 1,50,00,000 36,13,208 1,90,18,807 1,29,71,122

Laboratory 7,40,50,000 1,72,15,522 4,32,85,956 3,99,33,386 equipment

EE/VNIT/Nov 13 Page 68 of 218

Laboratory 9,00,000 3,28,380 34,54,624 14,68,336 consumables

Teaching and 18,68,00,000 24,03,26,847 44,34,60,400 30,58,08,851 non teaching staff salary

R&D

Training & 3,00,000 8,25,317 11,52,857 12,93,657 travel

Other, specify 2,76,52,000 3,35,20,388 7,88,07,806 6,16,68,294

Total 30,47,02,000 65,71,64,684 61,7340,741 58,27,37,416

8.3.1 . Adequacy of budget allocation (4) (Instruction: Here the institution needs to justify that the budget allocated over the years was adequate.) The Institute receives grant-in-aid from the Government of India based on the budget formulated by it. There is enough fund made available by the Government of India for Plan and Non-Plan activities. Infrastructure facilities are created on priority basis based on the available fund from the Government of India.

8.3.2 . Utilisation of allocated funds (5) (Instruction: Here the institution needs to state how the budget was utilised during the last three years.) The utilization of allocated fund is satisfactory as can be seen from above table no. 8.3.

8.3.3 . Availability of the audited statements on the institute’s website (1) (Instruction: Here the institution needs to state whether the audited statements are available on its website.) The account of the Institute is audited by a team of auditors from the Comptroller & Auditor General of India and the Audit Report is prepared by the CAG Office. A copy of the Report is given to the Institute. Under the provision of the National Institutes of Technology Act 2007, the Audit Report of the Institute account is placed before the Parliament every year. Till its placement before both the Houses of Parliament and its considerations, the Report remains confidential.

EE/VNIT/Nov 13 Page 69 of 218

8.4. Programme Specific Budget Allocation, Utilisation (10)

Summary of budget for the CFY and the actual expenditure incurred in the CFYm1 and CFYm2 (exclusively for this programme in the department):

Items

in INR in INR in INR in INR in INR in INR in INR in INR 2011-2012 2011-2012 2010-2011 2009-2010 2012-2013 2012-2013 2012-2013 2012-2013 2011-2012 2010-2011 2009-2010 Budgeted in Budgeted in Budgeted in Budgeted in Budgeted in Actual expenses in expenses Actual Actual Expenses inExpenses Actual in Expenses Actual in Expenses Actual

Laboratory equipment 5,00,000 4,78,844 4,00,000 4,03,740 3,00,000 2,60,962 4,00,000 3,61,481

Software 2,62,250 - 27,181 24,300

Laboratory 1,00,000 31,880 150,000 55,289 60,000 16,790 65,000 20,217 consumable Maintenance and 11,147 8,238 5,464 19,331 spares Travel 16,305 14,456 1,422 9,032

Miscellaneous 34,833 68,032 28,969 11,750 expenses for academic activities* Total 6,00,000 8,35,259 5,50,000 5,49,755 3,60,000 3,40,788 4,65,000 4,46,111

* The amounts shown under expenditure does not include many items of routine expenses met from Centralized Institutional Source 'such as AMC/Computer Consumables and student related travel expenditure which, however, are aggregated in The Institutional Income Expenditure statement in Part I - item I-10. (Instruction: The preceding list of items is not exhaustive. One may add other relevant items if applicable.)

EE/VNIT/Nov 13 Page 70 of 218

8.4.1 . Adequacy of budget allocation (5) (Instruction: Here the institution needs to justify that the budget allocated over the years was adequate.) Before commencement of new financial year the budgetary requirement for each office/lab/faculty member is discussed in departmental faculty meeting. The total requirement is then communicated to institute administration. The same is then sanctioned which is found to be adequate.

8.4.2 . Utilisation of allocated funds (5) (Instruction: Here the institution needs to state how the budget was utilised during the last three years.) The allocated funds has been utilized for purchase of new laboratory equipments, softwares, laboratory consumables, maintenance of equipments/machinery and for required spares, training and travel and other miscellaneous expenses for academic activilty.

8.5. Library (20)

8.5.1. Library space and ambience, timings and usage, availability of a qualified librarian and other staff, library automation, online access, networking, etc. (5) (Instruction: Provide information on the following items.).

Carpet area of library (in m2) Reading space (in m2) = 6400 m 2 Number of seats in reading space = 150 (Night Reading)+ 200 (Library) = 300 Number of users (issue book) per day = 512 Number of users (reading space) per day =468 Timings: During working day, weekend, and vacation = 360 days, timings 8:30 a.m. to 9:30 p.m. Number of library staff = 23 (08 permanent) Number of library staff with degree in Library Management = 21, Computerisation for search = 21 indexing, issue/return records Bar coding used = yes Library services on Internet/Intranet INDEST or other similar membership Archives

EE/VNIT/Nov 13 Page 71 of 218

8.5.2 . Titles and volumes per title (4)

Number of Number of Number of new titles new editions new volumes added added added

CAYm2 2010-11 950 4,365 1,08,694

CAYm1 2011-12 2,226 4,034 1,13,806

CAYm 2012-13 1060 6,049 1,27,383

SUBJECT WISE TITLES (TILL 31 ST MARCH 2011)

Sr.No. Subject Title Volume 01. A. M. 281 416 02. Archi. 5019 8728 03. Chemical 2386 3989 04. Che. 3085 6138 05. Civil 8529 7741 06. ComSc 7741 10748 07. Electro 5022 8094 08. Clectri 6133 13254 09. Hum 1223 1782 10. Math 2982 5497 11. Mech. 6960 13449 12. Met. 6007 9179 13. Min. 4648 6422 14. Phy. 1616 6270 15. L.S. & H. 99 99 TOTAL 61711 108694

EE/VNIT/Nov 13 Page 72 of 218

SUBJECT WISE TITLE (TILL 31 ST MARCH 2012)

Sr.No. Subject Title Volume 01. A. M. 355 605 02. Archi. 5154 8937 03. Chemical 2512 4352 04. Che. 3182 6398 05. Civil 8667 15016 06. ComSc 7990 11286 07. Electro 5093 8347 08. Electri. 6475 14130 09. Hum 1476 2307 10. Math 3176 5911 11. Mech. 7055 13710 12. Met. 6193 9526 13. Min. 4661 6461 14. Phy. 1793 6665 15. L.S. & H. 155 155 TOTAL 63937 113806

SUBJECT WISE TITLES (TILL 31 ST MARCH 2013)

Sr.No. Subject Title Volume 01. A. M. 440 2176 02. Archi. 5265 9350 03. Chemical 2634 4986 04. Che. 3261 8079 05. Civil 8780 15730 06. ComSc 8079 14130 07. Electro 5267 9962 08. Clectri 6531 15165 09. Hum 1488 2744 10. Math 3236 6548 11. Mech. 7118 14449 12. Met. 6239 10114 13. Min. 4676 6856 14. Phy. 1806 7145 15. L.S. & H. 177 177 TOTAL 64997 127311

EE/VNIT/Nov 13 Page 73 of 218

8.5.3 . Scholarly journal subscription (3)

Details CFY CFYm1 CFYm2 CFYm3 2013 2012 2011 2010 Science As soft 00 02 02 01 copy As hard 18 21 20 17 copy Engg. And Tech. As soft 736 00 04 01 copy As hard 51 86 106 110 copy Pharmacy As soft x copy As hard copy Architecture As soft 00 00 00 00 copy As hard 16 18 24 24 copy Hotel Management As soft copy As hard copy

(1) 05 Subject collection with 694 titles of Elsevier.

(2) ACS 41 title of Chemical Engg. Web editions for the year 2013.

8.5.4 . Digital Library (3)

Availability of digital library contents: Available

If available, then mention number of courses, number of e- books, etc. Availability of an exclusive server: Yes Availability over Intranet/Internet: Yes Availability of exclusive space/room: Yes Number of users per day: (1) Issue counter 512 (2) Reference section 245 (3) Periodical section 167 (4) Reading Room section 468 (5) Stock Room section 182 (6) Reprography section 376 (7) CD-ROM use 098

EE/VNIT/Nov 13 Page 74 of 218

8.5.5. Library expenditure on books, magazines/journals, and miscellaneous contents (5)

Year Expenditure Comments, if any Book Magazines/journals Magazines/journals Misc. (for hard copy (for soft copy Contents subscription) subscription) CFYm2 41.42 2011 Lacs 48,49,686.00 2,31,158.00 (4813)

CFYm1 53.32 2012 Lacs 49,73,906.00 1,56,054.00 (5112)

CFY 77.67 2013 Lacs 21,61,376.00 60,62,510.00 (13505

Virtual Class Room: DETAILS ;-

Money Given By National Informatics Center (NIC);-

• Total Project Cost of Virtual Class-Room --Rs. 32,26,524/- • Civil Work for Virtual Class Room--Rs.10,00,000/- • Technical Assistant for Virtual Class Room--Rs. 1,80,000/- • Bandwith;- Speed for Video only 50 mbps Speed for net only 50 mbps Total Bandwidth 100 mbps • Portal of NKH http;/www.nkn.in/ • IP Address for NKN;- • 10.119.19.194 • 10.119.19.192/27 such Range is also allocated Contact Details;-1] VNIT Co-ordinator ;- Prof. V. J. Abhyankar, 2] VNIT Technical Assistant;- Mr. Rahul Hepat, Mr. A.A. Hardas

EE/VNIT/Nov 13 Page 75 of 218

8.5.5.1Layout of Virtual Classroom

8.6. Incubation facility 5)

(Instruction: Specify the details of incubation facility in terms of capacity, utilisation terms and conditions, usage by students)

The concept has already been accepted for implementation by the Governing Body of the Institute. A beginning has already been made in Electronics Engineering Deptt. and other departments shall follow soon. The basic details as currently approved are as follows:

Good infrastructure with common office facilities, computers, internet access, Shared facilities such as printing, photocopying, faxing, and scanning, well laid out entry and exit policies for tenant companies.

• Involvement, commitment and full cooperation from host institute and other stake holders. • Experts for core technical guidance and assistance. • Labs and technical facilities for prototype development. • Assessment of Techno-commercial Viability of Proposals Received and proper mentoring. • IPR and Legal Advice through a panel of specialist legal advisers identified for the purpose to help the prospective entrepreneurs. • The centre proposes to tie-up incubating companies with reputed bankers

EE/VNIT/Nov 13 Page 76 of 218

and venture capitalists for mobilizing finances through Banks/Venture Capitalists/Angel Investors. • Skill Development Programs for Managing Business activity shall be carried out by VNIT, other training institutes and individual experts as deemed fit.

8.7 Internet (5)

Name of the Internet provider: BSNL Available bandwidth: Broadband Access speed: Gbps and 16 Mbps: Good Access Speed Availability of Internet in an exclusive lab: Yes Availability in most computing labs: Yes Availability in departments and other units: Yes Availability in faculty rooms: Yes Institute’s own e-mail facility to faculty/students: Yes Security/privacy to e-mail/Internet users: Yes (Instruction: The institute may report the availability of Internet in the campus and its quality of service.)

8.7.1 Network Center Information ;- Network Center provides a variety of Services. Network Center administers and manages the entire Campus Computer Network which includes departments, sections computer center, administrative building, library, Guest house, health center, NCC Sectin and Auditorum along with Network Center and quarters.

Network Center has three leased line (LL) connections 10 Mbps 75 Mbps and 42 Mbps which is distributed all over campus like departments, sections, computer center, administrative building. Guest house, health center, NCC Section, Auditorium and quarters along with Network Center, Currently NKN LL provided by NMEICT for Internet is 50 Mbps.

Network Centre monitors bandwidth usage continuously and any problems in usage are rectified with the help of ISP (Internet Service Provicer)

Network Center has in-house web server, mail server, proxies and application server along with oracle server. We provide Web-based Email open source that enables all the users to assess their mailbox from anywhere (inside or outside VNIT Nagpur) via the Internet, an institute wide. We mostly encourage use of free and open software like GNU/Linux distributions.

Network Center provides advanced and special purpose softwares such as ANSYS, MATLAB, EXATA and AUTOCAD as well as NPTEL Videos for all the inside users in campus. Microsoft OS Software License for servers. Network Center also host mirrors of freeware softwares for all campus users. The documentation is also EE/VNIT/Nov 13 Page 77 of 218

provided for special purpose software regarding installation on end user computer. Powerlingo language software is available for the benefit of students.

The centralized installation of quick Heal Antivirus software is provided for all campus users.

Network center has hardware such as core switch, blade chasis, Blade server, Rack mount server, SAN Storage, Lenovo All in one Desktops, HP Laserjet M 1536 DNF Printer, Lenovo MAKE Desktop, HP Dual CPU Server, Netscreen Firewall, Check Point UTM, HP-ML-370 G4 Server Dual Processor.

The approximate cost of hardware is around 1 crore 60 lakhs only (Rs. 1,60,00,000/- ) The approximate cost of software is rupees Two Lakh eighty thousand only (Rs. 280000/-) Computer Hardware AMC is outsourced. The cost of annual maintenance charges on computer hardware is approximately two lakhs (Rs. 2,00,000)

The annual charges of Reliance LL is approximately twenty five lakhs (Rs. 25,00,000) and that of BSNL LL is around ten lakhs (Rs. 10,00,000/-)

Network Center has one permanent staff and three adhoc staff - 11 and recurring charges is as under –

AMC-- 2.0 L Reliance LL--25.0 L BSNL--10.0 L

EE/VNIT/Nov 13 Page 78 of 218

8.7.2 Physical Layout of Fiber Optic Cable of VNIT Figure I

EE/VNIT/Nov 13 Page 79 of 218

8.7.3PRTG Traffic Grapher

Figure II

8.8 Safety Norms and Checks (5)

8.8.1. Checks for wiring and electrical installations for leakage and earthing (1)

Sr.No. Particulars No. of Exits

1 Auditorium 7.00

2 Large Classrooms/Laboratories 2.00

3 Library 2.00

EE/VNIT/Nov 13 Page 80 of 218

8.8.2. Fire fighting measurements: Effective safety arrangements with emergency multiple exits and ventilation/exhausts in auditoriums and large classrooms/laboratories, fire fighting equipment and training, availability of water, and such other facilities (1)

Adequate ventilations and multiple exits are provided in all academic buildings, laboratories .

Fire Fighting Measures :

1] We have fire extinguishers (mega mess, hostel blocks, in CAD/CAM, Department, some are still in propose)

2] As per chief advisor of fire audit committee S.T. Chaudhari’s advice we have DCP, CO2 pressure extinguishers are placed (fire hydride system is not there)

3] Emergency safety arrangements: No

4] Multiple exits and ventilation/exhausts in auditorium and large labs/classrooms: Yes

5] A number of fire extinguishers are located at various sensitive locations throughout the campus. A total of 16 stations containing different types of Fire fighting media such as Foam, Coz, W/C and DCP are functional and under continuous surveillance for dealing with any fire related emergency.

8.8.3. Safety of civil structure (1)

Being a publicity funded Institution (Central Govt.), all Infrastructure/construction has to follow CPWD/VNIT. Norms and all buildings are supervised by qualified Engineers during construction. Before the buildings are accepted for use from the construction contractors all checks are done for stability of civil structure. Each structure is specifically certified by the Incharge Engineer from Estate Maintenance section after physical verification. The latest certificate is reproduced below:

VISVESVARAYA NATIONAL INSTITUTE OF TECHNOLOGY, NAGPUR PHYSICAL VERFICIATION CERTIFICATE TO WHOM SO EVER IT MAY CONCERN This is to certify that the physical and structural verification of all buildings and connected ancillaries has been carried out during the year 2012-13 and found in order.

Date : 10/07/2013 sd/- ENGINEER ESTATE MAINTENANCE SECTION V.N.I.T. NAGPUR

EE/VNIT/Nov 13 Page 81 of 218

8.8.4 . Handling of hazardous chemicals and such other activities (2)

(Instruction: The institution may provide evidence that it is taking enough measures for the safety of the civil structures, fire, electrical installations, wiring, and safety of handling and disposal of hazardous substances. Moreover, the institution needs to show the effectiveness of the measures that it has developed to accomplish these tasks.)

8.9 Counselling and Emergency Medical Care and First aid (5)

Availability of counselling facility (1)

Arrangement for emergency medical care (2) Availability of first-aid unit (2)

(Instruction: The institution needs to report the availability of the facilities discussed here.)

8.9.1 Medical Care:

Availability of medical care and emergency, first-aid facility :

Institute through its health centre provides preventive, promotive & curative health services to the students, employees & their families. Resident doctor on campus & 24 x 7 availability of ambulance services take care of emergency needs.

Holistic health services available at health centre include family physician, counsellors, lady doctor, Paediatrician & dental services. Alternative health services like Homeopathy & yoga are available. Referral for Ayurvedic services is available. Physiotherapy services promote fitness & address sports related problems.

Speciality Clinics for eyes & skin problems is available. Mental health services are provides though counsellors & Psychiatrist. Availability of dietician addresses menu planning for balanced diet in the mess besides giving dietary advice for modern epidemic of obesity, diabetes & cardiovascular problem. First aid facility is provided at all hostels.

EE/VNIT/Nov 13 Page 82 of 218

8.9.2 Physical Education facilities:

Sports and Games are essentials components of Human Resource Development, helping to promote good health, comradeship and spirit of healthy competition, which in turn, has positive and deep impact on the holistic development of the personality of the youth who is a potential source of energy, enthusiasm and inspiration for development, progress and prosperity of the nation.

The Institute aims at all round development of the students. This can be seen from the importance given to the Physical Education. Classes for Physical Education have been included in regular Time Table so as to ensure development of Physical Fitness of the students. Physical Education programs also include general health and safety information in addition to providing opportunities for students to learn how to cooperate with one another in a team setting. Participation of students in different games The Institute encourages the students by exposing them to various Inter University Tournaments such as West Zone Inter University, All India Interuniversity, Inter-NIT tournaments and also in local inter-collegiate tournaments. The institute has won many championships in Football, Cricket, Badminton, Table Tennis, Chess, Volleyball and Kho-Kho events in All India Inter NIT Tournaments since 2009 Krik Mania: This is an Invitational Cricket Tournament being organized since last 20 years by the Institute students under the guidance of the Department of Physical Education at local level. Intramural and Krida Diwas:

This is a unique program of event inter-section tournaments for different games conducted for first year B.Tech./B.Arch. students which goes round the year. The department celebrates the birth anniversary of the great Hockey legend Major Dhyanchand on 29 th of August every year and on the same day the intramural program is also inaugurated.

Medical examination:

The Department of Physical Education coordinates for compulsory Medical Examination for all the first year B. Tech. /B. Arch. students with our Medical Officer Dr. S. Batra. and his team.

Physical Efficiency Test:

Compulsory for every first year B. Tech./B.Arch. Components of physical fitness such as abdominal strength, respiratory endurance, flexibility of hip joint and hamstring muscles and speed are measured by applying suitable tests of fitness.

EE/VNIT/Nov 13 Page 83 of 218

Felicitation of the students:

The department of Physical Education recognizes the efforts taken by first year students and felicitates them during the valedictory function of the intramural tournament.

Sports facilities currently available on the Campus

• One Cricket Ground with six Turf wickets. • One Football Ground with flood light arrangement. • Two Volleyball Courts with flood light • One Badminton Court. • A Table Tennis Hall • Three Lawn Tennis Courts. • One Flood light Basketball Court. • Well equipped Gymnasium • Cricket pavilion with the seating capacity of 500 students Planned Sports Infrastructure in near future:

Indoor Badminton Stadium with four Wooden sprung Surfaced Badminton courts, Table Tennis hall, Yoga hall, Class room, Sports Medicine Research Lab

******************

EE/VNIT/Nov 13 Page 84 of 218

9- Continuous Improvement 9. Continuous Improvement (75)

This criterion essentially evaluates the improvement of the different indices that have already been discussed in earlier sections.

From 9.1 to 9.5 the assessment calculation can be done as follows

If a, b, c are improvements in percentage during three successive years, assessment can be calculated as

Assessment = (b-a)+(c-b)+(a+b+c)*5/3

9.1. Improvement in Success Index of Students (5) From 4.2 Items LYG LYGm1 LYGm2 Assessment Success index 0.809 0.666 0.928 4

9.2. Improvement in academic performance index of students (5) From 4.3 Items LYG LYGm1 LYGm2 Assessment API 7. 46 8.43 7. 66 39

9.3. Improvement in Student-Teacher Ratio (5)

From 5.1 Items CAY CAY m1 CAY m2 Assessment Average for 3 years STR 18.44 20.43 17.68 19

9.4. Enhancement of Faculty Qualification Index (5)

From 5.3 Items CAY CAY m1 CAY m2 Assessment

Average for 3 years FQI 9.33 9.25 9.25 9

EE/VNIT/Nov 13 Page 85 of 218

9.5. Improvement in Faculty Research Publications, R&D Work and Consultancy Work (10)

From 5.7 and 5.9

Items LYG LYG m1 LYG m2 Assessment

FRP 10.1 9.54 14.7 11.44 FRDC 2.1 0.91 0.91 1.3 9.6. Continuing Education (10)

In this criterion, the institution needs to specify the contributory efforts made by the faculty members by developing the course/laboratory modules, conducting short-term courses/workshops, etc., for continuing education during the last three years.

Assessment = 10

9.7. New Facility Created (15)

Specify new facilities created during the last three years for strengthening the curriculum and/or meeting the POs:

Facilities\POs a b c d e f g h i j k Addition of Laboratory × × × × × × × × equipments in: Protection/Power Electronics/Drives Labs. Augmentation of Software × × × × × × × × and hardware in existing computational Laboratory Subscription of eBooks and × × × × journals Multimedia infrastructure in × × × × × × × × × class rooms

EE/VNIT/Nov 13 Page 86 of 218

9.8. Overall Improvements since last accreditation, if any, otherwise, since the commencement of the programme (20)

Specify the overall improvement:

Specify Improvement Contributed List the PO(s), Comments, the brought in by which are if any strengths/ strengthened weakness

Control Lab., PE Lab., Drives Lab., Switchgear and Protection TEQIP-II CAY Lab. a, b, c, d, e, f, g, h FIST CAY m1 • Hostel for MTech and PhD MHRD Strength of students ------MTech students increased 18 to 24 • Laboratory: Power TEQIP a, b, c, d, e, f, Electronics/ g, h, k Protection/Drives/Renewable FIST Energy

CAY m2 •NIT Statutes f

MHRD Dr. V. S. g Kale

• Two Faculties earned PhD Dr. N. R. degrees Patne

EE/VNIT/Nov 13 Page 87 of 218

Declaration

The head of the institution need to make a declaration as per the format given below: This Self-Assessment Report (SAR) is prepared for the current academic year (2013-2014) and current financial year (2013-2014) on behalf of the institution.

I certify that the information provided in this SAR is extracted from the records and to the best of my knowledge, is correct and complete.

I understand that any false statement/information of consequence may lead to rejection of the application for the accreditation for a period of two or more years. I also understand that the National Board of Accreditation (NBA) or its sub-committees will have the right to decide on the basis of the submitted SAR whether the institution should be considered for an accreditation visit.

If the information provided in the SAR is found to be wrong during the visit or subsequent to grant of accreditation, the NBA has right to withdraw the grant of accreditation and no accreditation will be allowed for a period of next two years or more and the fee will be forfeited.

I undertake that the institution shall co-operate with the visiting accreditation team, shall provide all desired information during the visit and arrange for the meeting as required for accreditation as per the NBA’s provision.

I undertake that, the institution is well aware of the provisions in the NBA’s accreditation manual concerned for this application, rules, regulations and notifications in force as on date and the institute shall fully abide by them.

Place: Signature, Name, and Designation of the Date: Head of the Institution with seal

EE/VNIT/Nov 13 Page 88 of 218

Annexure I Semester I Core Subjects: 1. Course Name: EEL501-POWER SYSTEM ANALYSIS Course Outcomes Should be able to v. Calculate steady state voltages and bus angles given the load and generation using Load flow Calculation methods i.e. GSLF, NRLF, FDLF vi. Analyze and calculate fault currents and post fault voltages for shunt, series and simultaneous faults vii. Carryout contingency analysis and ranking viii. Estimate the state of system (bus voltage magnitudes and angles) based on available measurements and other information

Course POs a b c d e f g h i j k Outcomes × × × × × × i ii × × × × ×

iii × × × × ×

iv × × × × × ×

2. Course Name: EEL502-Power System Dynamics-I Course Outcomes: Students are able to: i. Understand the modeling of Synchronous Machine in detail. ii. Carry out simulation studies of power system dynamics using MATLAB-SIMULINK. iii. Carry out stability analysis with and without power system stabilizer (PSS). iv. Understand the load modeling in power system.

Course POs a b c d e f g h i j k Outcomes × × × × × × i ii × × × ×

iii × × × × × × × ×

iv × × × ×

3. Course Name: EEL504-Digital Protection of Power Systems EE/VNIT/Nov 13 Page 89 of 218

Course outcomes Students are able to i. Understand the importance of digital relays. ii. Understand various protection algorithms. iii. Appreciate limitations of the algorithms. iv. Code the algorithms in MATLAB and experiment with them. v. Cope up with further advances in digital protection.

Course POs a b c d e f g h i j k Outcomes × × × × × × × × i ii × × × × × ×

iii × × × × × ×

iv × × ×

v × × × ×

Elective Subjects: 4. Course Name: EEL409-HVDC Course Outcomes Students are able to i. Understand, analyze and model the HVDC long distance bulk power transmission systems. ii. Simulate converters using MATLAB SIMULINK. iii. Understand necessity of HVDC under deregulated environment. iv. Know different control methods and protective schemes of HVDC systems

Course POs a b c d e f g h i j k Outcomes × × × × × × i ii × × × × ×

iii × × ×

iv ×

5. Course Name: EEL410-ADVANCED CONTROL THEORY Course Outcomes

EE/VNIT/Nov 13 Page 90 of 218

Students are able to i. Understand and analyze dynamical systems. ii. Simulate dynamical systems using MATLAB SIMULINK. iii. Implement the state-space based control techniques. iv. Study the recent advances in control theory.

Course POs a b c d e f g h i j k Outcomes × × i ii × × × ×

iii × × × ×

iv × × ×

6. Course Name: EEL421-POWER QUALITY Course Outcomes Students are able to i. Students will be able to understand the different power quality indices. ii. They will also know the ill effects of all power quality problems in distribution system. iii. Students will know wiring and grounding problem. iv. They will study about harmonics and filters in distribution system. v. They can simulate circuits explaining power quality problems

Course POs a b c d e f g h i j k Outcomes × × × × × × × i ii × × × × × × ×

iii × × × ×

iv × × × × × × × ×

v × × × × × × ×

Semester II Core Subjects: 7. Course Name: EEL411-APPLICATION OF POWER ELECTRONICS TO POWER SYSTEMS

EE/VNIT/Nov 13 Page 91 of 218

Course Outcomes vi. Students are able to understand and analyze the operation of various FACTS devices. vii. Model them for overcoming transmission bottle necks and for improvement of power quality. viii. Simulation of different controllers and analyzing the effects they make. ix. For doing project as FACTS controllers using modeling aspects. x. Helps in getting research areas related to FACTS.

Course POs a b c d e f g h i j k Outcomes × × × × × × × × i ii × × × × ×

iii × × ×

iv × × ×

v × × ×

8. Course Name: EEL414-MICROPROCESSOR APPLICATIONS IN POWER ELECTRONICS AND POWER SYSTEMS Course Outcomes Students are able to: i. Program processor with assembly language as well as ‘C’ language. ii. Design processor based applications. iii. Use simulator / hardware for verifying circuit design.

Course POs a b c d e f g h i j k Outcomes × × × × × i ii × × × × ×

iii × × × × ×

9. Course Name: EEL503-POWER SYSTEM MANAGEMENT Course Outcomes Students are able to i. Learn about reactive power control, coordination between generating stations. ii. Understand about various optimization techniques. iii. Understand the operation and control of power system. iv. Study the working of power system under deregulation.

EE/VNIT/Nov 13 Page 92 of 218

Course POs a b c d e f g h i j k Outcomes × × × i ii × ×

iii × ×

iv × × ×

10. Course Name: EEL507-POWER SYSTEM DYNAMICS –II Course Outcomes Students are able to: i. Understand the phenomena of power system better including obscure ones. ii. Understand the power system stability problem. iii. Analyze the stability problems and implement modern control strategies. iv. Simulate small signal and large signal stability problems.

Course POs a b c d e f g h i j k Outcomes × × × × × × × i ii × × × × × × ×

iii × × × × × × × ×

iv × × × × × × × ×

Elective Subjects: 11. Course Name: EEL408-ADVANCED POWER ELECTRONICS Course Outcomes Students are able to: i. Design converters. ii. Improve the converter performance by analyzing and implementing different control techniques iii. Understand various applications of converters. iv. Solve the research complex problems.

Course POs a b c d e f g h i j k Outcomes × × × × × × i ii × × × × × × × ×

EE/VNIT/Nov 13 Page 93 of 218

iii × × × × ×

iv × × × × × × ×

12. Course Name: EEL413-ADVANCED ELECTRICAL DRIVES AND CONTROL Course Outcomes i. Design of drives for industrial applications. ii. Energy conservation in drives systems using different controls. iii. Analysis of drives performance under various dynamical operating conditions. iv. Operation of new electrical machines with digital control.

Course POs a b c d e f g h i j k Outcomes × × × × × × × × × × i ii × × × × × × × × ×

iii × × × × × × ×

iv × × × × × × × ×

13. Course Name: EEL506-SPECIAL TOPICS IN POWER SYSTEM Course Outcomes Students are able to: i. Expand on research topic and can take it up as M.Tech or Ph.D. topic for research. ii. Take up projects related to synchro-phasor based protection and monitoring. iii. Know about intelligent electronic devices and their applications in power system. iv. Model an electro-mechanical system for turbine-alternator analysis.

Course POs a b c d e f g h i j k Outcomes × × × × × × × i ii × × × × × ×

iii × × × × × × × × ×

EE/VNIT/Nov 13 Page 94 of 218

iv × × × × × × × ×

Semester III Elective Subjects: 14. Course Name: EEL407-ELECTRIC POWER DISTRIBUTION SYSTEM Course Outcomes Students are able to i.Understand concepts of SCADA and energy management system. ii.Analyze the optimizing techniques in DMS. iii. Reconfigure the distribution network. iv.Solve various distribution system problems v.Understand actual practices in Rural/Urban distribution system.

Course POs a b c d e f g h i j k Outcomes × × × × × × × × i ii × × × × × × × ×

iii × × × × × × × × ×

iv × × × × × × × × ×

v × × × × × × × × ×

15. Course Name: EEL417-ENERGY CONSERVATION AND ENERGY AUDIT Course Outcomes Students are able to i.Design energy conversion process. ii.Energy conservation opportunity. iii.Different energy auditing methodologies. iv.Action planning. v.Bridge between mechanical and electrical engineering .

Course POs a b c d e f g h i j k Outcomes × × × × × × × i ii × × × × ×

iii × × × × × ×

EE/VNIT/Nov 13 Page 95 of 218

iv × × ×

v × × × ×

16. Course Name: EEL505-ARTIFICIAL INTELLIGENCE BASED SYSTEMS Course Outcomes Students are able to:

iv. Decide use of appropriate soft computing applications to problems in power system. v. Design and build fuzzy inference systems and ANN based systems. vi. Use genetic algorithm (GA) for solving optimization problems.

Course POs a b c d e f g h i j k Outcomes × × × × × × × i ii × × × × × × ×

iii × × × × × × ×

EE/VNIT/Nov 13 Page 96 of 218

Annexure II

2. Course Name: EEL501-POWER SYSTEM ANALYSIS Course Outcomes Students are able to: i. Calculate steady state voltages and bus angles given the load and generation using Load flow Calculation methods i.e. GSLF, NRLF, FDLF ii. Analyze and calculate fault currents and post fault voltages for shunt, series and simultaneous faults iii. Carryout contingency analysis and ranking iv. Estimate the state of system (bus voltage magnitudes and angles) based on available measurements and other information

Assessments/COs i ii iii iv

Assignments × ×

Examination × × × ×

Research Paper

Projects

Seminar

3. Course Name: EEL502-Power System Dynamics-I Course Outcomes: Students are able to: i. Understand the modeling of Synchronous Machine in detail. ii. Carry out simulation studies of power system dynamics using MATLAB-SIMULINK. iii. Carry out stability analysis with and without power system stabilizer (PSS). iv. Understand the load modeling in power system.

Assessments/COs i ii iii iv

Assignments × × ×

Examination × × ×

Research Paper × × × ×

Projects × × ×

Seminar × × ×

EE/VNIT/Nov 13 Page 97 of 218

[2]. Course Name: EEL504-Digital Protection of Power Systems Course Outcomes: Students are able to i. Understand the importance of digital relays. ii. Understand various protection algorithms. iii. Appreciate limitations of the algorithms. iv. Code the algorithms in MATLAB and experiment with them. v. Cope up with further advances in digital protection.

Assessments/COs i ii iii Iv v

Assignments × ×

Examination ×

Research Paper × ×

Projects ×

Seminar × × ×

[3]. Course Name: EEL409-HVDC Course Outcomes Students are able to v. Understand, analyze and model the HVDC long distance bulk power transmission systems. vi. Simulate converters using MATLAB SIMULINK. vii. Understand necessity of HVDC under deregulated environment. viii. Know different control methods and protective schemes of HVDC systems

Assessments/COs i ii iii iv

Assignments × ×

Examination × × × ×

Research Paper × × ×

Projects × × ×

Seminar × ×

[4]. Course Name: EEL410-ADVANCED CONTROL THEORY Course Outcomes Students are able to i. Understand and analyze dynamical systems. ii. Simulate dynamical systems using MATLAB SIMULINK. EE/VNIT/Nov 13 Page 98 of 218

iii. Implement the state-space based control techniques. iv. Study the recent advances in control theory.

Assessments/COs i ii iii iv

Assignments × ×

Examination × × ×

Research Paper × × ×

Projects × ×

Seminar × ×

[5]. Course Name: EEL421-POWER QUALITY Course Outcomes Students are able to: i. Understand the different power quality indices. ii. Interpret the ill effects of all power quality problems in distribution system. iii. Solve wiring and grounding problems. iv. Analyze harmonics and filters in distribution system. v. Model and simulate circuits with different power quality problems

Assessments/COs i ii iii iv v

Assignments × × × × ×

Examination × × × × ×

Research Paper × × ×

Projects × × ×

Seminar × × × ×

[6]. Course Name: EEL413-ADVANCED ELECTRICAL DRIVES AND CONTROL Course Outcomes Students are able to: i. Design of drives for industrial applications. ii. Energy conservation in drives systems using different controls. iii. Analysis of drives performance under various dynamical operating conditions. iv. Operation of new electrical machines with digital control.

EE/VNIT/Nov 13 Page 99 of 218

Assessments/COs i ii iii iv

Assignments × × ×

Examination × × ×

Research Paper × × ×

Projects × × ×

Seminar × ×

[7]. Course Name: EEL414-MICROPROCESSOR APPLICATIONS IN POWER ELECTRONICS AND POWER SYSTEMS Course Outcomes Students are able to: i.Program processor with assembly language as well as ‘C’ language. ii.Design processor based applications. iii. Use simulator / hardware for verifying circuit design.

Assessments/COs i ii iii

Assignments × ×

Examination × ×

Research Paper ×

Projects ×

Seminar × × ×

[8]. Course Name: EEL411-APPLICATION OF POWER ELECTRONICS TO POWER SYSTEMS Course Outcomes Students are able to v. Understand transmission bottle necks and the methods to overcome them. vi. Know the method of series and shunt compensation for improvement of power quality. vii. Simulate different FACTS controllers and analyzing their effects. viii. Undertake projects on power quality improvements using FACTS devices.

Assessments/COs i ii iii iv

Assignments × × ×

Examination × × × ×

Research Paper × ×

EE/VNIT/Nov 13 Page 100 of 218

Projects × ×

Seminar × ×

[9]. Course Name: EEL507-POWER SYSTEM DYNAMICS –II Course Outcomes Students are able to: i. Understand the phenomena of power system better including obscure ones. ii. Understand the power system stability problem. iii. Analyze the stability problems and implement modern control strategies. iv. Simulate small signal and large signal stability problems.

Assessments/COs i ii iii iv

Assignments × × × ×

Examination × × × ×

Research Paper × × ×

Projects × × × ×

Seminar × × × ×

[10]. Course Name: EEL503-POWER SYSTEM MANAGEMENT Course Outcomes Students are able to: i. Learn about reactive power control, coordination between generating stations. ii. Understand about various optimization techniques. iii. Understand the operation and control of power system. iv. Study the working of power system under deregulation

Assessments/COs i ii iii iv

Assignments × × ×

Examination × × × ×

Research Paper × ×

EE/VNIT/Nov 13 Page 101 of 218

Projects × ×

Seminar × ×

[11]. Course Name: EEL506-SPECIAL TOPICS IN POWER SYSTEM Course Outcomes Students are able to: i. Expand on research topic and can take it up as M.Tech or Ph.D. topic for research. ii. Take up projects related to synchro-phasor based protection and monitoring. iii. Know about intelligent electronic devices and their applications in power system. iv. Model an electro-mechanical system for turbine-alternator analysis.

Assessments/COs i ii iii iv

Assignments × × × ×

Examination × × × ×

Research Paper × ×

Projects × ×

Seminar × × × ×

[12]. Course Name: EEL408-ADVANCED POWER ELECTRONICS Course Outcomes Students are able to: i. Design converters. ii. Improve the converter performance by analyzing and implementing different control techniques iii. Understand various applications of converters. iv. Solve the research complex problems.

Assessments/COs i ii iii iv

Assignments × ×

Examination × × ×

Research Paper × × ×

Projects × ×

EE/VNIT/Nov 13 Page 102 of 218

Seminar × ×

[13]. Course Name: EEL505-ARTIFICIAL INTELLIGENCE BASED SYSTEMS Course Outcomes Students are able to: i. Decide use of appropriate soft computing applications to problems in power system. ii. Design and build fuzzy inference systems and ANN based systems. iii. Use genetic algorithm (GA) for solving optimization problems.

Assessments/COs i ii iii

Assignments × × ×

Examination × × ×

Research Paper × ×

Projects × ×

Seminar × ×

[14]. Course Name: EEL407-ELECTRIC POWER DISTRIBUTION SYSTEM Course outcomes Students are able to i.Understand concepts of SCADA and energy management system. ii.Analyze the optimizing techniques in DMS. iii. Reconfigure the distribution network. iv.Solve various distribution system problems( Restoration / Reconfiguration) v.Understand actual practices in Rural/Urban distribution system.

Assessments/COs i ii iii iv v

Assignments × × × × ×

Examination × × × × ×

Research Paper × ×

Projects × ×

Seminar × × × × ×

EE/VNIT/Nov 13 Page 103 of 218

[15]. Course Name: EEL417-ENERGY CONSERVATION AND ENERGY AUDIT Course Outcomes Students are able to i.Design energy conversion process. ii.Energy conservation opportunity. iii. Different energy auditing methodologies. iv.Action planning. v.Bridge between mechanical and electrical engineering .

Assessments/COs i ii iii iv v

Assignments × ×

Examination × × × ×

Research Paper × × ×

Projects × ×

Seminar × × ×

EE/VNIT/Nov 13 Page 104 of 218

Annexure III

M.TECH (Integrated Power Systems) FIRST SEMESTER EEL501: POWER SYSTEM ANALYSIS (3-0-0-6)

Objectives A. Study of load flow methods. B.Analysis of series, shunt and simultaneous faults. C. Analysis and ranking of contingencies D. Study of state estimation techniques

Contents Load flow: Overview of Newton-Raphson, guass-siedel and fast de-coupled methods, convergence properties, scarcity techniques, handling Qmax violation in constant matrix, inclusion in frequency effects, AVR in load flow, handling of discrete variable in load flow.

Fault analysis: simultaneous faults, open conductor faults, generalized method of fault analysis.

Security analysis: Security state diagram, contingency analysis, generator shift distribution factors, line outage distribution factor, multiple line outages, overload index ranking, multiple deviation ranking.

Power system equivalence: WARD and REI equivalence.

State estimation, sources of error in measurement, Virtual and pseudo, measurement, observability, tracking state estimation, WSL method, bad data corruption

Voltage stability: Voltage collapse, P-V curve, multiple power flow solution, continuation power flow, optimal multiplies based load flow, voltage collapse proximity indices

Text/ Reference Books 1. Power system analysis by Grainger J, J Stevenson. 1994, Mc Graw Hill 2. Computer aided power system analysis by Kusic, Prentice Hall India. 3. Power generation, operation and control by Wood A J and Wollenberg B. F. John, Wiley 1994 4. Faulted power system analysis by Anderson P M, IEEE Press 5. Power system stability and control by Grisby L L , CRC press 2007 6. Computational techniques for assessment of voltage stability and control by Ajjarapu V, Springler 2006

Course Outcomes Should be able to i. Calculate steady state voltages and bus angles given the load and generation using Load flow Calculation methods i.e. GSLF, NRLF, FDLF ii. Analyze and calculate fault currents and post fault voltages for shunt, series and simultaneous faults iii. Carryout contingency analysis and ranking EE/VNIT/Nov 13 Page 105 of 218

iv. Estimate the state of system (bus voltage magnitudes and angles) based on available measurements and other information

i ii iii iv

A ×

B ×

C ×

D ×

EEP501: POWER SYSTEM ANALYSIS LAB (0-0-2-2) LIST OF EXPERIMENTS: 1. To form YBus from the given system data 2. To form ZBUS using addition of Branch and Link algorithm 3. To Write program for Load flow by GS method 4. To write program for Load flow by NR method 5. To write program for balanced fault calculation 6. To write program for unbalanced fault calculation assuming ZBUS for Positive, Negative and Zero Sequence is already available 7. To perform Line outage simulation 8 To perform Generator Outage simulation 9. Simulation of faults using Simulink

EEL502: POWER SYSTEM DYNAMICS-I (3-0-0-6)

Objectives:

A. To study mathematical modeling of synchronous machine. B. To understand the use of small signal analysis in synchronous machine modeling C. To study modeling of excitation system. D. Study of power system stabilizer (PSS). E. To study modeling of different loads in power system.

Contents Synchronous Machines: Per unit systems, Park’s Transformation (modified), Flux-linkage equations, Voltage and current equations, Formulation of State-space equations, Equivalent circuit. Sub-transient and transient inductance and Time constants, Simplified models of synchronous machines. Small signal model, Introduction to frequency model, Excitation systems and Philips-Heffron model, PSS Load modelling, Modelling of Induction Motors, Prime mover controllers.

Reference Books: EE/VNIT/Nov 13 Page 106 of 218

1. Anderson P. M. and Fouad A. A., “Power System Control and Stability”, Galgotia Publications, New Delhi, 1981. 2. Machowski J, Bialek J. and W. Bumby J. R. “Power System Dynamics and Stability”, John Wiley & Sons, 1997 3. Kundur, P., “Power System Stability and Control”, McGraw Hill inc., 1994. 4. Padiyar K. R., “Power System Dynamics, Stability and Control”, Interline Publishing Private Ltd., Bangalore 1998.

Course Outcomes: Students are able to: i. Understand the modeling of Synchronous Machine in detail. ii. Carry out simulation studies of power system dynamics using MATLAB-SIMULINK. iii. Carry out stability analysis with and without power system stabilizer (PSS). iv. Understand the load modeling in power system.

i ii iii iv

A × × ×

B × × ×

C ×

D × × ×

E × ×

EEL504: DIGITAL PROTECTION OF POWER SYSTEMS (3-0-0-6)

Objectives

A. Appreciation of evolution of relays from electromechanical to numerical. B. Study of digital relaying technology and numerical techniques useful for digital protection. C. Study development of algorithms for digital protection. D. Appreciation of lacunae in algorithms and its relation with the underlying model. E. Application of discrete Fourier techniques to power system protection. F. Study recent advances in digital protection of power system.

Contents Evolution of Digital Relays from Electromechanical Relays, Performance and Operational Characteristics of Digital Protection.

EE/VNIT/Nov 13 Page 107 of 218

Mathematical Background to Protection Algorithms: Finite Difference Techniques, Interpolation Formulas: Forward, Backward and Central Difference Interpolation, Numerical Differentiation, Curve Fitting and Smoothing, Least Squares Method, Fourier analysis, Fourier series and Fourier Transform, Walsh Function Analysis. Basic Elements Of Digital Protection: Signal Conditioning: Transducers, Surge Protection, Analog Filtering, Analog Multiplexers, Conversion Subsystem: The Sampling Theorem, Signal Aliasing Error, Sample And Hold Circuits, Multiplexers, Analog To Digital Conversion, Digital Filtering Concepts, The Digital Relay As A Unit Consisting Of Hardware And Software. Sinusoidal Wave Based Algorithms: Sample and First Derivative (Mann and Morrison) Algorithm. Fourier and Walsh Based Algorithms: Fourier Algorithm: Full Cycle Window Algorithm, Fractional Cycle Window Algorithm. Walsh Function Based Algorithm. Least Squares Based Algorithms. Differential Equation Based Algorithms. Traveling Wave Based Techniques. Digital Differential Protection of Transformers Digital Line Differential Protection Recent Advances in Digital Protection of Power Systems

Text/ Reference Books A.T. Jones and S. K. Salman: Digital Protection of Power System, Peter Peregrinus-IEE-(UK) 1995. Y. G. Paithankar, S.R. Bhide, Fundamentals of Power System Protection, PHI, 2 nd edition, 2010. A.G. Phadke and J.S Thorp, ‘Computer Relaying for Power systems’, Wiley/research studies press, 2009 A.G. Phadke and J.S Thorp, ‘Synchronized pharos Measurements and their Applications’, Springer 2008. R.G. Lyons,’ Understanding Digital Signal Processing’, Peason, 2002.

Course outcomes Students are able to vi. Understand the importance of digital relays. vii. Understand various protection algorithms. viii. Appreciate limitations of the algorithms. ix. Code the algorithms in MATLAB and experiment with them. x. Cope up with further advances in digital protection.

i ii iii iv v

A × × × × ×

EE/VNIT/Nov 13 Page 108 of 218

B × × × × ×

C × × × ×

D × × × × ×

E × × × × ×

F × × × × ×

EEP504: DIGITAL PROTECTION OF POWER SYSTEMS LAB (0-0-2-2)

List of experiments:

1) Familiarization with various features of MATLAB/ Simulink environment 2) Demonstrating the phenomenon of aliasing due to under-sampling 3) Implementation of algorithms based on undistorted sine wave approximation like :- a)Sample and its derivative ( Mann and Morrison ) b)3-Sample Technique c) 2-sample technique d)First and Second Derivative technique 4) Implementation of Differential Equation Algorithm (DEA) a) numerical differentiation b) numerical integration 5) Implementation of Sachdev’s Least Squared Error ( LSQ) Algorithm 6) Implementation of Fourier algorithms like a) DFT b) Sliding DFT c) FFT ( decimation in time and decimation in frequency) 7) Studying response of DFT to off-nominal frequency signal and its relevance in synchrophasor applications 8) Implementation of Goertzel’s algorithm for extracting specific frequency component 9) Implementation of digital low-pass FIR filters and plotting their frequency response Text Book A.T. Johns and S.K. Salman , ‘Digital Protection of Power Systems’, Peter Peregrinus/IEE , 1997 Reference Books:- A.G. Phadke and J.S. Thorp, ‘Computer Relaying for Power Systems’, Wiley/Research Studies Press, 2009 A.G. Phadke and J.S. Thorp, ‘Synchronized Phasor Measurements and Their Applications’, Springer 2008 R.G. Lyons, ‘Understanding Digital Signal Processing’,

EEL409: HVDC (3-0-0-6)

Objectives

A. To expose the students to the state of the art HVDC technology. B. To carry out modeling and analysis of HVDC system. C. To understand nature of harmonics and design of filters. EE/VNIT/Nov 13 Page 109 of 218

D. To know the control methods of HVDC converters and systems. E. To develop fault protective schemes for HVDC systems.

Contents Development of HVDC Technology, DC versus AC Transmission, Selection of Converter Configuration Rectifier And Inverter Operation, Digital Simulation Of Converters, Control of HVDC Converters and Systems, Individual Phase Control, Equidistant Firing Controls, Higher Level Controls. Characteristics and Non-Characteristics Harmonics Filter Design Fault Development and Protection, Interaction between AC-DC Power Systems. Over Voltages on AC/DC Side, Multi-Terminal HVDC Systems, Control Of MTDC Systems Modeling Of HVDC Systems, Per Unit System, Representation for Power Flow Solution, and Representation for Stability Studies

Text/ Reference Books 1. J. Arrillaga, High Voltage Direct Transmission, Peter Peregrinus Ltd. London, 1983 2. E. W. Kimbark, Direct Current Transmission, Vol.I, Wiley Interscience, 1971 3. K. R. Padiyar, HVDC Power Transmission Systems, Wiley Eastern Ltd., 1990 4. Erich Uhlmann, Power Transmission by Direct Current, B.S. Publications, 2004

Course outcomes

Students are able to i. Understand, analyze and model the HVDC long distance bulk power transmission systems. ii. Simulate converters using MATLAB SIMULINK. iii. Understand necessity of HVDC under deregulated environment. iv. Know different control methods and protective schemes of HVDC systems

i ii iii iv

A × × ×

B × ×

C × ×

EE/VNIT/Nov 13 Page 110 of 218

D × ×

E ×

EEL410: ADVANCED CONTROL THEORY (3-0-0-6)

Objectives

A. To understand the basic philosophy behind the math modeling and control of dynamical systems. B. To learn the concepts and tests for stability of dynamical systems. C. To introduce the concept of controllability and observability of dynamical system. D. Introduction to some common control system design strategies.

Contents

Review of State Variable Analysis, Controllability and Observability

Digital Control Systems, Models of Digital Control Devices, State Description of Digital Processors and Sampled Continuous Time Plants, Discretisation Of Digital Continuous Time State Equations, Solution Of State Difference Equation.

Controllability and Observability Tests For Digital Control Systems, Stability of Discrete Time Systems, Pulse Transfer Function and Its Realization, Stability Improvement By State Feedback, Pole- Placement Design And State Observers

Lyapunov Stability Analysis: Basic Concepts, Stability Definitions, Stability Theorems, Lyapunov Functions for Linear and Non Linear Systems

Optimal Control: Parameter Optimization Techniques, Lagrange Parameters Techniques, Calculus Of Variation, Unconstrained And Constrained Minimization Of Functional, Two Point Boundary Value Problems, Pontrygin’s Minimum Principle, Optimal Regulator And Tracking Problems, Optimal Digital Control System

Text/ Reference Books

1. M. Gopal, Modern control system theory, Willy Eastern 2. D. E. Kirk, Optimal Control Theory, Prentice Hall, 1970 3. M. Gopal, Digital Control Engineering, Wiley Eastern, 1988 4. T. Kailath, Linear systems 5. B. Friedland, Control system design, McGraw Hill International

Course Outcomes

EE/VNIT/Nov 13 Page 111 of 218

Students are able to

v. Understand and analyze dynamical systems. vi. Simulate dynamical systems using MATLAB SIMULINK. vii. Implement the state-space based control techniques. viii. Study the recent advances in control theory.

i ii iii iv

A × × ×

B × ×

C × ×

D × × ×

EEL421: POWER QUALITY (3-0-0-6)

Objectives To study: A. The aspects of power quality problems. B. Effect of power quality in distribution system. C. Different indices of power quality. D. Different sources of harmonics and its ill effects. E. Wiring and grounding problems and solution. F. Measuring and monitoring of PQ problems and the location of monitoring equipments.

Contents

Introduction to Power Quality, PQ Standards, Terms, Definitions

Voltage Sag and Interruptions, Its Sources, Types, Characteristics, Behaviour of Different Electric Equipments, Concept of Area of Vulnerability

Voltage Swell And Transient Over voltages, Sources Of Over voltages Like Capacitor Switching, Load Switching, Lightening Etc. Problems Due To Over Voltages, Computer Tools For Transient Analysis

Harmonics Distortions, Voltage And Current Harmonics, THD , Sources Of Other Harmonics, Its Ill Effects, Inter-harmonics, Harmonic Filters, Other PQ Problems Like EMI, Noise, Notching , Flicker , DC Offset.

EE/VNIT/Nov 13 Page 112 of 218

Typical Wiring and Grounding Problem Causing Poor Power Quality, Solutions to Wiring and Grounding Problem

Need of Measuring and Monitoring Of PQ Problems, Location of Monitoring Equipments and Frequency

Text/ Reference Books

1. Roger C. Dugan, Electrical power system quality, Mc Graw-Hill, Fourth Edition

2. Alexander Kusko, Power quality in electrical systems, Mc Graw-Hill

3. Ewald Fusch, Mohammad A. S. Masoum, Power quality in power system and electrical machines, Academic press

4. Math H.J., Understanding Power Quality Problems: Voltage Sags and Interruptions by IEEE press.

5. C. Sankaran, Power Quality, CRC Press.

6. Allan Greenwood, Electrical Transients in Power Systems, II edition, John Wiley and Sons

Course Outcomes Students are able to: i. Understand the different power quality indices. ii. Interpret the ill effects of all power quality problems in distribution system. iii. Solve wiring and grounding problems. iv. Analyze harmonics and filters in distribution system. v. Model and simulate circuits with different power quality problems

i ii iii iv v

A × × × × ×

B × × × ×

C × × ×

D × × ×

E × × ×

F × ×

SECOND SEMESTER EEL503: POWER SYSTEM MANAGEMENT (3-0-0-6)

Objectives: EE/VNIT/Nov 13 Page 113 of 218

A. To carry out in-depth study of coordination between various types of generation stations. B. To study optimum power flow problems. C. To understand the economic aspects of power generation. D. To know about environmental aspects in power generation. E. To acquire knowledge about new trends in power system management through current publications.

Contents Optimum Power Flow, Co-Ordination of Steam, Hydro and Nuclear Power Stations. Optimum Generation Allocation to Thermal Units with and Without Transmission Losses, Emission Dispatch Hydro-Thermal Co-Ordination, Unit Commitment. Loss Minimization by Reactive Power Control Active and Reactive Power Optimization by Non- Linear Programming Method Text/ Reference Books 1. P.S.R. Murthy, Power System Operation and Control, Tata McGraw-Hill, New Delhi, 1984 2. L.K. Kirchmayer, Economic Operation of Power System, Economic Operation of Power System, John Wiley, New York, 1958 3. A.J. Wood and B.F. Wollenberg, Power Generation Operation and Control, John Wiley & Sons Inc, 1984 4. Nagrath and Kothari, Power System Engineering, Tata McGraw-Hill, 2003

Course outcomes Students are able to i. Learn about reactive power control, coordination between generating stations. ii. Understand about various optimization techniques. iii. Understand the operation and control of power system. iv. Study the working of power system under deregulation.

i ii iii iv

A × × ×

B × × ×

C × ×

D ×

E × × ×

EE/VNIT/Nov 13 Page 114 of 218

EEL507: POWER SYSTEM DYNAMICS –II (3-0-0-6)

Objectives:

A. Study of system dynamics and its physical interpretation. B. Understanding large signal stability and small signal stability. C. Study of voltage stability. D. Impart knowledge about sub-synchronous resonance. E. Understanding the control action of power system stabilizer. F. Basic knowledge about multi machine stability analysis.

Contents Basic Concepts of Dynamic Systems and Stability Definition Small Signal Stability (Low Frequency Oscillations) Of Unregulated and Regulated System, Effect of Damper, Flux Linkage Variation and AVR

Large Signal Rotor Angle Stability, Dynamic Equivalents And Coherency, Direct Method Of Stability Assessment, Stability Enhancing Techniques, Mitigation Using Power System Stabilizer, Asynchronous Operation And Resynchronization. Multi-Machine Stability

Dynamic Analysis of Voltage Stability, Voltage Collapse Frequency Stability, Automatic Generation Control, Primary and Secondary Control

Sub-Synchronous Resonance and Counter Measures

Text/ Reference Books 1. Kundur, P., Power System Stability and Control, McGraw Hill Inc., 1994 2. J. Machowski, Bialek, Bumby, Power System Dynamics and Stability, John Wiley & Sons, 1997 3. Padiyar K.R.., Power System Dynamics, Stability and Control, B.S. Publications, Hyderabad 2002 4. Leonard L. Grigsby, Power System Stability and Control, CRC Press, Second edition, 2007 5. Ajjarapu V., Computational Techniques for voltage stability assessment & control, Springer, 2006

Course outcomes

Students are able to:

v. Understand the phenomena of power system better including obscure ones. vi. Understand the power system stability problem. vii. Analyze the stability problems and implement modern control strategies. EE/VNIT/Nov 13 Page 115 of 218

viii. Simulate small signal and large signal stability problems.

i ii iii iv

A × × × ×

B × × × ×

C × × ×

D × × ×

E × × × ×

F × × ×

EEP502: POWER SYSTEM DYNAMICS LAB (0-0-2-2)

LIST OF EXPERIMENTS:

1) Study of ATP, PSCAD and MATLAB (simulink) software 2) Simulation of a) machine dynamics b) AVR, PSS c) Fault d) Transients – i) over voltage ii) switching iii) Travelling waves e) SSR f) Stability studies

EEL411: APPLICATION OF POWER ELECTRONICS TO POWER SYSTEMS (3-0-0-6)

Objectives:

A. To impart the knowledge, to tackle the problem of regulatory constraints on the expansion of power transmission network. B. To understand the active and reactive power flow and its control. C. To understand the role of FACTS devices. D. To study the modeling and simulation of FACTS devices. E. To evaluate and mitigate problems resulting due to harmonics.

Contents Introduction of Semiconductor Devices, Steady State and Dynamic Problems in AC Systems, Power Flow

EE/VNIT/Nov 13 Page 116 of 218

Flexible AC Transmission Systems (FACTS): Basic Realities & Roles, Types of Facts Controller, Principles of Series and Shunt Compensation

Description of Static VAR Compensators (SVC), Thyristor Controlled Series Compensators (TCSC), Static Phase Shifters (SPS), Static Condenser (STATCON), Static Synchronous Series Compensator (SSSC) and Unified Power Flow Controller (UPFC)

Modeling and Analysis of FACTS Controllers Control Strategies to Improve System Stability Power Quality Problems in Distribution Systems Harmonics, Harmonics Creating Loads, Modeling, Series and Parallel Resonances, Harmonic Power Flow, Mitigation of Harmonics, Filters, Passive Filters, Active Filters, Shunt, Series, Hybrid Filters

Text/Reference Book 1. N.G. Hingorani, Understanding of FACTs IEE press 2. G.T. Heydt, Power Quality, Stars in a Circle Publications, Indiana, 1991 3. T.J.E. Miller, Static Reactive Power Compensation, John Wiley & Sons, New York, 1982 4. Yong Hua Song, Flexible AC transmission system (FACTS) 5. Recent publications on IEEE Journals

Course Outcomes Students are able to i. Understand transmission bottle necks and the methods to overcome them. ii. Know the method of series and shunt compensation for improvement of power quality. iii. Simulate different FACTS controllers and analyzing their effects. iv. Undertake projects on power quality improvements using FACTS devices.

i ii iii iv

A × × × ×

B × ×

C × × × ×

D × ×

E × ×

EEL414: MICROPROCESSOR APPLICATIONS IN POWER ELECTRONICS AND POWER SYSTEMS (3-0-0-6)

Objectives

EE/VNIT/Nov 13 Page 117 of 218

A. To learn architecture and instruction set of a processor. B. To learn embedded ‘C’ programming. C. To study interfacing concepts and applications in area of power system and power electronics.

Contents Review Of Microprocessors, Architecture And Programming Of 8085 Microprocessor, Its Interfacing With Data Converters And Various Programmable Interface Devices Such As Multipurpose Programmable Device 8155, Programmable Peripheral Interface 8255, Programmable Counter 8254, DMA Controller 8257, Programmable Interrupt Controller 8259, And Programmable Keyboard / Display Interface 8279, Serial I/O And Data Communication. Microprocessor Vs Microcontroller, Architecture And Programming Of 8051 Microcontroller: Special Function Registers, Internal RAM And ROM, Interfacing With External Memory, Programmable Built In Ports, On Chip Counters / Timers, Serial Data Input/Output, Interrupts, Assembly Language Programming And Applications. Op-Amp Based Analog Signal Conditioning Circuits, Analysis And Design Of Inverting, Non- Inverting And Instrumentation Amplifiers, Filters And Comparators, Clippers, Clampers And Precision Rectifier Circuits. Microprocessor Based Applications: Measurement of Various Electrical and Non-Electrical Parameters, Speed Monitoring and Control Of Various Motors, Control of Firing Circuits of Power Electronics Systems, Numerical Protective Relays Etc.

Text/ Reference Books 1. Gaonkar Ramesh S., Microprocessor Architecture, Programming and Applications with the 8085, Penram International, 1997 2. Ayala, Kenneth J., the 8051 Microprocessor Architecture, Programming and Applications; Penram International, 1996 3. Gayakwad, Ramakant A., Op-amps and Linear Integrated Circuits, Prentice Hall of India, 1998 4. Ram B., Fundaments of Microprocessors and Microcomputers, Dhanpat Rai Publications, 2000 5. Stagg G.W. & El-Abiad A.H., Computer Methods in Power System Analysis, McGraw Hill Co., Ltd., Tokyo

Course Outcomes Students are able to: i. Program processor with assembly language as well as ‘C’ language. ii. Design processor based applications. iii. Use simulator / hardware for verifying circuit design.

i ii iii

A × × ×

B × × ×

EE/VNIT/Nov 13 Page 118 of 218

C × × ×

ELECTIVE EEL413: ADVANCED ELECTRICAL DRIVES AND CONTROL (3-0-0-6)

Objectives A. Analysis of AC/DC motors. B. Design procedure of controllers in closed loop operation with converters. C. Various new control methods to improve the performance of the motors. D. Introduction to new electrical machines.

Contents Dynamics of Electric Drives: Basic Elements of an Electric Drives, Classification of Electric Drives, Stability Consideration of Electric Drives

Analysis Of Electric Machinery: Voltage And Torque Equations In Machines Variables, Theory of Direct Current Machines, Theory Of Symmetrical Induction Machines, Theory Of Synchronous Machines, Reference Frame Theory, Literalized Machine Equations

Solid State Converters for Drives: Solid State Converters for DC Drive System, Speed Control Techniques, Variable Frequency Control Of A. C. Motors Using Inverters, Slip Energy Recovery And Rotor Resistance Control Of Induction Motor

Control of DC/AC Machines: State Variable Approach, Scalar / Vector Control of Induction Motors. Digital Control of Drives: Application of Microprocessors / Computers in Electrical Drives Control, Switch Reluctance Motors and Permanent Magnet Brushless Dc Motors

Text/ Reference Books 1. Dubey G.K., Fundamentals of Electrical Drives, CRC Press, 2002 2. Krause P.C., Analysis of Electrical Machinery, McGraw Hill 1987 3. Bose B.K., Power Electronics and AC Drives, Printice Hall, NJ, 1985 4. Leonhard W., Control of Electrical Drives, Narosa Publishing House, India 1984 5. Bridges I. & Nasar S.A., Electric Machine Dynamics, Macmillan Publishing Company, NY, 1986 6. Krishnan R., Electric Motor Drives, Modeling, Analysis and Control, Prentice Hall India, 2003

Course Outcomes i. Design of drives for industrial applications. ii. Energy conservation in drives systems using different controls. iii. Analysis of drives performance under various dynamical operating conditions. iv. Operation of new electrical machines with digital control.

i ii iii iv

EE/VNIT/Nov 13 Page 119 of 218

A × × × ×

B × × × ×

C × × × ×

D × ×

EEP413: ADVANCED ELECTRIC DRIVES LAB (0-0-2-2)

LIST OF EXPERIMENTS: 1) Analysis of Separately excited DC motor. 2) Study of speed control of DC motor using 3-phase fully controlled bridge rectifier. 3) Study phase controlled AC regulator. 4) Transformation of ac induction machine variables from one reference frame to another. 5) Induction motor modeling in state space form. 6) Study of sinusoidal pulse width modulation (SPWM) Technique. 7) Study of variable speed induction motor drive using V/F control. 8) Study of current regulated PWM field oriented controlled induction motor drive.

EEL506: SPECIAL TOPICS IN POWER SYSTEM (3-0-0-6)

Objectives:

A. To acquaint the students with current research topics in field of power systems. B. Understanding the basic concepts of synchro-phasor. C. Basic knowledge about smart grid principles. D. To impart knowledge about substation automation. E. To know about deregulated power system and different market concepts. F. Having an idea about sub-synchronous resonance and its mitigation.

Contents Understanding Power Quality, Types Of Power Quality Disturbances, Power Quality Indices, Causes and Effects of Power Quality Disturbances

Radio Interference, Supply Standards, Elimination / Suppression Of Harmonics, Classical Solutions And Their Drawbacks, Passive Input Filters, High Power Factor Pre Regulator, Switching Control Circuit, Transformer Connections.

Electromagnetic Compatibility, Constant Frequency Control, Constant Tolerance Band Control, Variable Tolerance Band Control, Continuous Current Control

Need and Conditions for Deregulation Introduction of Market Structure, Market Architecture, Spot Market, Forward Market and Settlements. Review of Concepts: Marginal Cost of

EE/VNIT/Nov 13 Page 120 of 218

Generation, Least Cost Operation, Incremental Cost of Generation, Old Vs. New Power System Operation Transmission Network and Market Power, Power Wheeling Transactions, and Marginal Costing, Transmission Costing, Congestion Management Methods, Market Splitting, Counter Trading, Effect Of Congestion Lmps-Country Practices

Text/ Reference Books 5. R C Duggan, Power Quality 6. A J Arrillga, Power Systems Harmonics 7. S Stoft, Power Systems Economics: Designing markets for Electricity 8. S Kirschen and G Strbac, Fundamentals of Power System Economics

Course Outcomes Students are able to: i. Expand on research topic and can take it up as M.Tech or Ph.D. topic for research. ii. Take up projects related to synchro-phasor based protection and monitoring. iii. Know about intelligent electronic devices and their applications in power system. iv. Model an electro-mechanical system for turbine-alternator analysis.

i ii iii iv

A × ×

B × × ×

C × ×

D × × ×

E × ×

F × ×

EEL408: ADVANCED POWER ELECTRONICS (3-0-0-6)

Objectives A. To impart knowledge of converter design and advanced switching devices B. To analyze various converters C. To study various control strategies for converter performance improvement.

Contents Overview of Power Semiconductor Devices- BJT, IGBT, MOSFET, GTO, their characteristics, rating and protection, Phase controlled (AC/DC) semi/fully controlled converters, dual converters, converters with improved performance.

EE/VNIT/Nov 13 Page 121 of 218

Buck, boost, buck-boost, cuk and full bridge dc-dc converters, their analysis in continuous and discontinuous conduction mode. Cycloconverters. DC link inverters- voltage/current control, PWM techniques, Harmonic reduction, resonant converters. SVCs and Power conditioners.

Text/ Reference Books

1. Mohan N, Undeland T.M., Robbins W. P., Power Electronics, Converters, Applications and Design, John Wiley & Sons, 1995 2. Rashid M. H., Power Electronics, Circuit, Devices and Applications, Prentice-Hall of India, 3 rd Edition 2000 3. Lander C. W., Power Electronics, McGraw Hill, 1993

Course Outcomes The students are able to: v. Design converters. vi. Improve the converter performance by analyzing and implementing different control techniques vii. Understand various applications of converters. viii. Solve the research complex problems.

i ii iii iv A × × B × × C × × ×

EEP499: POWER ELECTRONICS LAB (0-0-2-2)

LIST OF EXPERIMENTS:

1) Study of Buck converter. 2) Study of Boost converter. 3) Study of Flyback converter. 4) Study of Forward converter. 5) Study of different PWM techniques for single phase inverter 6) study of AC- phase controlled converter using TRAIC 7) Study of DC circuit breaker.

Simulation using PSIM Software: 1. Controlled Rectifier (single and three phase). 2) Chopper circuit (Buck / Boost / Bick-Boost Converter). 3) Single Phase converter. 4) Three Phase converter.

THIRD SEMESTER

EE/VNIT/Nov 13 Page 122 of 218

EEL505: ARTIFICIAL INTELLIGENCE BASED SYSTEMS (3-0-0-6)

Objectives:

A. To learn various theoretical aspects of four major approaches to artificial intelligence namely, artificial neural network, fuzzy logic, genetic algorithm and expert systems. B. To study methodologies for applying AI techniques to the problems in the field of electrical engineering.

Contents Introduction:-Brief History Of Artificial Intelligence, Comparison With Deterministic Methods Aims Objectives Of Artificial Intelligence And Current State Of The Art. Fuzzy Logic: Introduction to Concepts, Fuzzy Reasoning, De-fuzzification, Adaptive Fuzzy Systems

Expert Systems: Introduction to Knowledge Based Systems Structure and Definitions Knowledge Acquisition Inference Engine, Forward and Backward Chaining Artificial Neural Networks: Basic Concepts, Back-Propagation, Multi-Layer Networks, Introduction to Various Paradigms, Learning in Neural Networks Evolutionary Computing (Genetic Algorithms): Basic Concepts Applications Of AI To Power Systems Like Alarm Processing, Condition Monitoring, Protective Relaying etc.

Text/ Reference Books

1. Kevin Warwick, Arthur Ekwue and Raj Aggarwal, Artificial Intelligence Techniques in Power Systems, the Institution of Electrical Engineers, London, 1989 2. Bart Kosko, Neural networks and Fuzzy Systems, Prentice Hall of India, 1990 3. Dillon T.S. and Laughtonm M.A., Expert system applications in power systems, Prentice Hall International, 1992 4. Jacek M. Zurada, Introduction to artificial neural Systems, Jaico Pub. House, 2003 5. Dan W. Patterson, Introduction to artificial intelligence & Expert System, Prentice Hall of India, 2004

Course Outcomes Students are able to:

i. Decide use of appropriate soft computing applications to problems in power system. ii. Design and build fuzzy inference systems and ANN based systems. iii. Use genetic algorithm (GA) for solving optimization problems.

i ii iii

A × × ×

EE/VNIT/Nov 13 Page 123 of 218

B × × ×

EEL407: ELECTRIC POWER DISTRIBUTION SYSTEM (3-0-0-6)

Objectives: To study A. Power management. B. Automation-Supervisory Control and Data Acquisition (SCADA) C. Load and energy forecasting D. Distribution Management Systems (DMS) E. Optimization in DMS F. Maintenance of Automated Distribution System

Contents Load and Energy Forecasting: Distribution of Power, Management, Power Loads, Load Forecasting, Power System Loading, Technological Forecasting. Need Based Energy Management (NBEM) – Objectives, Advantages, Distribution Management System (D.M.S.)

Distribution Automation: Definition, Restoration / Reconfiguration of Distribution Network Different Methods and Constraints. Interconnection of Distribution, Control & Communication Systems

SCADA: Introduction, Block Diagram, SCADA Applied To Distribution Automation. Common Functions of SCADA, Advantages of Distribution Automation through SCADA.

Calculation of Optimum Number of Switches, Capacitors, Optimum Switching Device Placement in Radial Distribution Systems Sectionalizing Switches – Types, Benefits Bellman’s Optimality Principle, Remote Terminal Units.

Maintenance of Automated Distribution Systems, Difficulties in Implementing Distribution Automation in Actual Practice, Urban/Rural Distribution, Energy Management

Text/ Reference Books 1. Pabla A. S., Electric Power Distribution , Tata McGraw Hill Publishing Co. Ltd., New Delhi, Fourth Edition, 2000 2. Khedkar M. K., Electrical Power Distribution and Automation, 2012, University press publications.

Course Outcomes Students are able to: i. Understand concepts of SCADA and energy management system. ii. Analyze the optimizing techniques in DMS. iii. Reconfigure the distribution network. iv. Solve various distribution system problems( Restoration / Reconfiguration) v. Understand actual practices in Rural/Urban distribution system.

EE/VNIT/Nov 13 Page 124 of 218

i ii iii iv v

A × × × ×

B × ×

C × × × ×

D × × × ×

E × × ×

F × × ×

EEL417: ENERGY CONSERVATION AND ENERGY AUDIT (3-0-0-6)

Objectives:

A. Industrial utilization of primary and secondary energy B. Different energy conversion processes. C. Energy auditing procedure D. Energy conservation methods. E. Preventions to reduce pollution. F. Techniques to improve efficiency .

Contents Energy Conservation- Energy Scenario Overview, Basics Of Energy And Its Various Forms, Global Environmental Concerns

Energy Efficiency In Thermal Utilities- Fuels And Combustion, Boiler, FBC Boilers, Cogeneration

Energy Efficiency In Electrical Utilities- Electric System, Electric Motors, Fans And Blowers, Pump And Pumping System, Cooling Tower, Lighting System, Energy Efficient Technologies In Electrical System

Energy Assessment- Energy Performance Assessment for Thermal Utilities and Electrical Utilities

Energy Audit- Energy Management and Audit, Material and Energy Balance, Energy Action Planning, Financial Management, Project Management

Text/ Reference Books 1. Yamayee Zia A. & Bala Jujan L., Electromechanical Energy Devices and Power System, Wiley, 1999 2. Nasar A., Electric Energy systems, Prentice Hall, 1995 EE/VNIT/Nov 13 Page 125 of 218

Course Outcomes Students are able to:

i. Design energy conversion process. ii. Energy conservation opportunity. iii. Different energy auditing methodologies. iv. Action planning. v. Bridge between mechanical and electrical engineering .

i ii iii iv v

A × × ×

B × × ×

C × × × × ×

D × × × ×

E × ×

F × × × × ×

EE/VNIT/Nov 13 Page 126 of 218

Annexure IV

Name of Qualificatio Designation Distribution of Number IP R&D and Holdin Interactio of the n, and date of teaching load R consultanc g n research faculty university, joining the (%) publicatio s y an with ns in member and institution work with incubat outside year of journals amount ion world and graduation unit conference

since joining Dr. A.G. BE(1970) Professor -- 80 20 Total (56) ------Kothari MTech 18.12.1972 Journal(19 (1972) )

PhD(IITK)

1984 Dr. K.L. B.E.(1971) Professor --- 50 50 Jour.(20) 0 ------Thakre MTech Conf.(20) 1 (1973) Total(20)

Ph D

(2001) Dr. B.E.(1988) Professor 20 30 50 125 0 05 UK(2012 H.M. M.E. 01/07/1989 1 ) Suryava IISc, B’lore South nshi Korea PhD (1999) (2006)

Dr. BE, Nag Lecturer, 00 56 44 Jour(35) 0 R&D:50L M.V. Uni., 1980 1991 Conf(101) 4 akhs Aware M Tech Total(136) Consulten IITB 1982 cy: > 10 Ph D, 2002 Lakhs

Dr. S.R. B.E.(1978) Associate 00 66 34 Jour(12) -- FIST: --- Bhide VRCE Professor Conf.(28) - 14 Lakhs MTech 12/7/1984 Total(40) See list

(1980)

VRCE

PhD

(2000) Nag. Uni. Dr. B.S. BE(1983) Associate 00 75 25 Jour(02) ------2007 Umre Professor Conf.(16) - USA

EE/VNIT/Nov 13 Page 127 of 218

MTech 2/7/1984 Total(18) 2010 (1986) USA PhD(2009) 2013 USA Dr V.B. B.E.1982 A.P. 01-8- 33 33 33 Total(20) ------Borghat (NU) 85 - -- e M Tech ASP-18-8- 98 (1984)NU

Ph D (2007)NU Mrs. M B. E. Associate Journal N Nil No See list A. (Electrical) Prof. (10) il Chaudh (1989) Conf.(06) ari (17 July Total(16) M. Tech. 2008) (Integrated Power System) (2000) Ph. D.(2007 Dr. P.S. BE(Shivaji Associate 12 69 19 Total(41) N 01MHRD Nil Worked Kulkarn Univ) Professor il Sponsored as a i (1987) 16/03/1995 R&D Member ME Proj(2004 of BoS in (Amravati - EE at i) Uni)(1994) 2007)Rs.0 Govt. Ph D (2002) 7Lakhs COE, Nag Uni Amravati ; ii)GHRC E, Nagpur; iii)YCCE , Nagpur

Worked as a Member of D.G. set Procurem ent Committe e, NEERI, Nagpur.

EE/VNIT/Nov 13 Page 128 of 218

Dr. AMIE Associate 33 66 33 Jour(07) ------M.R. (1988) Prof essor Conf(24) - Ramtek MTech STA Total(31) e (1993-NU) (29.9.89) PhD Lect. (2008 NU) (6.3.95) Asst.Prof (11.5.06) Dr. S.S. B.E.(1986 ) Associate 33 33 33 Total(18) ------Worked Bhat M Tech Professor - with Prof. (1993 ) 21/4/1987 Van Ph D-IITD Cutsem (2009) Univ Leige, Belgium Nov.- Dec. 2010 Dr. B.E. (1981) Associate 34 66 00 Journal (2) N Nil No --- (Mrs) VRCE/NU Prof. Conf. (13) il A.S. M Tech 6/3/1995 Total(15) Junghar (1985) e VRCE / NU Ph D (2008)VNI T /NU Dr. M S BE Associate 10 90 00 Ballal 1993 Professor M Tech 4/4/2012 1997 PhD 2007 Dr. V S B Tech Associate 00 80 20 Jour(14) Kale 1986 Professor Conf.(22) Nag. Uni 15/12/1988 Total(36) M Tech (1994) Nag. Uni PhD (2011)

Prof. MTech Assistant 00 50 50 Total(08) ------S.R. ( Roorkee Professor Tambay Univ.) 1977 3/8/81 Dr Ph D Assistant 48 52 00 Journal (7) Delivered (Mrs) (2010) Professor Conf. (6) expert N.R. VNIT (18.5.2006) Total(13) lectures Patne in Polytechn

EE/VNIT/Nov 13 Page 129 of 218

ic college

Prof. A BTech Assistant On -- Conf.(01) BARC Attended S 2002 Professor QI Total(01) Project 27 GNC- Dhabale Nag Uni 16/05/2006 P- Lakhs 2012 at MTech Ph -- USA (IITB) D 2004 De Ph D put Ongoing IISC B’lore

R.J. BE (1998) Assistant Satputal M.E (EPS) Professor Total(08) 03 ey (2001) (18.7.2008) Ph D Ongoing VNIT Dr. BE Associate 50 40 10 Total(02) ------Swapnaj Utkal Univ Professor - it (On --- Pattnaik MTech NIT deputation) Rourkela 1st June 2003 2012

PhD, NIT Rourkela 2011

EE/VNIT/Nov 13 Page 130 of 218

Annexure V

Dr. A.G. Kothari has specialized in H V D C systems. Has contributed 56 papers in reputed journals and conferences. Right from 1972 to the present he has taught M tech ( IPS) courses like Controls Systems I , Control Systems II , Power System Stability , Power System Dynamics , HVDC Systems over the years. He is an accomplished teacher with vast experience.

Dr. K. L. Thakre has specialized in Power System Protection in particular and Power Systems in general. He has developed many courses like Microprocessor Applications to Power Systems, Applications of Power Electronics to Power Systems, Power Station Practice, Control Systems, and Economic Operation of Power Systems. He has publications to his credit in reputed International and National journals and conferences. He is a gifted teacher with keen interests in wide areas of Electrical Engineering.

Dr. H. M. Suryawanshi has specialized in Power Electronics and Power System. He taught Power Electronic Design, Advanced Power Electronic Drives, PE Converters. He has published 53 research papers in reputed International Journals and about 100 papers in national and international conferences. He has undertaken and successfully completed sponsored research projects in the area of design of soft switched converters and inverters. The NAMPET project is one of such projects. He is a fellow of National Academy of Engineering (FNAE).

Dr. M. V. Aware has specialized in High voltage Engineering, Electrical Drives and control, Efficient Energy Conversion, Power Quality. He has developed the courses :- Electrical drives –I, Electrical drives –II, Advanced Power Electronics, Electrical Power Utilisation, Energy Conservation and Audit, Electrical Installation Design. He has ten years of industrial experience. His main research interests are in the area of Energy Storages and Multiphase Drives.He has published more than 150 papers in International/ National Journals/ conferences. He has contributed chapters in three books and also the monogram. He has completed International/Sponsered Reseach projects and many consultancy projects in the area of energy audit and conservation.He was awarded an Academic Commonwelth fellowship in UK (2011-12) and also visited more than 25 univercities abroad.

Prof. V.N. Rajurkar has specialized in Power System Economics, Energy System Managent, Control Systems , Power System Stability , Power System Dynamics, Renewable Energy Systems. He has published 15 research papers.

Dr. S.R. Bhide has specialized in Digital Protection of Power Systems. He has co-authored a text book on Power System Protection (2003 , PHI , New Delhi). The book is presently in its 2 nd Edition (2010) and its 12 th printing (March 2013). He has developed courses like Integrated Electronics now replaced by Numerical Protection of Power Systems, Artificial Intelligence Based Systems, and Microprocessor Applications to Power Systems. He has published 40 papers in reputed National and International journals and conferences. He is an accomplished teacher with 29 years of teaching experience.

Dr. B.S. Umare has specialized in Power Systems. He has worked in the area of tensional oscillations in turbo-generators. He has taught courses like Electric Machines I and Electric Machines II. He has published 18 research papers. He has presented papers in USA in 2007, 2010 and 2013.

Dr. V.B. Borghate has specialized in Power Electronics. He has taught courses like Electric EE/VNIT/Nov 13 Page 131 of 218

Machine Design, Special Topics in Power Electronics, Power Electronics, Advanced Power Electronics etc. He has developed courses like Electric Machine Design, Special Topics in Power Electronics. He has published 20 research papers in reputed Journals and Conferences.

Dr. Mrs. M.A. Chaudhary has specialized in Power Electronics. She has published 16 research papers. She has developed courses like Processor Applications in Electrical Engineering, Advanced Power Electronics, and Electrical Drives etc.

Dr. P.S. Kulkarni has specialized in Renewable Energy Sources. He has taught course like Power System Dynamics, Power System Stability, Renewable Energy Systems to M Tech ( IPS) class. He has undertaken and successfully completed an MHRD sponsored research project in 2004-2007 in the area of enhancement of power system stability. The outlay of the project was Rs. 7 Lakhs. He has 41 research papers to his credit in reputed International and National journals and conferences.

Dr. M.R. Ramteke has specialized in Power Electroics. He has published 31 research papers in reputed International and National Journals and Conferences. He has contributed to development of courses like Power Electronics , Multi Level Inverter Design , Advanced Drives etc.

Dr. S.S. Bhat has specialized in Power System Stability. He completed his Ph D from IIT , Delhi. He also has expertise in Computer Programming. He has developed courses like MATLAB programming , Utilization of Electrical Energy. He has association with Prof. Van Cutsem at Univ. of Leige, Belgium, where he has done post-doctoral work on Power System Blackout in Nov.- Dec. 2010. He has published 18 research papers in reputed journals and conferences. He has pioneered the use of Power System Analysis software ‘Euro-Stag.

Dr. Mrs. A.S. Junghare has specialized in Power System area. She has published 15 research papers. She has taught Controls Systems I , Control Systems II , Distributed Data Digital Control Systems. She has developed courses like Control Systems I and II and Distributed Data and Digital Control.

Dr. M.S. Ballal has specialized in Power System. He has published research papers in reputed National and International Journals. He has contributed to the development of Electrical Estimation and Design.

Dr. V.S. Kale has specialized in Artificial Intelligence Applications to Power Systems. He has developed courses like MATLAB programming, Microprocessor Applications to Power Systems. He has taught Power System Protection, Control Systems , Microprocessor Applications to Power Systems, Numerical Protection of Power Systems etc, to UG and PG classes. He has 36 research papers to his credit. Prof. S.R. Tambay has specialized in the general area of Power Systems with specialization in Power System Protection, Electrical Machines , Power System Stability , Power System Dynamics. He has pioneered the use of EMTP for power system studies in the Department. He has 8 research publications to his credit. Currently he is perusing his Ph D in the area of Wide Area Protection and Control using synchrophasor techniques at VNIT, Nagpur. Dr. Mrs. N.R. Patne has specialized in the area of Power Systems. She has 13 research papers to her credit. She has contributed to the development of Power Quality, Electric Power Systems II.

Prof. A.S. Dhable is currently perusing his Ph D at IISc Bangalore in the area of Control Systems. He has contributed to the development of Advanced Electrical Drives. He has 2 research publications to his credit. EE/VNIT/Nov 13 Page 132 of 218

Prof. R.J. Satputaley is currently pursuing her Ph D at VNIT, Nagpur in the area of Power Quality. She has published 03 papers journal and 08 papers in the National and International Conferences. She has contributed to the development of subject Power Quality and Electric Drives.

Dr. Swapanjit Pattnaik has specialized in the area of Power Electronics. He has published 3 papers.

Annexure VI

List of research publications

1. Prof. H. M. SURYAWANSI Refereed International Journals:

[1]. M. S. Ballal, Hiralal Suryawanshi , Venkateswara Reddy .T Reddy, “Mitigation of Voltage Dip and Voltage Flickering by Multilevel D-STATCOM,” International Journal Advances in Power Electronics,hindawi publication, Vol. 2012, Oct.2012, Article ID 871652, pp.1-11. [2]. M. S. Ballal and H. M. Suryawanshi, "Corrective Measures in Islanding Scheme at Bhusawal Thermal Power Station –Case Study," International Journal of Emerging Electric Power Systems , bepress, Volume 13, Issue 2, June 2012. [3]. U. V. Patil, H. M. Suryawanshi , M. M. Renge, "Torque Ripple Minimization in DTC Induction Motor Drive Using Space Vector Controlled Diode Clamped Multilevel Inverter, " Electrical Power components and Systems (EPCS) , Taylor & Francis, Vol. 40, May-2012, pp.792-806 , U. K.). [4]. R. A. Keswani, M. M. Renge and H. M. Suryawanshi , “Identification of Converter Switch Faults using Multi-Resolution Analysis,” International Journal of Research in Engineering and Applied Sciences, Vol. 1, Issue 2, 2012. [5]. A. K. Mishra, M. R. Ramteke and H. M. Suryawanshi, “Comparative Evaluation of AC-DC Converters for Input Current Harmonics: A Study,” European Association for Renewable Energies and Power Quality, Spain, Accepted. [6]. Mrs. M. A. Chaudhari and H. M. Suryawanshi and M. M. Renge, “A Three-Phase Unity Power Factor Front-end Rectifier for AC Motor Drive,” IET Power Electronics, Vol. 5, No. 1, Jan- 2012, pp.1-10 , U. K . [7]. M S Ballal, D M Ballal and H M Suryawanshi , “Wing Technique: A Novel Approach for the Detection of Stator Winding Inter-turn Short Circuit and Open Circuit Faults in Three Phase Induction Motors,” Journal of Power Electronics (JPE ), Vol. 12, No. 1 January 2012. [8]. M. M. Renge and H. M. Suryawanshi , “Multilevel Inverter to Reduce Common Mode Voltage in AC Motor Drives Using SPWM Technique,” Journal of Power Electronics (JPE ), Vol. 11, No. 1, January 2011, pp.21-27. [9]. M. M. Renge and H. M. Suryawanshi , “Three-Dimensional Space Vector Modulation to Reduce Common-Mode Voltage for Multilevel Inverter,” IEEE - Trans. on Industrial Electronics, Vol. 57, No.7, July 2010, pp.2431 (USA) [10]. M. M. Renge, H. M. Suryawanshi and M. A. Chaudhari, “Digitally Implemented Novel Technique to Approach Natural SPWM,” EPE -European Power Electronic and Drives – Journal, Vol. 20, No.1, March 2010, pp.13-20, Belgium ( ISI Recognized )

EE/VNIT/Nov 13 Page 133 of 218

[11]. Vasant M. Jape, H. M. Suryawanshi , J. P. Modak, “Perspective on Elimination of Flywheel in Process Machines using Solid State Motor Control Techniques,” International Journal Of Emerging Technologies and Applications in Engineering, Technology And Sciences (IJ-ETA- ETS),Vol.3, No.1, Jan.2010 , pp.116-121 National refereed Journal: [1].M S Ballal, D M Ballal and H M Suryawanshi , “Wing Technique Approach for the Detection of Stator Winding Faults in Three-phase Induction Motors,” Institute of Engineer (IE ), India,Vol 91, March 2011, pp.1-7. [2].M S Ballal, D M Ballal and H M Suryawanshi , “Impact of Power Quality on the Performance of Induction Motor,” Institute of Engineer (IE ), India, Vol. 90, March 2010, pp.3-8. [3].M S Ballal, Z J Khan, H M Suryawanshi and R L Sonolikar, “ANFIS Approach for the Detection of Inter-turn Insulation and Bearing Wear Faults in Induction Motor,” Institute of Engineer (IE ), India, Vol 90, March 2010.

2. Prof. Mohan V. Aware JOURNALS: [1]. Mohan V. Aware and Sharad W Mohod, “Integration of wind energy into the electric grid-Issues of power quality”, ELCTRICAL INDIA , Vol 52, No. 12, Dec 2012, pp.150-158. [2]. V.B.Virulkar and Mohan V. Aware, “Flicker voltage and its international standards” Electrical India,vol. 52, No.7,July 2012,pp.48-58. [3]. S. W. Mohod, S. M. Hatwar, M.V. Aware “Wind energy generation interfaced system with power quality and grid support” Advanced Material Research , Vols. 403-408,2012,pp.2079-2086. [4]. S B Mohod & M.V.Aware, “Micro wind power generator with battery energy storage for critical load”, IEEE System Journal , Vol. 6, No.1, 2012,pp.118-125. [5]. V.B.Virulkar and Mohan Aware, ‘Harmonic Problem due to Saturable Devices in Steel Re-rolling Plant: A case study” The Journal of the CPRI , Vol.7, N0.2, Sept 2011, pp. 131-144. [6]. S.B.Mohod and Mohan Aware, “Power quality issues and its improvement in wind energy generation interface to grid system”, MIT International Journal of Electrical & Instrumentation Engineering , Vol. 1, No. 2. pp 116-122, Aug. 2011. [7]. V. B. Virulkar, M. Aware and M Kolhe, “Integrated battery controller for distributed energy systems” Int Journal ENERGY- 2011, EPSR , Vol. 36, May 2011, pp.2392-2398. [8]. S.B.Mohod and Mohan V. Aware, “Battery energy storage to strengthen the wind generation in integrated power system ”, Journal of Electronic Science and Technology , Vol. 9, No.1, March 2011, pp. 23-30. [9]. S.B. Bodkhe & M.V. Aware,” Reconstruction of phase current in a dc-link in a single sensor Induction Motor Drive using New Algorithm,” International Journal of Modeling and Simulation , Vol.31,No.1,2011, pp. 42-53. Acta Press Journal, UK., DOI: 10.2316/ Journal.205.2011.1.205-5296. [10]. S.W.Mohod, S.M.Hatwar and M. V. Aware,“ Grid support with variable speed wind energy system and battery storage for power quality” , Energy Procedia,12 (2011), Sciencedirect, Elsevier publisher ,pp.1032-1041. [11]. S.B.Mohod and Mohan V. Aware,” Laboratory development of wind turbine simulator using variable speed induction motor”, Int. Journal of Engineering ,Science and Technology ,Vol.3,No.5,2011,pp.73-82. [12]. S.W. Mohod, Mohan V. Aware “A STATCOM - Control Scheme for Grid Connected Wind Energy System for Power Quality Improvement” IEEE System journals , Vol.4, No.3, Sept.2010, pp346-352. [13]. S.B.Bodkhe and M.V.Aware, “Robust Method for Stator Current Reconstruction from Dc Link in a Sensorless Induction Motor Drive “, IJEST Special issue on Power Electronics and intelligent motion control, Vol. 2, No.10, 2010, pp.87-99. EE/VNIT/Nov 13 Page 134 of 218

[14]. Gourav N Goyal, Mohan V. Aware, “ Speed observer based load angle control of induction motor drive”, ACEEE International Journal on Electrical and Power Engineering, Vol. 1, Issue 2, pp.34-39, 2010. [15]. V.B Virulkar.and M.V.Aware “Modeling and control of DSTATCOM with BESS for mitigation of flicker” Asian Power Electronic Journal , Vol. 4, No.1, 2010,pp.8-15. [16]. Sharad W. Mohod and Mohan V. Aware, “Micro wind power generators with BESS for UPS applications” Open Renewable Journal , Vol.3, 2010. [17]. S.B.Bodkhe and S. G. Tarnekar , M.V.Aware, , ”Induction Motor Model Selection Criterion for Parameter Estimation in Speed Sensorless Drive”, International Journal of Power Electronics- Special Issue on Motion Control , Inderscience press, Vol. 2, No.3, 2010, pp. 215-246 . [18]. M. V. Aware,”Six-phase inverter operation with SVPWM for a symmetrical single neutral load”, Accepted for publications in Electrical Power Components and systems, Taylor and Francis.

INTERNATIONAL CONFERANCES:

[1]. Mahesh Pandya M.V. Aware, “Enhancing the distribution capacity through energy storage” International conference on Industrial Technology, Cape Town,South Africa ICIT 2013, Pages(s):1739-1744, [2]. T.G.Arora, M.V.Aware and D.R.Tutukanr, “Insulation stress in PWM driven adjustable frequency drives”, Int. conf. ECTI-CON 2013, Pg.1-5. [3]. T.G. Arora, D.R. Tutukane, M.V. Aware,” Effect of Pulse Width Modulated Voltage on Induction Motor Insulation” Int Conf. IEEE ICIEA July 2012,Singapore. [4]. Ashwin Dhabale, M.V.Aware and Shantanu Das, “ A new method for getting rational approximation for fractional order differintegrals” Second International conference on 'Advances in Control and Optimization of Dynamical System, AACODS- 2012,16-18 Feb 2012, IISc Banglore. Paper ID 933. [5]. Rutuja Dive and M.V.Aware, “Realization of fractional order differintegrals”, Int. IEEE Conf. on Devices, Circuits and systems (ICDCS) 2012, Coimbatore INDIA.,pp.548-552. [6]. Jaya Agrawal and M.V.Aware, “Golden Section Search (GSS) Algorithm for Maximum Power Extraction using DC-DC Converter in Photovoltaic System”, ICPCS 2012, Finland. [7]. Mahesh Pandya and M.V.Aware, “ “, ICPES-2012, Kathmandu.(Withdrawn) [8]. T.G.Arora ,M.V.Aware and D.R. Tutukane, “Effect of pulse width modulation voltage on induction motor insulation” IEEE Conf. ICIEA2012, Singapore.. [9]. Vasudeo Virulkar, Mohan Aware, “Power System Flicker Analysis, Modeling and Prototype Implementation”, IECON 2012, Montreal,2012. [10]. B.S.Gajbhiye and M.V.Aware, “Single –to-three phase matrix converter for traction drives” IEEE Conf. IICPE 2012,pp.1-6. [11]. Jaya Agrawal, M.V. Aware, “Photovoltaic system emulator” IEEE conf. PEDS 2012, New Delhi. 2012,pp.1-6. [12]. Jaynt Mane, S.Muley and M V Aware, “Performance of 5-level NPC inverter with multi-carrier multi-modulation technique” IEEE Conf. PEDES 2012. [13]. Jaya Agrawal and M V Aware, “Golden section search (GSS) algorithm for maximum power point tracking in photovoltaic system”, IEEE Conf. IICPE 2012,pp.1-6. [14]. Prafulal Nandankar and M.V.Aware, “High efficiency discontinuous mode interleaved multiphase bidirectional dc-dc converter” IEEE conf. PEDES 2012, pp. 1-6. [15]. G. Goyal and M.V.Aware, “A comparative performance of six-phase nine switch inverter operation with SPWM and SVPWM” IEEE conf. PEDS 2012, pp.1-6. [16]. Gurav Goyal and M. V. Aware, “ Power sdhare in dual-input-output nine switch Z-source inverter for multi-machine application” PEDES 2011, 6-8 Dec. 2011, Singapore.(withdrawn)

EE/VNIT/Nov 13 Page 135 of 218

[17]. Jaya Aggrawal and M. V.Aware, “Golden section search [GSS] algorithm for maximum power extraction using DC-DC converter in photovoltaic system” PEDES 2011, 6-8 Dec.2011, Singapore. (Withdrawn). [18]. Jayant Mane and M.V. Aware, “Multilevel grid-connected inverter performance under different modulation strategies”, the Int. Conf. on Power and Energy System: Issues and Prospects for Asia (ICUE 2011), Sept 2011, PAttaya, Thailand. [19]. S.W.Mohod and M.V.Aware, “ Grid support with variable speed wind system and battery storage for power quality”, IEEE ICSGCE 2011,Sept. 2011, Chengdu China. [20]. Gaurav Goyal and M.V.Aware, “Improved Inverter Utilization Using Third Harmonic Injection” PEDES at IIT Delhi, Dec. 21-23, 2010. [21]. Gaurav Goyal and M.V.Aware,” Dead Band Control Using Analog Circuits For Inverters”, International Conference on Electrical Power and Energy systems, NIT Bhopal, Aug 26- 28,2010.pp.649-653. [22]. Gaurav Goyal and Mohan Aware “Speed observer based load angle control of induction motor drive” Proc. of Int. conf. control,communication and power Engineering (ACEEE) , Chennai, June 2010,pp. 306-311. [23]. V.B. Virulkar & Mohan Aware, “Modeling and simulation of flicker due to interharmonics”, India International Conference on Power Electronics, IICPE-2010, Jan 2011, New Delhi. [24]. Dhawale, D.D.; Chaudhari, J.G.; Aware, M.V, “Position Control of Four Switch Three Phase BLDC Motor Using PWM Control ”, 3rd International Conference on Emerging Trends in Engineering and Technology (ICETET), 2 010, 2010, Page(s): 374 – 378 . [25]. Kamble, C.S.; Chaudhari, J.G.; Aware, M.V.,” Digital Signal Processor Based V/f Controlled Induction Motor Drive ”, 3rd International Conference on Emerging Trends in E ngineering and Technology (ICETET), 2 010 , Page(s): 345 – 349. [26]. S.W. Mohod and M.V.Aware, “Wind energy conversion system simulator using variable speed induction motor”, Proc. IEEE Power Electronics, Drives and Energy System Conf. (PEDES 2010), 2010, New Delhi, [27]. Rutuja Dive and M V Aware “Fractional Order” Paper accepted at Manipal 2010. [28]. S. Mohod & Mohan Aware, “ Energy storage to strengthen the wind generator in integrated power system”, IEEE Conf. on sustainable Energy Technology-2010, Kandy, Sri Lanka [29]. S Bodkhe & Mohan Aware, “Sensorless, vector-controlled, induction motor drive based on new phase current reconstruction and speed estimation techniques”, IEEE Int. conf. TENCON 2010 , Japan,2010,pp.65-70.

NATIONAL CONFERENCES:

[1]. Jaya Agrawal and Mohan V. Aware “Algorithm for PV system performance evaluation” RTIEE 2012,SVNIT,Surat,India. [2]. Jaya Agrawal and Mohan V. Aware, “Modeling and simulation of a grid connected solar power system with new MPPT algorithm”, RTIEE 2012,SVNIT, Surat,India. [3]. Jayany Mane and Mohan Aware “A comparative study of different multi-level inverters under different modulation strategies” NaMPET 2011, Kolkotta, (INDIA).

BOOKS:

[1]. Contributed Chapter “Power Quality and Grid Code Issues in Wind Energy Conversion System” Chapter in the book, “An Update on Power Quality”, pp. 21-36, Published by INTECH, 2013. [2]. Monograms published for the Research work on “Analogue Fractional order PID” in the book “Functional Fractional Calculus”, by Shantanu Das , Published by Springer 2011.

EE/VNIT/Nov 13 Page 136 of 218

EDITING OF JOURNAL:

GUEST EDITOR FOR: [1]. International Journal of Engineering, Science and Technology: Special issue on “Applied Power Electronics and Intelligent Motion Control” , Vol. 2, No.10, 2010, ISSN 2141-2820. [2]. Editorial Committee Member for: ASIAN POWER ELECTRONICS JOURNAL, HK PolyU, ISSN 1995- 051, HONGKONG . [3]. Editorial Board member: International Journal on Electrical Electronics Computer and Communication Engineering. Narosa Publishing House, New Delhi.

PATENTS (Applied)

[1]. ”Robust open loop speed estimator for induction motor control ” 345/MUM/2010 [2]. ”Modular circuit for realizing any order of fractional differ-integrals ’ 344/MUM/2010 [3]. ”Analogue emulator for DC motor with integral and fractional order PID ” 334/MUM/2010 [4]. ”Design algorithm for the fractional order differ integrals ” 2778/MUM/2010.

3. Prof.M. A. CHAUDHARI International Refereed Journals: [1]. S.V. Murkute, Dr. V. B. Borghate, Mrs. M. A. Chaudhari , “Detection and Localization of Power Quality Disturbances Using Space Vector Wavelet Transform: A Three Phase Approach”, International Journal of Recent Trends in Engineering and Technology (IJRTET ), ISSN 2158- 5555, July 2012. [2]. Mrs. M. A. Chaudhari, “Implementation of Digital Signal Processor to control three-phase voltage source inverter,” Journal of Power System Operation and Energy Management ”, ISSN 2231-4407, volume-1 issue-2, 2011, pg no. 114-119. [3]. Mrs Jaya N. Ingole, Dr R.D. Kanphade, Mrs Madhuri A. Chaudhari , “Study on Availability and Efficient Utilization of Energy”, International Journal on Advanced Engineering Research and Studies (IJAERS) , Vol. I, Issue II, January-March, 2012 pg no. 152-154. [4]. Mrs Jaya N. Ingole, Mrs Madhuri A. Chaudhari , Dr R.D. Kanphade, “ PIC based Solar Charger for battery”, International Journal of Engineering Science & Technology (IJEST) , Vol. 4 No.02 February 2012 ,pp 384-390. [5]. S. S. Ambekar, M. A. Chaudhari , “Artificial Neural Network Controller for Performance Optimization of Single Phase Inverter”, International Journal of Artificial Intelligence & Applications ( IJAIA ), accepted for publication. [6]. M. A. Chaudhari , H. M. Suryawanshi, M. M.Renge, “A Three-Phase Unity Power Factor Front-end Rectifier for AC Motor Drive,” IET Power Electronics , Vol. 5, Issue 1, January 2012, pp. 1-10. [7]. M. M. Renge, H. M. Suryawanshi, M. A. Chaudhari , “Digitally Implemented Novel Technique to Approach Natural Sampling SPWM,”European power electronics Journal, EPE , Vol. 20, no 1, March 2010. ( ISI recognized ) International Conferences: [1]. S. S. Ambekar, M. A. Chaudhari, “ Performance Improvement of a Single Phase Inverter using Intelligent Controller ”, 2012 IEEE 7 th International Power Electronics and Motion Control conference - ECCE Asia , Harbin, China June 2-5, 2012.

EE/VNIT/Nov 13 Page 137 of 218

[2]. S. S. Ambekar, M. A. Chaudhari, “ Intelligent SHE Controller for Single Phase Power Electronic Inverter ”, Proc. of the Intl. Conf. on Advances in Computer, Electronics and Electrical Engineering (ACEEE) Mumbai , 25th - 27th March 2012. [3]. Mrs. M. A. Chaudhari “Implementation of Digital Signal Processor to control Three-Phase Voltage-Source Converter”, International conference on Electrical and Electronics Engineering (ICEEE-2011), organized by IRNET, Bhubaneswar on 22nd -23 rd Oct. 2011. National Conferences: [1]. D. Mallesh, Mrs.M. A. Chaudhari , “Multiple input DC-DC converter,” National Conference PESA 2013 , NIT Raurkela. [2].Ms.Shravani, Mrs. M. A. Chaudhari , “Dynamic mathematical model of three phase induction motor”, National Conference PESA 2013 , NIT Raurkela.

4. Prof .S.R. BHIDE International Journals: [1].P.P. Bedekar,S.R. Bhide , “Optimum coordination of over-current relay timing using continuous genetic algorithm, Expert Systems With Applications” – An International Journal (Elsevier Publication)Vol.38, Issue 9, Sept 2011, pp 11286-11292 [2].P.P. Bedekar,S.R.Bhide, V.S Kale “Fault section estimation in power system using Hebb’s rule and continuous genetic algorithm”, International Journal of Electrical Power and Energy Systems (Elsevier Publication)vol. 33, Issue 3,March 2011, pp 457-4652011 [3].P.P. Bedekar , S.R. Bhide, “Optimum Coordination of Directional over-current relays using the hybrid GANLP approach” ,IEEE Transaction on Power Delivery, Vol. 26, No. 1, Jan. 2011 , pp 109-119 [4].P.P. Bedekar, S.R. Bhide, V.S Kale “Optimum coordination of over current relays using simplex method” ,Electric power components and systems (Taylor and Francis), vol. 38 , Issue 10 , July 2010 , pp. 1175-1193 [5].P.P. Bedekar S.R. Bhide, V.S Kale “Optimum PMU placement using Genetic Algorithm” ,International journal of power system optimization and controlvol. 2 , Issue 1, 2010 , pp 85-91 [6].P.P. Bedekar S.R. Bhide, V.S Kale “Application of Artificial Intelligent Techniques to fault section Estimation in power system” – A Review ,International journal of power system optimization and control, Vol. 2 , Issue 1 , 2010,pp 167-174. [7].P.P. Bedekar, S.R. Bhide, V.S Kale “Optimum coordination of over current relays using revised simplex method” ,The journal of CPRI ,vol. 6, No. 1 March 2010, pp 33-42. [8].P.P. Bedekar, S.R. Bhide,V.S Kale “Determining optimum time multiplier setting and plug setting of over-current relays using the continuous genetic algorithm” ,The journal of CPRI, vol. 6 , No. 1 , March 2010 , pp 87-96 Conference Publications: [1].P.P.Bedekar S.R. Bhide,V.S. Kale “Optimum PMU Placement Considering One Line/ One PMU Outage and Maximum Redundancy Using Genetic Algorithm“, Eighth International Conference ECTI-CON 17-19 May 2011, pp 738-741 [2].P.P.Bedekar S.R. Bhide,V.S. Kale “Determining Optimum TMS and PS of Over-current Relays using Linear Programming Technique” ,Eighth International Conference ECTI-CON 17-19 May 2011,pp 750-753 [3].P.P.Bedekar S.R. Bhide,V.S. Kale “Comparison of Multivariable Series LSQ and Differential Equation Based Techniques for Fault Location on Transmission Lines” ,Eighth International Conference ECTI-CON 17-19 May 2011 , pp 754-756 [4].P.P.Bedekar , S.R. Bhide, “Estimation of Frequency, Phase and Amplitude of Voltage using the Continuous Genetic Algorithm” , Eighth International Conference ECTI-CON , 17-19 May 2011 , pp 757-760

EE/VNIT/Nov 13 Page 138 of 218

[5].PP Bedekar , S.R. Bhide, V S Kale “Determining Optimum TMS and PS of Over-current Relays using Big-M Method” , Joint Int. Conf. on Power Electronics, Drives and Energy Systems & 2010 Power India ( IEEE PEDES 2010) , The IEEE PES-IAS Delhi Chapter , 21-23 Dec. 2010 [6].P.P.Bedekar , S.R. Bhide,V.S. Kale “Optimum coordination of over current relays using nonlinear programming methods”., International conference on Electrical power& Energy systems, Bhopal 26-28 Aug 2010 Proc. vol II pp 51-55 [7].P.P.Bedekar S.R. Bhide,V.S. Kale “Fault section Estimation in power system using ANN”., International conference on Electrical power & Energy systems, Bhopal 26-28 Aug. 2010 Proc. vol II pp 47-50 [8].P.P.Bedekar S.R. Bhide, V.S. Kale “ANN-PSO Technique for Fault Section Estimation in power system” , Fourth international conference on computer applications in electrical engineering – Recent advances (CERA 09), Roorkee , 19-21 Feb., 2010 , Paper ID B1-26

5. Prof.V.S.KALE International Journals: [1]. V.S.Kale, S.R.Bhide, P.P.Bedekar,”Estimation of Fault Location on Transmission Lines with Mutual Coupling”, International Journal of Power & Energy Systems, vol. 32, No.2, 2012, pp. 57- 64. [2]. V.S.Kale, S.R.Bhide, P.P.Bedekar, “Faulted Phase Selection based on Wavelet Analysis of Traveling Waves”, International Journal of Computer and Electrical Engineering, Vol. 3, No. 3, June 2011, pp. 421-425 [3]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Fault section estimation in power system using Hebb’s rule and continuous genetic algorithm”, International Journal of Electrical Power and Energy Systems (Elsevier Publication), Vol. 33, Issue 3, March 2011, pp. 457-465. [4]. V.S.Kale, S.R.Bhide, P.P.Bedekar, “Comparison of wavelet transform and Fourier Transform based methods of phasor estimation for numerical relaying”, Internaitonal Journal of Advances in Engineering Sciences, vol.1. no.1, Jan 2011, pp.55-59. [5]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Optimum PMU Placement using Genetic Algorithm”, International Journal of Power System Optimization and Control, Vol. 2, Issue 1, 2010, pp. 85-91. [6]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Application of Artificial Intelligent Techniques to Fault Section Estimation in Power System – A Review”, International Journal of Power System Optimization and Control, Vol. 2, Issue 1, 2010, pp. 167-174. [7]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Optimum coordination of overcurrent relay timing using simplex method”, Electric Power Components and Systems (Taylor and Francis), Vol. 38, Issue 10, July 2010, pp. 1175-1193. [8]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Optimum Coordination of Overcurrent Relays Using Revised Simplex Method”, The Journal of CPRI, Vol. 6, No. 1, March 2010, pp. 33-42. [9]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Determining optimum Time Multiplier Setting and Plug Setting of Overcurrent Relays Using the Continuous Genetic Algorithm”, The Journal of CPRI, Vol. 6, No. 1, March 2010, pp. 87-96. International Conferences: [1]. S.S.Gokhale, V.S.Kale, “An Overview of Applications of Intelligent OptimizationApproaches to Power Systems”, International Conference on Advanced Engineering Optimization Through Intelligent Techniques(AEOTIT), S.V. National Institute of Technology, Surat, July 01-03, 2013, pp.348-352 [2]. Syed Mohammad Zaffar, Vijay S. Kale, “Application of Differential Evolution Algorithms for Optimal Relay Coordination”, International Conference on Advanced Engineering Optimization Through Intelligent Techniques (AEOTIT), S.V. National Institute of Technology, Surat, July 01- 03, 2013, pp.413-417 EE/VNIT/Nov 13 Page 139 of 218

[3]. V.S.Kale, S.R.Bhide, P.P.Bedekar, “Fault location estimation based on wavelet analysis of traveling waves”, IEEE International Asia-Pacific Power and Energy Engineering Conference, being held at Shanghai, China, March 2012, pp.1-5. [4]. P.P.Bedekar, S.R.Bhide, V.S.Kale, “Optimum PMU Placement considering one Line/one PMU outage and maximum redundancy using Genetic algorithm”, The 8 th Electrical/Electronics, Computer, Telecommunications and Information Technology Association Conference, Thailand, May 2011, pp. 688-691. [5]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Determining Optimum TMS and PS of Overcurrent Relays using Linear Programming Technique”, Eighth International Conference “ECTI-CON 2011”, Khon Kaen, Thailand, 17-19 May 2011, pp. 750-753. [6]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Determining optimum TMS and PS of Overcurrent Relays using Big-M Method”, Joint International Conference on Power Electronics, Drives and Energy Systems & 2010 Power India (IEEE PEDES 2010) , The IEEE PES – IASDelhi Chapter , New Delhi, 21-23 December 2010. [7]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Fault Section Estimation in Power System using Artificial Neural Network”, International Conference on Electrical Power and Energy Systems (ICEPES-2010) , Maulana Azad National Institute of Technology, Bhopal, 26-28 August 2010, Proc. Vol-II, pp. 47-50. [8]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “Optimum Coordination of Overcurrent Relays using Nonlinear Programming Method”, International Conference on Electrical Power and Energy Systems (ICEPES-2010) , Maulana Azad National Institute of Technology, Bhopal, 26-28 August 2010, Proc. Vol-II, pp. 51-55. [9]. P. P. Bedekar, S. R. Bhide, and V. S. Kale, “ANN-PSO Technique for Fault Section Estimation in Power System”, Fourth International Conference on Computer Applications in Electrical Engineering – Recent Advances (CERA- 09), Indian Institute of Technology, Roorkee,19-21 February 2010, Paper ID B1-26. [10]. V.S.Kale, S.R.Bhide, P.P.Bedekar, “Traveling wave based protection of EHV transmission line using wavelet transform”, International Conference on Advances in Energy Conversion Technologies, Jan 7-10, 2010, MIT, Manipal, pp. 217-221.

6. Prof. M.R.RAMTEKE International refereed journals [1]. A. K. Mishra, M.R.Ramteke , H.M.Suryawanshi. " Comparative Evaluation of AC-DC Converters for input current harmonics : A study" , ( Int. Journal – Renewable Energy & Power Quality Journal, Spain , ISSN: 2172 :038X, Vol.10, April 2012, paper No.530 ) Paper Accepted In Journals: [1]. S. P. Gawande, M.R.Ramteke , “Comparative Evaluation of Performance Improvement in Capacitor-Supported Dynamic Voltage Restorer for Linear & Non-Linear Balanced Loads” , IEEE Int. Conf. on Electronics Computer Technology (ICECT 2012) , Kanyakumari, INDIA, April 6-8, 2012 . Accepted for publications in journal of Automation & Control Engineering (JOACE) ISSN: 2301-3702, in vol.1, no.3, 2013, Indexed by Ulrich periodicals directory. [2]. S. P. Gawande, M.R.Ramteke and S. Khan, “Design Consideration for Configuration, Topology & Control Schemes of DSTATCOM Implemented on Distribution Systems”, IEEE Int. Conf. on Electronics Computer Technology (ICECT 2012) , Kanyakumari, INDIA ,April 6-8, 2012. ). Accepted for publication in Lecture Notes on Information Theory (UNIT) ISSN: 2301-3788, in vol.1, no.2, 2013, indexed by Ulrich periodicals directory. International Conferences: [1]. S.P.Gawande, S.Khan, M.R.Ramteke ,“ Voltage Sag Mitigation Using Multilevel Inverter Based Distribution Static Compensator ( DSTATCOM )” Presented at 5 th IEEE International conference

EE/VNIT/Nov 13 Page 140 of 218

on Power Electronics ( IICPE-12) , organized by Delhi Technological university, Delhi, India on December 6-8 , 2012. [2]. S. P. Gawande, M.R.Ramteke and S. Khan, “Design Consideration for Configuration, Topology & Control Schemes of DSTATCOM Implemented on Distribution Systems” , IEEE Int. Conf. on Electronics Computer Technology (ICECT 2012) , Kanyakumari, INDIA ,April 6-8, 2012. ) [3]. S.P.Gawande, S.Khan , M.R.Ramteke ,“ Analysis of Balanced & Unbalanced Voltage Sag for Symmetrical & Unsymmetrical Facults on Distribution system” Presented at 4 th IEEE International Conference on Electronics & computer technology ( ICECT-2013) organized by VI institute of Technology & cosponsored by IEEE on April 6-8, 2012, at Kanyakumari, India.

National conferences/ workshops/symposiums: [1]. Narendra Devu, M.R.Ramteke, “ A Novel Multilevel Inverter With Reduced Number Of Switches”,NATIONAL CONFERENCE ON ELECTRICAL SYSTEMS AND RENEWABLE ENERGY [NESR 2013] May 3 rd , 2013 Anna University, Chennai

7. Prof. P.S.KULKARNI International Journal: [1].Ashutosh Werulkar, D. Shankar and P.S.Kulkarni, “A Soft Switching Boost Converter with Simulation Of Maximum Power Point Tracking For Solar Home Lighting System” International Journal of ChemTech Research, April-June 2013, Vol.5, No.2, pp 935-946, [2].D. Shankar and P.S.Kulkarni, “Soft Switching Buck Converter for Battery Charging With MPPT” International Journal of ChemTech Research, April-June 2013, Vol.5, No.2, pp 947-956. [3].R. M. Moharil and P. S. Kulkarni, “Reliability Analysis of Solar Photovoltaic System using hourly mean solar radiation data”, Solar Energy (Elsevier Publication), Vol. 84, 2010, pp. 691- 702.

National Conferences:

[1].A.S. Werulkar, P. S. Kulkarni and A. Sahusakde, “Simulation and EnergyBalance study of Solar Home Lighting System”, All India Seminar on Power System:Control, Operation & Maintenance, I.E.(I), Chandrapur, 4-5 Dec. 2010, pp. 83-88. [2].R S Sable, A.S.Werulkar and P.S.Kulkarni, “Microcontroller based Soft switching buck converter for Solar Home Lighting System”, National Conference on Emerging Technologies in Renewable Energy and Electrical Engineering (ETREE-2012), Bhilwara (Raj.), February 25-26, 2012, pp.166-173. [3].Amit Singh Rana,A.S.Werulkar,P.Salodkar and P.S.Kulkarni, “Simulation Analysis of Sine Wave Inverter for Solar Home Lighting System”, National Conference on Emerging Technologies in Renewable Energy and Electrical Engineering (ETREE-2012), Bhilwara (Raj.), February 25-26, 2012, pp.137-142. [4].D.Shankar, A.S. Werulkar and P.S.Kulkarni, “Simulation Of Soft Switching Boost Converter For Solar Home Lighting System”, National Conference On Clean Energy & Energy Conservation 2012, October 13 th -14 th , 2012, pp.101-106. [5].Anjali Anand K, P. A. Salodkar and P.S.Kulkarni, “Simulation of a Single-Stage Grid Connected Inverter Topology for Solar PV systems with Maximum Power Point Tracking”, Proceedings of 1st National Conference on Power Electronics Systems & Applications(PESA2013),National Institute of Technology Rourkela, 16 th -17 th , March 2012,pp.221-227.

International Conferences: [1]. A.S.Werulkar and P.S.Kulkarni “Design of a constant current solar charge controller with microcontroller based soft switching buck converter for solar home lighting system” Power EE/VNIT/Nov 13 Page 141 of 218

Electronics, Drives and Energy Systems (PEDES), 2012 IEEE International Conference on Digital Object Identifier: 10.1109/ PEDES. 2012.6484337 Publication Year: 2012 , Page(s): 1 – 6. [2]. A.S.Werulkar and P.S.Kulkarni, “Analysis of Microcontroller based Solar Charge Controller for Solar Home Lighting System”, 4 th International Conference on “Advances in Energy Research” ICAER2011, Department of Energy Science and Engineering, IIT, Bombay, December 9-11,2011, Abstract Book Page No. 74 . [3]. A.S.Werulkar,P.S.Kulkarni and A.Sahusakde, “Energy Analysis of Solar Home Lighting System”, IIES 2011, 1st India International Energy Summit, January 28-31,2011, VNIT, Nagpur, India, Technical Session II, pp 64-81. [4]. S.K.Ksheersagar,A.S.Werulkar,P.S.Kulkarni, “Study of design of single phase inverter for solar home lighting system”, IIES 2011, 1st India International Energy Summit, January 28-31,2011 VNIT, Nagpur, India, Technical Session IV, pp 11-24. [5]. A.S.Werulkar, S.K.Ksheersagar, P.S.Kulkarni, “Design of Solar powered Reverse Osmosis Water purification System for Rural Area”, ENERSTATE 2010,An International Conference on “Clean Energy Technology and Energy Efficiency for Sustainable Development”organized by Uttarakhand Technical University,Dehradun, Hartcourt Butler Technological Institute,Kanpur, Shivalik College of Engineering,Dehradun, held in Dehradun during December 27-30, 2010.

8. Prof. S. PATTNAIK INTERNATIONAL JOURNALS: [1].M. Shrivastava, S. Pattnaik, V. Singh, “Comparative Analysis of PWM Techniques for Multilevel Inverter Control using ANN” International Journal of Computer Applications (IJCA), Vol. 46, no. 19, 2012, pp 20-24. [2].M. Shrivastava, S. Pattnaik, V. Singh, “Artificial Neural Network based harmonic Optimization of Multilevel Inverter to Reduce THD” UACEE International Journal of Artificial Intelligence and Neural Networks – Vol. 2, Issue 2, pp 20-24, June 2012. [3].N. S. K. Sastry, S. Pattnaik, V. Singh, “ Reduction of Ripple in a single phase buck converter by Fuzzy logic control” International Journal of Engineering Research and Applications (IJERA), Vol. 2, Issue 3, May-Jun 2012, pp.2202-2204 [4].M. Das, S. Pattnaik, V. Singh, “GA For Improved Dynamic Response Of DSTATCOM” International Journal of Engineering Research and Applications (IJERA), Vol. 2, Issue 3, May-Jun 2012, pp.2145-2152. [5].D. Kumar, S. Pattnaik, V. Singh, “ Genetic Algorithm Based Approach for Optimization of Conducting Angles in Cascaded Multilevel Inverter” International Journal of Engineering Research and Applications (IJERA), Vol. 2, Issue 3, May-Jun 2012, pp.2389-2395. [6].M. Shrivastava, S. Pattnaik, V. Singh, “ Artificial Neural Network Based Implementation of Space Vector PWM for Control of Three-Phase Voltage Source Inverter” International Journal of Engineering Research and Applications (IJERA), Vol. 2, Issue 3, May-Jun 2012, pp.2209-2216. [7].N. S. K. Sastry, S. Pattnaik, “Design, Analysis and Implementation of a new topology of multi phase synchronous buck converter under current mode control” International Journal of Electronics and Computer Science Engineering (IJECSE), Vol 1, no. 3, 2012 [8].S.K.Pandey, S. Pattnaik, “Analysis of Energy Efficient end-to-end delay for wireless sensor Network”,IFRSA’s International Journal of computing,Vol-1,issue 3,2011,PP-553-558, [9].N. Ahirwar, S. Pattnaik, “Texture and Intensity based Classification of Malaria Parasite in Blood Images using LM algorithm” IJCIIS, International Journal of computational Intelligence & Information Security, Vol 2, no-12,2011. [10].N. Ahirwar, S. Pattnaik, “Advanced Images Analysis Based System for Automatic Detection and Classification of Malaria Parasite in Blood Images.” IJITKM, International Journal of Information Technology and Knowledge Management, Vol 5, no-1, 2011.

EE/VNIT/Nov 13 Page 142 of 218

[11].S. Pattnaik, A. K. Panda, K. K. Mahapatra, “Efficiency Improvement of Synchronous Buck Converter by Passive Auxiliary Circuit”, IEEE Transactions on Industry Applications, Nov.-Dec. 2010, Volume 46, Issue 6, pp. 2511 – 2517. INTERNATIONAL CONFERENCES: [1].S. Pattnaik, B.S. Umre and D. Khare, “ Green Energy powered Multiphase Buck Converter for Microprocessors” 4th IEEE International Symposium on Power Electronics for Distributed Generation Systems, July 8-11 2013. [2].Prashant Shukla, S. Pattnaik, “Simulink Model of PV Module and Implementation of MPPT Algorithm for a Single Phase Grid Connected PV Systems” National Conference on Recent Trends in Energy System, NCRTES 2013, 5 & 6 April [3].P. Naresh, S. Pattnaik, “Design and analysis of multilevel inverters with reduced number of switches” International Conference on Advances in Electrical, Electronics, Mechanical and Computer Science (ICAEEMCS), 21st April 2013 [4].Varsha Singh, Dr S.Gupta, Dr.S. Pattnaik, “Analysis of space vector pulse width modulation technique for PQ improvement in multiphase system” International conference on recent trends in control ,communication and computer technology(RTCCCT) , IRNet, ACSEE-25NOV12 [5].M. Shrivastava, S. Pattnaik, V. Singh, “Artificial Neural Network based harmonic Optimization of Multilevel Inverter to Reduce THD” International Conference on Advances in Computer, Electronics and Electrical Engineering (ICACEEE 2012),June pp. 229-233. [6].N. S. K. Sastry, S. Pattnaik, “Modelling and Simulation of Closed Loop Buck Converter for Portable Applications” International Conference on Computing and Control Engineering (ICCCE 2012), 12 & 13 April, 2012 [7].Varsha Singh, S. Pattnaik,”A Novel Multilevel Inverter with Fuzzy Logic Controller” International Conference on Advanced energy resources ICAER_2011,Dec 09-11, IIT Mumbai [8].S.K.Pandey, S.Pattnaik,”Survey on MAC layer protocols for wireless sensor networks”, International Conference on wireless network and Embedded system,WECON 2011,PUNJAB NATIONAL CONFERENCES: [1].D. Kumar, S. Pattnaik, V. Singh, “Optimization of Conducting Angles in Multilevel Inverter to Reduce THD using Genetic Algorithm” National Conference ETEIC-2012 Proceedings, April 6th- 7th, 2012, Agra [2].M. Das, S. Pattnaik, V. Singh, “Improved Dynamic Response of DSTATCOM using Genetic Algorithm” National Conference ETEIC-2012 Proceedings, April 6th-7th, 2012, Agra [3].N. S. K. Sastry, S. Pattnaik, “Design, Analysis and Implementation of a New Topology of Multi Phase Synchronous Buck Converter Under Current Mode Control” National Conference ETEIC- 2012 Proceedings, April 6th-7th, 2012, Agra [4].S. K. Pandey, S. Pattnaik,”Delay sensitive and longevity of wireless sensor network using any- cast technique”, TECHNOLOGIA 2011 ,MPCCET, Bhilai [5].M. Shrivastava, V. Singh, S. Pattnaik,” PWM multilevel inverter to reduce total harmonic distortion” 35th National System Conference (NSC), IIT Bhubaneshwar,09-11 Dec, 2011

9. Prof. M.S.BALLAL International Referred Journals: [16]. M. S. Ballal andH. M. Suryawanshi, “Corrective measure in Islanding Scheme at Bhusawal thermal Power Station – Case Study,” International Journal of Emerging Electric Power Systems, Vol. 13, No. 2, June 2012, pp. 1515 – 1553. (SCI Journal) [17]. M. S. Ballal , D. M. Ballal, H. M. Suryawanshi and Mahesh K. Mishra, “Wing Technique: A Novel Approach for the Detection of Stator Winding Inter-turn Short Circuit and Open Circuit Faults in Three Phase Induction Motors,” International Journal of Power Electronics, Vol. 12, No. 1, January 2012, pp. 208 – 214. (SCI Journal)

EE/VNIT/Nov 13 Page 143 of 218

[18]. M. S. Ballal, Hiralal Suryawanshi, Venkateswara Reddy .T Reddy,“Mitigation of Voltage Dip and Voltage Flickering by Multilevel D-STATCOM,” International Journal Advances in Power Electronics , Volume 2012 (2012), Article ID 871652, 11 pages. National Referred Journals: [1]. M. S. Ballal , D.M. Ballal and H. M. Suryawanshi, “Wing Technique Approach for the Detection of Stator Winding Faults in Three Phase Induction Motors” Journal of Institution of Engineers (India), March 2011. [2]. M. S. Ballal , D.M. Ballal and H. M. Suryawanshi, “Impact of Power Quality on the Performance of Induction Motor” Journal of Institution of Engineers (India), vol. 90, March 2010, pp.63-68. [3]. M. S. Ballal , Z.J.Khan and R. L. Sonolikar, “ANFIS Approach for the Detection of Inter-turn Insulation and Bearing Wear Faults in Induction Motor,” Journal of Institution of Engineers (India), vol. 90, March 2010, pp.23-29. International Conferences/Seminars: [1]. P. V. Dhawas, Z. J. Khan and M. S. Ballal , “Some Aspects of Utilizing Renewable Energy and Energy Conservation by Internal Short circuit and Core deformation Fault Detection of Transformer,” All India Seminar with international participations on “Clean Energy and Energy Conservation 2012”, Institution of Engineers (I) Nagpur Centre, Nagpur, Oct. 13-14, 2012 pp.176- 180. [2]. Ashish Doorwar, M. S. Ballal and H. M. Suryawanshi, “Review of Various Condition Monitoring Techniques for Transformers in Renewable Energy Power Plants,” All India Seminar with international participations on Clean Energy and Energy Conservation 2012”, Institution of Engineers (I) Nagpur Centre, Nagpur, Oct. 13-14, 2012 pp.242-248. [3]. K. V. Bhadane , M. S. Ballal and R. M. Moharil, “Investigation of Causes of Poor Power Quality in Grid Connected Wind Farm,” accepted for the publication in Asia Pacific Power and Energy Engineering Conference, (APPEEC2012)"- IEEE PES, Shanghai, China on 27 – 29 March, 2012. National / IIT level Conferences/Seminars: [1]. M. S. Ballal , “Power Quality-Harmonic Analysis of Domestic Wind Mill,” National level Technical Symposium, “INCEPTION-2010”, Collage of Engineering, Chandwad, Nasik, March 31, 2010 pp.31-37.

10. Prof. B.S.UMRE International Journal: [1]. Altaf Badar, B. S. Umre, Mrs. A. S. Junghare, “Reactive Power Control using Dynamic Particle Swarm Optimization for Real Power Loss Minimization”, International Journal of Electrical Power and Energy Systems, 2012, pp 133-136 International Conferences: [1]. Swapnajit Pattnaik, B. S. Umre, Diksha Khare“Green Energy Powered Multiphase Buck Converter” [2]. B. S. Umre, Kamal Sood, Pranjal Johri, “Modification in DC Generator Design and Analysis of Parameters Variations on its Performance” at International Conference on Electrical Engineering, Bangkok, Thailand, on March 29-31, 2011 (Paper accepted but not attended and presented). [3]. B. S. Umre, J. B. Helonde, J. P. Modak, Sonali Renkey, “Application of Gate Controlled Series Capacitors (GCSC) for Reducing Stresses due to Sub-Synchronous Resonance in Turbine- Generator Shaft”, at the Energy Conversion Congress and Exposition 2010 (ECCE-2010) at Atlanta, Georgia, USA, on September 12-16, 2010, pp 2300-2305.

Books:

EE/VNIT/Nov 13 Page 144 of 218

[1]. The book titled “Laboratory manual for Electrical Machines –” with co-author Dr. D. P. Kothari, retired Professor & in charge Director, IIT Delhi, published by IK International Publishing House Pvt. Ltd., New Delhi.

11. Prof. A.S.JUNGHARE International Refereed Journals : [1].Altaf Badar, B.S.Umre,A.S.Junghare,”Reactive Power Control using Dynamic Particle Swarm Optimization for Real Power Loss Minimization", International Journal of Electrical Power and Energy Systems, Ms. Ref. No.: IJEPES-D-11-00700, October 2012 issue [2].2) J.Bhosle,A.S.Junghare,“A Novel Approach for the Optimal PMU placement using binary integer programming technique’, IJEEE, International Journal of Electrical and Electronics Engineering, Interscience, Vol I Issue-3 , pp67-72. Conference/Seminars/ Workshops: [1]. J.Bhosle,A.S.Junghare “Optimal Placement of Phasor Measurement Unit forMultiple Constraints: : An Approach, submitted 2012 IEEE Fifth POWER INDIA Conference December 19-22, 2012 [2]. J.Bhosle,A.S.Junghare “A Novel Approach for the Optimal PMU placement using binary integer programming technique”, International Conference on Electrical and Electronics Engineering at VITS Hotel, Nagpur, Inter-science Institute of Management and Technology, Bhubaneswar, February-5 , 2012 12. Prof. V. B. BORGHATE International Conference : [1]. Mr. P.M. Meshram and Dr. V.B. Borghate, “A voltage balancing method applied to direct control strategy of MMC-VSC-HVDC” in Proc . 2012 9 th International Conference on Electrical Engg./Electronics, Computer, telecommunications and Information Technology (ECTI – CON 2012) , May 16-18, 2012,Hua – Hin, THAILAND, pp. 1-4, Digital Object Identifier: 10.1109/ECTICON. 2012.6254350. [2]. P. M. Meshram and Dr. V. B. Borghate, “A Novel Voltage balancing Method Applied to Direct Control Strategy of MMC-HVDC System,” IEEE International Conference on Advances in Engineering, Science and Management (IEEE-ICAESM2012), Mar 30-31, 2012, pp. 448-452, EGS Pillay Engineering College, Nagapattam, T. N. (India). [3]. P. M. Meshram and Dr. V. B. Borghate, “A Novel Voltage balancing Method of Modular Multilevel converter(MMC),” IEEE International Conference on Energy, Automation, and Signal(ICEAS-2011), pp.1-5, Dec28 -30, 2011, Shuksha O Anusandhan University, Bhubaneswar, ODISHA. (India). Digital Object Identifier: 10.1109/ICEAS. 2011.6147159.

13. Prof. N.R. PATNE Papers in refereed journals: [1]. R. J. Satpultey, V. B. Borghate, K. L. Thakre, N.R. Patne. Dynamic Voltage Restorer with Repetitive Controller for Power Quality Improvement. International Journal of Power System Operation & Energy Management, vol.1, issue 3 ,2011 [2]. N. R. Patne, K. L. Thakre. Effect of Transformer type on estimation of financial loss due to voltage sag - PSCAD/EMTDC simulation study. IET Journal on Generation Transmission and Distribution, Vol.4, Issue 1, January 2010, pp 104-114. [3]. N. R. Patne, K. L. Thakre. Effect of Transformer on stochastic estimation of voltage sag due to faults in the power system: A PSCAD/EMTDC simulation. Turkish Journal of Electrical and Computer Engineering, Vol.18, Issue 1, 2010, pp 43-58. Conference proceedings: [1]. Vikas Singh, N. R. Patne, “POWER QUALITY PROBLEMS STUDY ON IEEE 14 BUS SYSTEM AND THEIR MITIGATION USING UPQC WITH DIFFERENT CONTROL

EE/VNIT/Nov 13 Page 145 of 218

SCHEMES”, 17th National Power System Conference 2012, Indian Institute of Technology (BHU), Varanasi

14. Prof. R.J.SATPUTALEY: Journals:

[1]. R.J.Satputaley, Bharath.k,” Single phase Asymmetrical cascaded multilevel inverter design for induction motor” International Journal of Electrical, Electronics and Data Communication, ISSN: 2320-2084, May 2013 Volume- 1, Issue- 3, pp-8-13. [2]. R.J.Satputaley, V.B.Borgate, M.A.Choudhary, Bharath.K , “Third harmonic injection technique for dynamic voltage restorer with repetitive controller” International Journal of Electrical, Electronics and Data Communication, ISSN: 2320-2084, May 2013 Volume- 1, Issue- 3, pp-1-7. [3]. R.J.Satputaley, V.B.Borgate, K.L.Thakre, N.R.Patne “” Dynamic Voltage Restorer with Repetitive Controller for Power Quality Improvement” , International Journal of Power System operation and Energy Management, Oct 2012,.VOL-I ,ISSUE -04, pp 97-102.

Conferences:

[1]. R.J.Satputaley, Bharath.k,” Single phase Asymmetrical Cascaded Multilevel Inverter Design for Induction Motor” Publisied in proceedings of Asian Society for Academic Research Pp 40- 4528 th April 2013. [2]. R.J.Satputaley, V.B.Borgate, M.A.Choudhary, Bharath.K , “Third Harmonic Injection Technique for Dynamic Voltage Restorer with Repetitive Controller “ ,Intrenatrional Conference on Advancec Electrical and Electronics Engineering Bangalore India, published in proceedings of Asian society for academic research pp28-34, 28 th April 2013. [3]. Pundarikaksha .S, R.J.Satputaley, Bharath.K ” Space Vector Pulse width Modulation technique for DVR to mitigate Voltage sag and Voltage Swell”, Paper Presentaion Competition of Institute of Engg. Nagpur, National Level Paper presentation completion organized by Institute of India, 22 nd April 2013. [4]. R.J.Satputaley, Bharath.k, “Asymmetric control technique for 7-Level Cascaded Multilevel Single phase Inverter”, Paper Presentaion Competition of Institute of Engg. Nagpur, National Level Paper presentation completion organized by Institute of India,22 nd April 2013 [5]. R.J.Satputaley, V.B.Borgate, K.L.Thakre, N.R.Patne “Dynamic Voltage Restorer with Repetitive Controller for Power Quality Improvement” , Intrenatrional Conference on Electrical and Electronics Enginneering (ICEEE-2011) ,Organised by IRNet Bhubaneshwar (INDIA)22 nd - 23 rd OCT 2011. 15. Prof. S. S. BHAT: Journal Publications [1]. Shrikant Naik, Mohan Khedkar , Sunil Bhat, “Identification of Weak Buses and Elements Participation in Voltage Instability of Large Multi bus Power System" – Accepted for publication in Int. J. of Power and Energy Conversion [2]. Sunil Bhat, T.S. Bhatti, D.P. Kothari, “Transient Stability Improvement of Power System using fuzzy Operated Steam Diversion Valve”, Int. J. of Power and Energy Conversion, Vol. 2, issue 3, 2010, pp. 191-201 [3]. S.S. Bhat, T.S. Bhatti, D.P. Kothari, “Enhancement of Transient Stability Using Steam Storage Tank and Braking Resistor”, Int. J. of Integrated Energy System, Vol 2, No. Jan-June 2010, pp. 49-55 Int. Conference Publications

EE/VNIT/Nov 13 Page 146 of 218

[1]. S.D. Naik, M.K. Khedkar and S.S. Bhat, “ Comparative Study and Correlation between Bus Participation Factor and Voltage Sensetivity Factor for Simultaneous and Individual Bus Load Change”, Int. Conf on Power Systems (ICPS-2011) IIT Madras, Chennai- Dec 22-24, 2011 [2]. S.D. Naik, M.K. Khedkar and S.S. Bhat, “ On Critical Mode of Bifurcation Point and Loadability in Shunt Compensated Multi-Bus Power System”, Int. Conf on Power Systems (ICPS-2011) IIT Madras, Chennai- Dec 22-24, 2011

Annexure VII (1) Dr. H.M. Suryavanshi Worked as visiting faculty at IISc, Bangalore from 20 th May to 1 st June (2) Dr. S.R. Bhide • Conducted a lecture cum demonstration session on MATLAB programming at Dr. Baba Saheb Ambedkar College of Engineering and Research , Hingna , Nagpur on 9 th March 2013 • Delivered a lecture on Fundamentals of Power System Protection at National Power Training Institute on 11 th March, 2013, to trainee engineers. • Delivered a talk on Artificial Intelligence at Raman Science Centre on the occasion of National Technology Day on 11 th May 2013 (3) Prof. M.A. Chaudhari • Technical paper presentation competition for UG and PG students, Under “Spandan 2010” at YCCE, Nagpur, on 25, Feb. 2010. • Resource person in Staff Development Program on, “An approach towards Research in Electrical Engineering and Power Electronics” on 26th May. 2011, at Shivajirao Jondhale College of Engineering, Mumbai. • Resource person in Staff Development Program on, “An approach towards Research in Electrical Engineering and Power Electronics” on 19th Oct. 2011 SSBT’s COE Bambheri, Jalgaon. • Chief Guest, on Engineers Day Program at SDM Polytechnic, Nagpur on 15-Sept-2011. Resource person Topic “Working Principle and applications of UPS”. • Resource person in Staff Development Program on, “Switched mode Power Supply” on 23 rd March. 2012 Ambedkar COE Wanadongari, Nagpur. • Chair Person in International conference on Electrical and Electronics Engineering (ICEEE- 2012), organized by IRNET, Bhubaneswar at Nagpur, 20 th May 2012. • Deliver guest lectures on Power Electronics at NIT Uttarakhand during 18 Sept. to 25 Sept. 2012. • Attended a IEEE International conference on Power Electronics and Drives and Energy Systems – PEDES 2012, India, Bangalure, IISC Dec. 16-19 2012. • Chair Person in International conference on International Conference on Computer Science, Power System Operation & Energy Management (ICCSPSEM-2012), organized by IRNET, Bhubaneswar at Nagpur, 3 rd Feb. 2013. • Member of BOS of Y. C. C. E. Nagpur. (3) Prof. Mrs. N.R. Patne • Delivered expert lecture at Nagpur Polytechnique EE/VNIT/Nov 13 Page 147 of 218

(4) Prof. R. J. Satputaley • 2012 PSCAD and RTDS Asia Conference, 11 th Jan 2012-13 th Jan 2012 , International Conf., organized by Nyak Power Sytems Pvt. Ltd. • Interational Conference on Electrical and Electronics Engieering, 22 Oct, 2011-23 Oct 2011, Interscience Research Network ( India) Bhubaneshwar

Annexure VIII Year Name of Name of Title of Thesis Whether Name of Thesis Candidat Supervisor Evaluatio External Presentati e n Member on Dates Committe e was Constitut ed (Yes/No) 2010 Y.Siva Dr.H.M. Reactive power Yes Dr.Satish 13/06/2011 -11 Subbarao Suryawansh compensation using Tanvade, i statcom associate Professor, BATULonere, Raigad. Email:tanavadesat [email protected] m Mobile:09421260 442 2010 Saket Dr.M.V. Design and Analysis Yes Dr.Shailesh 13/06/2011 -11 Kumar Aware of bidirectional dc- kumar Jain, Singh dc converter in wind Electrical energy conversion Engg.Dept. MANIT Bhopal(MP) Email:sjain68@g mail.com Mobile:09406540 720 2010 DuvvuriSr Dr.S.R.Bhid Algorithms for Yes Dr.Chandrashekar 13/06/2011 -11 inath e detection of CT Bhende, Reddy saturation and its AssistantProfesso compensation r, IIT, Samantpuri, Bhubaneshwar. Email:cnb@iitbbs .as.in EE/VNIT/Nov 13 Page 148 of 218

Mobile:09437032 667

2010 AlapatiRa Dr.B.S.Umr Study of torsional Yes Dr.N.D.Ghaghave 13/06/2011 -11 marao e oscillations damping , Associate using excitation Professor &Dean system and statcom (acad),Dept of Electrical Engg. Govt.College of Engg,Amravati- 444603 Email:g_nit@redi ffmail.com Mobile:09420254 821 2010 Siva Dr.M.A.Ch Comparative study Yes Dr.SatishTanwad 13/06/2011 -11 Nagendra audhari of different PWM e techniques for single phase bridge inverter controlled by DSP 2010 AshishSah Dr.P.S.Kulk Design and Yes Dr.Chandrashekar 13/06/2011 -11 uSakde arni development of dc- Bhende dc boost converter for solar home lighting system 2010 Ajay Dr.M.R.Ra Input power factor Yes Dr.N.D.Ghaghave 13/06/2011 -11 Kumar mteke improvement in ac- Mishra dc converter 2010 Swati Dr.A.S.Jung To study response of Yes Dr.Chandrashekar 13/06/2011 -11 Chiviswar hare various controllers Bhende on rotary inverted pendulum 2010 Bhanu Dr.V.S.Kale Application of DWT Yes Dr.A.S.Thoke,Pro 13/06/2011 -11 Prasad and ANN for fault fessor,NIT,Raipur Reddy phase selection and Email:asthoke@y fault location ahoo.co.in estimation in Mobile:09329750 transmission line 686 2010 SandeepPa Dr.N.R.Patn Design of control Yes Dr.N.D.Ghaghave 13/06/2011 -11 rasa e scheme for a Dynamic voltage restorer for power quality improvement 2010 KurvaMall Mrs.R.J.Sat Techniques to Yes Dr.Shaileshkumar 13/06/2011 -11 ikaArjuna putaley mitigate the voltage Jain sag effects on refinery with induction motor EE/VNIT/Nov 13 Page 149 of 218

loads by using DVR 2010 JadiBapur Dr.V.B.Bor Study of dc-dc Yes Dr.G.A.Dhomane 05/07/2011 -11 ao ghate converters controlled by DSP 2010 D.Raju Prof.K.L.Th Power flow Yes 13/06/2011 -11 akre controller cum short circuit current limiter 2011 G.Laxmik Prof.A.G.K Stability Studies On Yes Dr.P.P.Bedekar,A 12/06/2012 -12 ant othari Terminal HVDC ssociate System Professor,Dept of Electrical Engg,Govt.Colleg e of Engineering Amravati-444603 Mobile:09890355 741 2011 L.Charan Prof.A.G.K Stability Study Of a Yes Dr.P.P.Bedekar -12 othari Single Converter 12/06/2012 System Using Various Models 2011 Prasad Prof.S.R.Bh Algorithms For Yes Dr.P.P.Bedekar 12/06/2012 -12 ide Removal of Decaying DC Offset From Fault Current With Respect to Numerical Relaying: A Sooprehensive Analysis 2011 Arun Prof.S.R.Bh A Comprehensive Yes Dr.P.P.Bedekar 12/06/2012 -12 ide Analysis of Algorithms For Digital Methods of Power System Frequency Measurements 2011 Gupta Prof.H.M.S Single Phase High Yes Dr.A,M,Shandily 12/06/2012 -12 uryanwansh Power Factor Front a.MANIT,Bhopal i –End Converter (MP)462051 Mobile:09303132 905 2011 Satyam Prof.H.M.S Development of Yes Dr.A,M,Shandily 12/06/2012 -12 uryanwansh Multiple Isolated a i DC Power Supplies Using Isolated PWM Converter 2011 Harish Prof.M.R.R High Voltage DC to Yes Dr.A,M,Shandily 12/06/2012 -12 amteke DC Step-up a Converter by

EE/VNIT/Nov 13 Page 150 of 218

Cascading Buck- Boost Converter 2011 Babu Prof.M.R.R Boost Topology Yes Dr.A,M,Shandily 12/06/2012 -12 amteke Based UPF a Operation of Front End Line Rectifier 2011 Nagrale/ Prof.S.R.Ta Transmission Line Yes Dr.Biplab 12/06/2012 -12 G.R.Waga mbay Fault Detection and Bhattacharyya,As re Location Using sociate Synchrophasors Professor,Dept of Electrical Engg,Indian School of Mines Dhanbad Email:biplabrec@ yahoo.com 2011 Rao Prof.V.S.Ka Study of Fault Yes Dr.Biplab 12/06/2012 -12 le Location Algorithms Bhattacharyya 2011 Varma Prof.V.S.Ka Microcontroller Yes Dr.Biplab 12/06/2012 -12 le Application in Bhattacharyya Electrical Engineering 2011 Rajashekh Prof.V.B.B Design and Analysis Yes Dr.G.A.Dhomne, 12/06/2012 -12 ar orghate of Single Phase AC Head & Associate Fed Boost Converter Professor,Dept of Electrical Engg. Govt. College of Engg,Ballarpur Road Chandrapur(M.S.) Mobile:09370152 738 2011 Suryaprak Prof.V.B.B Design and Yes Dr.G.A.Dhomne 12/06/2012 -12 ash orghate Implement of DC to Three Phase AC SPWM Inverter for Induction Motor Drive 2011 Chandrash Prof.Mrs.M. A Simplified Yes Dr.G.A.Dhomne 12/06/2012 -12 ekher A.Chaudhar Control Algorithms i of a Three Phase Series Active Power Filter as Power Quality Conditioner 2011 Meghvarn Prof.Mrs.M. Comparative Study Yes Dr.G.A.Dhomne 12/06/2012 -12 am A.Chaudhar of Different PWM i Techniques for Three Phase Inverter 2011 Gupta Prof.S.S.Bh Application of Yes Prof.V.N.Pande,D 12/06/2012

EE/VNIT/Nov 13 Page 151 of 218

-12 at Graphic Processing ept of Unit in Voltage Elect.Engg,Govt. Stability Analysis College of Engg,Shivaji Nagar, Pune Email:vnpande@r ediffmai.com Mobile:09422915 473 2011 Abhirami Prof.S.S.Bh Induction Motor Yes Prof.V.N.Pande 12/06/2012 -12 at Load Studies for Voltage Stability Analysis 2011 Srinivasan Prof.B.S.U Damping of Yes Dr.N.D.Ghaghave 12/06/2012 -12 mre Torsional , Associate Oscillation in Professor Turbine Generator &Dean(acad),Dep Set Using Thyristor t of Electrical Controlled Braking Engg. Resistor Govt.College of Engg,Amravati- 444603 Email:g_nit@redi ffmail.com Mobile:09420254 821 2011 Prof.B.S.U Damping of Yes Dr.N.D.Ghaghave 12/06/2012 -12 mre Torsional Oscillation in Turbine Generator Set Using Gate Controlled Series Capacitor 2011 Prof.B.S.U SPWM Control Yes Dr.N.D.Ghaghave 12/06/2012 -12 mre Matrix Converters for Traction Drives 2011 Sable Prof.P.S.kul Design of Inverter Yes Dr.V.B.Virulkar, 12/06/2012 -12 karni for Solar Home Dept of Elect. Lighting System Engg,Govt.Colleg e of Engg,Amravati- 444604 Email:vbvirulkar @yahoo.com Mobile:09423417 393 2011 Rana Prof.P.S.kul Microcontroller Yes Dr.V.B.Virulkar 12/06/2012 -12 karni Based Stand-Alone Solar Photovoltaic

EE/VNIT/Nov 13 Page 152 of 218

System 2011 Singh Prof.Mrs.N. Power Quality Yes Dr.V.B.Virulkar 12/06/2012 -12 R.Patne Problems Study on IEEE 14 Bus System and Their Mitigation Using UPQC with Different Control Scheme 2011 Agrawal Prof.M.V.A Photovoltaic System Yes Dr.V.T.Somshekh 12/06/2012 -12 ware Emulator with New er,Professor,Dept MPPT Algorithm of Elect.Engg,NIT, Warangal(AP) Email:vtsomasek [email protected] om Mobile:09908150 883 2011 Mane Prof.M.V.A Multilevel Inverter Yes Dr.V.T.Somshekh 12/06/2012 -12 ware Performance Under er Different Modulation Strategies 2011 Kaksha Prof.Mrs.R. Modelling and Yes Dr.V.T.Somshekh 12/06/2012 -12 J.Satputaley Simulation For er Voltage Sag & Swells Mitigation Using DVR With SPWM And SVPWM Techniques 2012 Swami Dr.K.L.Tha Improvement of Yes Dr.N.D.Ghavghav 21/06/2013 -13 Dasari kre voltage Profile and e, System Stability Associate using HVDC Light Professor & Dean (acad), Dept of Elect.Engg. Govt. College of Engg,Amravati- 444603. Email:g_nit@redi ffmail.com Mobile:94202548 21 2012 P.Gitanjali Dr.K.L.Tha HVDC Light for Yes Dr.N.D.Ghavghav 21/06/2013 -13 kre distributed e Generation Mohamme Dr.H.M.Sur An Active Clamp Yes Dr.N.D.Ghavghav 21/06/2013

EE/VNIT/Nov 13 Page 153 of 218

2012 d Imran yawnshi Push Pull Inverter e -13 Khan using SPWM for Solar Power Application 2012 Buddepu Dr.H.M.Sur High Power Factor Ye s Dr.N.D.Ghavghav 21/06/2013 -13 Raja yawnshi single Phase UPS e Sekhar 2012 P.Narseh Dr.S.Pattnai Analysis and Yes Dr.P.P.Bedekar,A 21/06/2013 -13 Kumar k Control of High ssociate power Density Professor,Dept.of Electrical Engg, Govt. College of Engg, Amravati- 444603. Mobile No:09890355741 2012 Prashant Dr.S.Pattnai Analysis of Yes Dr.P.P.Bedekar 21/06/2013 -13 shukla k Multilevel Inverter for Grid connected PV System Employing MPPT Algorithm 2012 Ramesh Dr.S R Comprehensive Yes Dr.P.P.Bedekar 21/06/2013 -13 K.Jha Bhide Study of Application of Fourier Techniques in Power System Protection 2012 A.Abdul Dr.S R Application of Dr.P.P.Bedekar 21/06/2013 -13 Azeez Bhide Kalman Filter and related Techniques in Power System Protection 2012 D.Mulcha Dr.S S Bhat Generator Outage Yes Prof.V.N.Pande, 21/06/2013 -13 mdani Analysis on CUDA Dept.of Electrical Based GPU’s Engg, Govt. College of Engg,Shivaji Nagar,Pune- 411005 Email:vnpande@r ediffmail.com Mobile:09422915 473 2012 Kumarswa Dr.Mrs.N.R The Dynamic Yes Prof.V.N.Pande, 21/06/2013 -13 mi G. .Patne Voltage Restorer to Dept.of Electrical Compensate Engg, Govt. Different Power College of Quality Problems Engg,Shivaji

EE/VNIT/Nov 13 Page 154 of 218

Nagar,Pune- 411005 Email:vnpande@r ediffmail.com Mobile:09422915 473 2012 Ramsingh Dr.Mrs.N.R Study the Effect of Yes Prof.V.N.Pande 21/06/2013 -13 D .Patne Neutral Path Impedance on Voltage and Current distortion and Power Quality Improvement by Using Shunt Active Power Filter 2012 Srinivas A Dr.Mrs.N.R Hybrid Series Yes Prof.V.N.Pande 21/06/2013 -13 .Patne Active Filter to Enhance the Power Quality for Three phase Three Wire System 2012 K.Nitin Prof.V.N.R Fuel Cell Yes Dr.N.D.Ghavghav 21/06/2013 -13 ajurkar Distributed e, Generation System Associate Using Fuzzy logic Professor & Dean Control (acad),Dept of Elect.Engg. Govt. College of Engg, Amravati-444603. Email:g_nit@redi ffmail.com Mobile:94202548 21 2012 M.Ramba Dr.B.S To Study the Yes Dr.N.D.Ghavghav 21/06/2013 -13 bu .Umre Damping of SSSR e Using NGH and Phase Imbalance Scheme 2012 K.Rachan Dr.B.S. To Study the Yes Dr.N.D.Ghavghav 21/06/2013 -13 ajali Umre Damping of SSR e Using SSSC with the Application of Hysteresis Current Control 2012 Narendra Dr.M.R. Study of Multilevel Yes Dr.V.B.Virulkar, 21/06/2013 -13 Devu Ramteke Inverter with Dept of Reduced Number of Elect.Engg. Switches Govt.College of Engg,Amravati-

EE/VNIT/Nov 13 Page 155 of 218

444604 Email:vbvirulkar @yahoo.com Mobile:09423417 393 2012 Manish Dr.M.R. Frequency Yes Dr.V.B.Virulkar 21/06/2013 -13 sahare Ramteke Controlled Boost Converter with High Efficiency 2012 Jhariya Dr.M.S. Error Compensation Yes Dr.V.B.Virulkar, 21/06/2013 -13 Ravi S. Ballal Technique for Utilities & Industrial Metering 2012 Deshmukh Dr.M.S. Impact of Power Yes Dr.V.B.Virulkar 21/06/2013 -13 Ballal Quality Assessment on Transformer using wavelet Transform 2012 Doorwar Dr.M.S. An Artificial Yes Dr.V.B.Virulkar 21/06/2013 -13 A. Ballal Intelligence Based Conditioning Monitoring System for Power Transformer Using Real Time Based Analysis 2012 P.Suresh Dr.M.V.Aw Dual Inverter fed Yes Dr.S.S.Dambhare, 21/06/2013 -13 are Open Winding Dept.ofElectrical Induction Motor Engg,Govt.Colleg Drive with e of Engg,Shivaji Harmonic Nagar,Pune- Suppression scheme 411005 for High power Email:sanjay.dam Applications using [email protected] TMS320F2812 DSP m Mobile:94206978 68 2012 Nandankar Dr.M.V.Aw Efficient Multi Yes Dr.S.S.Dambhare 21/06/2013 -13 P.V are Phase Bidirectional DC-DC Converter using Adaptive Variable Switching Technique 2012 Arjun C. Dr.Mrs.A.S. Study of Various Yes Dr.S.S.Dambhare, 21/06/2013 -13 Junghare Controllers for Dept.of Electrical magnetic Levitation Engg, Govt. System College ofEngg,Shivaji Nagar,Pune-

EE/VNIT/Nov 13 Page 156 of 218

411005 Email:sanjay.dam [email protected] m Mobile:94206978 68 2012 Sirisha V Dr.Mrs.A.S. Study of Various Yes Dr.S.S.Dambhare 21/06/2013 -13 Junghare Controllers on Rotary Inverted Pendulum 2012 Satish Dr.V.S.Kale Microcontroller Yes Dr.S.S.Dambhare 21/06/2013 -13 K.T. Based Multi- functional Protective Relay 2012 Zaffar Dr.V.S.Kale Optimum Yes Dr.S.S.Dambhare 21/06/2013 -13 S.M. Coordination of Over Current Relay 2012 Sekhar Dr.V.S.Kale Fault Analysis to Yes Dr.S.S.Dambhare 21/06/2013 -13 G.C. Implement DSP based Relay and Improving Voltage profile of 25kv AC railway Traction System 2012 S.R.Sabba Dr.V.B.Bor Study and Yes Dr.G.A.Dhomne, 21/06/2013 -13 nwar ghate Application of Head&Associate SMES with Professor,Dept.of STATCOM Electrical Engg,Govt. College of Engg,Ballarpur Road-442403 Email:g_dhomane @rediffmail.com Mo No:09370152738 2012 K.Ashok Dr.V.B.Bor Study and Yes Dr.G.A.Dhomne 21/06/2013 -13 Kumar ghate Application of Ultra Capacitor with STATCOM 2012 P.S.Nagral Dr.V.B.Bor QA 600W Active Yes Dr.G.A.Dhomne 21/06/2013 -13 e ghate PFC-DCM AC 2012 Shravani Dr.Mrs.M. Vector Control of Yes Dr.G.A.Dhomne 21/06/2013 -13 K.K.P A.Chaudhar Induction Motor i 2012 D.Mallesh Dr.Mrs.M. Multiple Input DC- Yes Dr.G.A.Dhomne 21/06/2013 -13 A.Chaudhar DC Converter i 2012 Dhanavath Dr.P.S.Kulk Soft switching DC- Yes Dr.Shailendra 21/06/2013

EE/VNIT/Nov 13 Page 157 of 218

-13 Shankar arni DC Converter with Jain,Professor,De MPPT for Solar pt. of Electrical Home Lighting Engg.MANIT,Bh System opal- 462051,Email:sjai [email protected], Mo No:09406540720 2012 Anjali Dr.P.S.Kulk Single Stage Yes Dr.Shailendra 21/06/2013 -13 A.K. arni Inverter with MPPT Jain for Grid Connected PV Systems 2012 Bharath K. Prof.Mrs.R. Design and Yes Dr.Shailendra 21/06/2013 -13 J.Satputaley development of Jain Cascaded Multi- Level Inverter for Single Phase Induction Motor

EE/VNIT/Nov 13 Page 158 of 218

Annexure IX

EE/VNIT/Nov 13 Page 159 of 218

EE/VNIT/Nov 13 Page 160 of 218

Annexure X

(a) Invited Lectures of Eminent Guests

Date Name of Eminent Guest Affiliation of the Theme of the lecture Guest 20/8/2008 Mr Shantanu Das Scientist H Introduction to fractional BARC, Bombay Calculus 13/10/2008 Dr U.V kulkarni Dean & Prof. Application of fuzzy and SGGS Nanded neural network to Electrical and Electronics Engineering 06/04/2009 Prof. D. Thukaram IISc, Banglore Application of SVMs and ANNs for post fault analysis and restoration of Power Networks 11/01/2010 Prof. BhimSingh IIT Delhi Multipulse AC-DC Converter

--do------do------do--- PQ improvement in ASD

--do------do------do--- PQ improvement in SMPS

11/01/2010 Dr S.S. Tanavade BATU, Lonere PSIM Simulation 12/01/2010 Dr Shailendra Jain MANIT Bhopal Power Quality: Causes and Solutions --do------do------do --- Power Electronic Converters for Fuel Cell based Distributed Generation 12/01/2010 Dr S.S. Tanavade BATU, Lonere PCB Design 12/01/2010 Dr. M.M. Renge PCOE, Nagpur Multilevel Inverter 14/01/2010 Prof. M.K. Mishra IIT Madras Application of PE in PS

--do------do------do--- Design & development of custom power devices --do------do------do--- DSP as a PE controller 22/03/2010 Prof. D.P. Kothari Vice -Chancellor, Power System: Future VIT, Vellore issues and their probable solutions 25/3/2010 Er. Kukde Dy E.E., MSEB Power Line Carrier Communication 06/08/2010 Er Kukde Dy. E.E. MSEB Functions of Load

EE/VNIT/Nov 13 Page 161 of 218

Dispatch Centre 06/09/10 Prof. D. Thukaram IISc Banglore Voltage Stability

Assessment =

(b) Use of audiovisual Aids

Dr. S. S. Bhat

Dr. B. S. Umre

Prof. K. L. Thakre

Prof. H. M. Suryawanshi

Dr. V. S. Kale

Assessment =

Date Name of Institute/ Industry Address

Feb 2011 Sanjeevan Urja Gram

33kv Substation Savangi

LD Centre

Assessment =

(d) Summer Internship – Assessment =

EE/VNIT/Nov 13 Page 162 of 218

Annexure XI

Sr.No. General Infrastructure Details 1 Total Area in Acres 215.26 Acres 2 Built-up Area 80235 Sq.Mtr. 3 Office Space Administrative Block 2453 Sq.Mtr. Academic Block 34471 Sq.Mtr. Other blocks such as - Boys Hostel 16090 Sq.Mtr. Girls Hostel 4980 Sq.Mtr. Auditorium 1700 Sq.Mtr. Gymnasium 835 Sq.Mtr. Sports 23541 Sq.Mtr. Health Centre 311 Sq.Mtr. Faculty Housing 10613 Sq.Mtr. Supporting Staff Housing 3500 Sq.Mtr. Guest House 1930 Sq.Mtr. Community Shops 90 Sq.Mtr. Clubs 325 Sq.Mtr. 4 Lecture Theatres Nil 5 Number of Class Rooms 50 6 Stocks in Library Number of Books 90838 Journals 12411 Periodicals etc. 9096 7 Laboratory Details Number 30 Approximate Area 315 Sq.Mtr. Seating Capacity 30 8 Seminar / Conference Hall Number 10 Approximate Area 100 Sq.Mtr. Seating Capacity 25

EE/VNIT/Nov 13 Page 163 of 218

9 Sports Facilities 32541 Sq.Mtr. 10 Recreation facilities 100 Sq.Mtr. 11 Community Shops 90 Sq.Mtrs. 12 Details of Transport Facilities 4 vehicles in running condition 13 Guest House Capacity 36 Area 1930 Sq.Mtr.

EE/VNIT/Nov 13 Page 164 of 218

Annexure XII

BOARD OF GOVERNORS

An autonomous Board of Governors having representatives of the Central Government, State Government, AICTE, UGC, teaching faculty, industrialists and technologists manage the institute. The present composition of the Board is as follows:

Sr.No. Name Designation 1. Dr. S. K. Joshi Chairman Distinguished Scientist (CSIR) & Vikram Sarabhai Professor of JNCASR, National Physical Laboratory, Dr. K. S. Krishnan Marg, New Delhi – 110012 2. Smt. Amita Sharma (IAS), Member Special Secretary (NITs), Department of Higher Education, Ministry of HRD, Govt. of India, "C" Wing, Shastri Bhavan, NEW DELHI – 110 115 3. Shri A. N. Jha, Member Jt. Secretary & Financial Adviser (HRD), Ministry of HRD, Deptt. of Higher Education (IFD), 118-C, Shastri Bhawan, NEW DELHI – 110 115 4. Shri Pramod Chaudhary, Member Executive Chairman, Praj Industries Limited, Praj House, Bavdhan, PUNE – 411 021 5. Prof. (Mrs.) Joyashree Roy, Member Professor of Department of Economics, Jadavpur University, Kolkata, 11, Central Park, KOLKATA – 700 032 6. Prof. S. C. Sahasrabudhe, Member Director, Dhirubhai Ambani Institute of Information & Communication Technology, Gandhinagar, Near Indroda Circle, GANDHINAGAR – 382 007 7. Prof. U. N. Gaitonde, Member Deptt. of Mechanical Engineering, Indian Institute of Technology, Bombay Powai, Mumbai – 400 076 8. Prof. R. K. Paretkar, Prof. in Meta. Deptt. 9. Mr. I. L. Muthreja, Member Associate Professor, Mining Engineering Department, VNIT, Nagpur 10. Dr. Narendra S. Chaudhari, Member Director, VNIT, Nagpur 11. Dr. B. M. Ganveer Secretary Registrar, VNIT, Nagpur SENATE

(a) The Director, V.N.I.T., Nagpur ex -officio Chairman (b) The Dy. Director, Member (Ex-officio)

EE/VNIT/Nov 13 Page 165 of 218

(c) The professors appointed or recognized as such by the Institute for the Members purpose of imparting instruction in the Institute; (d) Three persons, one of whom shall be woman not being employees of Members the Institute, to be nominated by the Chairman in consultation with the Director from amongst educationists of repute, one each from the fields of Science, Engineering and Humanities (e) Such other members of the staff as may be laid down in the Statutes Members Registrar, V.N.I.T., Nagpur is the Ex-officio Secretary of Senate.

PRESENT MEMBERS

1. Dr. Narendra S. Chaudhari, Chairman Director, VNIT, Nagpur 2 Prof. Milind Atrey, Member Professor and In-charge SINE, Department of Mechanical Engineering, IIT Bombay, Powai, MUMBAI – 400076 3. Dr. (Ms.) Kamal Singh, Member Rtd. Vice-Chancellor of Amravati University Nelco Society, NAGPUR 4. Prof. Meenakshi Gupta, Member Department of Humanities and Social Science, IIT Bombay, Powai, MUMBAI – 400076 5. Dr. S. R. Sathe Member Dean (Planning & Development), VNIT, Nagpur 6. Dr. R. K. Ingle Member Dean (Faculty Welfare) VNIT, Nagpur 7. Dr. H. M. Suryawanshi Member Dean (Research & Consultancy) VNIT, Nagpur 8. Prof. O. R. Jaiswal Member Dean (Academics) VNIT, Nagpur 9. Dr. G. P. Singh Member Dean (Students Welfare) VNIT, Nagpur 11. Dr. S. V. Bakre Member Head, Deptt. of Applied Mechanics EE/VNIT/Nov 13 Page 166 of 218

VNIT, Nagpur 12. Prof. L. M. Gupta Member Professor of Structural Engineering VNIT, Nagpur 13. Dr. M. M. Mahajan Member Professor of Structural Engineering VNIT, Nagpur 14. Dr. G. N. Ronghe Member Professor of Structural Engineering VNIT, Nagpur 15. Dr. K. L. Wasewar Member Head, Chemical Engg. Deptt. VNIT, Nagpur 16. Dr. A. R. Tembhurkar Member Head, Civil Engg. Deptt. VNIT, Nagpur 17. Dr. V. A. Mhaisalkar Member Professor of Civil Engineering, VNIT, Nagpur 18. Dr. Rajesh Gupta Member Professor of Civil Engineering, VNIT, Nagpur 19. Dr. A. D. Pophale Member Professor of Civil Engg. VNIT, Nagpur 20. Dr. Y. B. Katpatal Member Professor of Civil Engg. VNIT, Nagpur 21. Dr. M. V. Aware Member Head, Deptt. of Electrical Engg. VNIT, Nagpur 22. Dr. K. L. Thakre Member Professor of Electrical Engg., VNIT, Nagpur 23. Dr. R. B. Deshmukh Member Head, Deptt. of Electronics Engg. VNIT, Nagpur 24. Dr. A. G. Keskar Member Professor of Electronics & Comm. VNIT, Nagpur 25. Dr. R. M. Patrikar Member Professor of Electronics & Comm. VNIT, Nagpur 26. Dr. K. D. Kulat Member Professor of Electronics Engineering VNIT, Nagpur 27. Dr. A. S. Gandhi Member Professor of Electronics Engineering EE/VNIT/Nov 13 Page 167 of 218

VNIT, Nagpur 28. Dr. P. S. Deshpande Member Head, Department of Computer Sc. & Engg., VNIT, Nagpur 29. Dr. C. S. Moghe Member Professor of Computer Science Engg. VNIT, Nagpur 30. Dr. I. K. Chopde Member Head, Deptt. of Mechanical Engg. VNIT, Nagpur 31. Dr. P. M. Padole Member Professor of Mechanical Engg. VNIT, Nagpur 32. Dr. Animesh Chatterjee Member Professor of Mechanical Engg. VNIT, Nagpur 33. Dr. A. M. Kuthe Member Professor of Mechanical Engg. VNIT, Nagpur 34. Dr. S. G. Sapate Member Head, Deptt. of Metallurgical & Materials Engg. VNIT, Nagpur 35. Dr. R. K. Paretkar Member Professor of Metallurgical & Materials Engg. VNIT, Nagpur 36. Dr. D. R. Peshwe Member Professor of Metallurgical & Materials Engg. VNIT, Nagpur 37. Dr. A. P. Patil Member Professor of Metallurgical & Materials Engg. VNIT, Nagpur 38. Dr. R. R. Yerpude Member Head, Deptt. of Mining Engg. VNIT, Nagpur 39. Prof. S. Shringarputale Member Professor of Mining Engg. VNIT, Nagpur 40. Dr. (Mrs.) Alpana Dongre, Member Head, Deptt. of Architecture VNIT, Nagpur 41. Dr. V. S. Adane Member Professor of Architecture, VNIT, Nagpur 42. Dr. V. K. Deshpande Member Head, Deptt. of Applied Physics VNIT, Nagpur 43. Dr. S. S. Umare Member Head, Deptt. of Chemistry EE/VNIT/Nov 13 Page 168 of 218

VNIT, Nagpur 44. Dr. P. P. Chakravarthy Member Head, Deptt. of Mathematics VNIT, Nagpur 45. Dr. Y. M. Deshpande, Member Head, Deptt. of Humanities, VNIT, Nagpur 46. Dr. S. B. Thombre Member Professor of Mechanical Engg & i/c T&P, VNIT, Nagpur 47. Dr. D. H. Lataye Member Chief Warden VNIT, Nagpur 48. Dr. B. M. Ganveer Secretary Registrar VNIT, Nagpur

Students Representative (for the matters related to Students Affairs)

1. General Secretary 2. Secretary, Under graduate Academic Affairs 3. Secretary, Post graduate Academic Affairs

FUNCTIONS OF ADMINISTRATIVE BODY

The Registrar is responsible to the Director for the proper discharge of his 1. function

2. He is the custodian of record and common seal of the Institute and such other property of the Institute as the Board of Governors commit to his charge. 3. He deals with legal matters pertaining to administration. He is the Chief Administrative Officer of the Institute and Reporting Officer to all the Administrative officers’ viz. Dy. Registrar (Accounts), Dy. 4. Registrar (Academic), Assistant Registrar (Establishment) Stores Officer, Assistant Engineer (Estate), Assistant Proctor, Internal Audit Officer, Hostel Manager, Librarian, Medical officer and Security Officer.

Dy. Registrar(Academic)

Deals with all academic matters such as admission (UG, PG and Ph.D.), enrollment, issuing of identity cards, maintaining personal record of students admitted, assisting the Dean (Academic) and the Director in preparation and maintenance of academic calenda r, conduct of examinations, conduct of convocation, award of degrees, awards, medals, issuing transfer certificate, migration certificate, bonafide certificate,

EE/VNIT/Nov 13 Page 169 of 218

degrees, and maintaining the record of legal cases arising out of academic matters.

Dy. Registrar(Accounts)

Preparation of Annual budget, revised budget estimates, maintaining every financial transaction, dealing with Income Tax of the employees, Professional Tax and other taxes, disbursement of salary, pension, scholarships, remunerations, c ontractual amounts, payment against bills. Liaisoning with banks having Institute accounts. Coordinating with CAG, maintaining financial record and to carry out any other duties assigned by the Director. The Dy. Registrar is also carry out the activities s uch as Supervising, monitoring and providing guidance to the sub-ordinates working in Accounts Section.

Internal Audit Officer

Inspect, examine and audit every bill received by the Accounts Section. Examine the cases having financial implications, received from Administration / Establishment Section. Maintain liaison with CAG. Assist the authorities in interpretation of Service Rules especially where public money is involved.

VARIOUS MEETING COMMITTIES(ACADEMIC&ADMINISTRATIVE)

1.HOD’S MEETING

2.DEAN’S MEETING

3.SENATE MEETING

4.FINANCE MEETING

5.BOD MEETING

5.BWC MEETING

FREQUENCY OF MEETINGS

HoDs Meeting & few sample minutes

1] HoD Meeting 8th June 2012

2] HoD Meeting 9th July 2012

3] HoD Meeting 7th September 2012

4] HoD Meeting 16th November 2012 EE/VNIT/Nov 13 Page 170 of 218

5] HoD Meeting 18th December 2012

6] HoD Meeting 27th February 2013

7] HoD Meeting 26 April 2013

8] HoD Meeting 8th July 2013

9] HoD Meeting 25th July 2013

10] HoD Meeting 2nd August 2013

EE/VNIT/Nov 13 Page 171 of 218

EE/VNIT/Nov 13 Page 172 of 218

EE/VNIT/Nov 13 Page 173 of 218

EE/VNIT/Nov 13 Page 174 of 218

EE/VNIT/Nov 13 Page 175 of 218

Deans Meeting & few sample minutes

1] Deans Meeting 1st June 2012

2] Deans Meeting 9th July 2012

3] Deans Meeting 24th July 2012 4] Deans Meeting 2nd & 3rd August 2012 part1 & part2

5] Deans Meeting 5th September 2012

6] Deans Meeting 7th and 9th October 2012

7] Deans Meeting 24th December 2012

8] Deans Meeting 31th December 2012

9] Deans Meeting 22nd January 2013

10] Deans Meeting 26th February 2013

11] Deans Meeting 18th March 2013

12] Deans Meeting 7th April 2013

13] Deans Meeting 17th April 2013

14] Deans Meeting 10th May 2013

15] Deans Meeting 4th June 2013

16] Deans Meeting 19th June 2013

17] Deans Meeting 8th August 2013

18] Deans Meeting 28th August 2013

EE/VNIT/Nov 13 Page 176 of 218

EE/VNIT/Nov 13 Page 177 of 218

EE/VNIT/Nov 13 Page 178 of 218

senate meeting & few sample minutes

EE/VNIT/Nov 13 Page 179 of 218

EE/VNIT/Nov 13 Page 180 of 218

EE/VNIT/Nov 13 Page 181 of 218

EE/VNIT/Nov 13 Page 182 of 218

EE/VNIT/Nov 13 Page 183 of 218

EE/VNIT/Nov 13 Page 184 of 218

EE/VNIT/Nov 13 Page 185 of 218

EE/VNIT/Nov 13 Page 186 of 218

EE/VNIT/Nov 13 Page 187 of 218

EE/VNIT/Nov 13 Page 188 of 218

EE/VNIT/Nov 13 Page 189 of 218

EE/VNIT/Nov 13 Page 190 of 218

EE/VNIT/Nov 13 Page 191 of 218

EE/VNIT/Nov 13 Page 192 of 218

EE/VNIT/Nov 13 Page 193 of 218

EE/VNIT/Nov 13 Page 194 of 218

EE/VNIT/Nov 13 Page 195 of 218

BWC MEETING & FEW SAMPLE MINUTES

EE/VNIT/Nov 13 Page 196 of 218

EE/VNIT/Nov 13 Page 197 of 218

EE/VNIT/Nov 13 Page 198 of 218

EE/VNIT/Nov 13 Page 199 of 218

Annexure XIII

EE/VNIT/Nov 13 Page 200 of 218

EE/VNIT/Nov 13 Page 201 of 218

EE/VNIT/Nov 13 Page 202 of 218

EE/VNIT/Nov 13 Page 203 of 218

EE/VNIT/Nov 13 Page 204 of 218

EE/VNIT/Nov 13 Page 205 of 218

EE/VNIT/Nov 13 Page 206 of 218

EE/VNIT/Nov 13 Page 207 of 218

EE/VNIT/Nov 13 Page 208 of 218

EE/VNIT/Nov 13 Page 209 of 218

EE/VNIT/Nov 13 Page 210 of 218

EE/VNIT/Nov 13 Page 211 of 218

EE/VNIT/Nov 13 Page 212 of 218

EE/VNIT/Nov 13 Page 213 of 218

Annexure XIV

LIST OF DELEGATION OF FINANCIAL POWERS

Sr.No. Particulars Functionaries Proposed Financial Power

01. All kinds of expenditure under plan Director Up to 8 Crores and non plan budget

02. All kinds of expenditure under plan Deputy Director Upto 50 Lakhs and non plan budget

03. All kinds of purchases & other Dean (R&C) Upto 10 Lakhs expenditure from Sponsor Research, Projects, Schemes and Consultancy Funds

04. For Purchase of Consumables from Principal Upto 2 Lakhs (for Projects, Schemes and Consultancy Investigator Consumables only) Fund

05. 1. Stores, spares, accessories Heads of Deptts. Upto 2 Lakhs under allotted operating grant (Non Prof-in-Charge Plan) (T&P), Librarian

2. Purchases under allotted Plan Grant,

06. All Expenditure related to student’s Dean (St. Upto 2 Lakhs activities, including sports. Welfare)

07. Purchases, Payments of scholarship Dean Upto 10 Lakhs & other allied expenditure within (Academics) approved & allotted grant of the year. All related expenditure of PG students & research scholars within

EE/VNIT/Nov 13 Page 214 of 218

approved budget.

08. Expenditure related to their All Deans Upto Rs. 2 Lakhs operational expenses (Office, small equipment, consumables etc.

09. Expenditure for campus Dean (P&D) Upto Rs. 2 Lakhs development, minor repairs, cleaning, minor repair of roads, parks, convocation and miscellaneous for which the administrative approval is accorded and fund is allotted for the purpose.

10. Purchases of Journals, consumables, Chairman, Upto Rs. 2 Lakhs spares and accessories etc. form Library budgetary allocation of the year Committee

11. Expenditure for medicine/

consumables/equipments directly Medical Officer MO: upto Rs. 1 Lakhs in each case, with related to Health Service Celling of Rs. 5 lakhs expenses. per year

12. (i) Payment of Telephone bil FAX, Bill ,

Electricity/bills, Water bill etc. Registrar

(ii) Purchases of equipment, uniform, Full power of (i) and Upto Rs. 2 Lakh consumables, stationeries, spares &

accessories, for registry/requirement

for departments not covered above

within allotted grant of the year.

13. For contingency expenditure Dy. Registrar,

Ass. Registrar Up to Rs. 10000

(Independent

EE/VNIT/Nov 13 Page 215 of 218

List of faculty members who are administrators/decision makers for various jobs –

Deans * Dean (Planning and Development) -- Dr.Rajesh Gupta * Dean (Faculty Welfare) -- Dr. R. K. Ingle * Dean (Research and consultancy) -- Dr. Animesh Chatterjee * Dean (Academics) -- Dr. R. M. Patrikar * Dean (Students Welfare) -- Dr. A. P. Patil 8.2.3 Conti.. The Institute Grievance Redressal Committee is constituted with the following members:- * Dr. M. M. Mahajan, Prof. of Structural Engg. – Chairman * Dr. Aniket M. Deshmukh, Assoc Prof. of Architecture -- Member * Shri Askok Thakur, Senior Assistant -- Member * Shri C. V. Chalpati Rao -- Member * Shri V. S. Kapse, Liaison Officer, SC/ST -- Member * Dr. A. Andhare, Associate Prof. of Mech. Engg. -- Member Secretary

EE/VNIT/Nov 13 Page 216 of 218

Annexure V

Module Any Developed/ Duration Resource Target Usage and description other organised persons audience citation contribut by etc. ory institute / industry Electicity: Use, ------Dept. of 26 th -27 th Dr. M. V. Faculty Safety & Electrical Feb 2009 Aware, Dr. and Conservation Engg., A.S. Research VNIT, Junghare Nagpur Scholars Educational ---- Dept. of 27 th Dr. M. V. Faculty Laboratory Electrical April Aware, and Virtual Engg., 2009 Ashwin Research Instrumentation VNIT, Dhabale with LabVIEW. Nagpur Scholars

High Voltage ---- Dept. of 10 th May Dr. M. V. Faculty Engineering Electrical 2009 Aware and Laboratory Engg., Research Scholars Work. VNIT, Nagpur Recent Trends M.H.R.D Dept. of 27 th July Dr. M. V. Faculty st in Power . Electrical to1 Aug Aware, and System” Engg., 2009 Dr. (Mrs.) Research VNIT, M.A.Chaud Nagpur hari, Mrs. Scholars R. J. Satpuley Simulation ------Dept. of 09-13 Dr. P. S. Faculty software in Electrical Nov. Kulkarni, and Electrical Engg., 2009 Dr. V. S. Research Engineering VNIT, Kale Nagpur Scholars

Advanced Dept. of 11 - 15 Dr. V. B. Faculty MHRD Power Electrical Jan., Borghate, and Engg., 2010 Dr. (Mrs.) Electronics: Research VNIT, M. Nagpur A.Chaudhar EE/VNIT/Nov 13 Page 217 of 218

Applications i, Dr. B. S. Scholars and Umre implementation Solar ------Dept. of 12-22 Faculty Photovoltaics: Electrical Dec., and Fundamentals, Engg., 2011 Research Technologies VNIT, Scholars and Nagpur Applications Introduction to IIT Dept. of 25 June- IIT Bombay Faculty Review of literature, Research Bombay Electrical 4 July (DEP and Methodology Engg., 2012 mode) reading/wri Research ting paper, VNIT, productive Scholars Nagpur thinking, hypothesis,

testing, communica tion skills, motivation for research work LabVIEW- National NI Systems 21-24 Faculty Customized Instrume India Pvt. August and Training nts Ltd. and 31 Research Corporat August-1 ion Sept. Scholars 2012

FOSS (Free IIT Dept. of 9-11 IIT Bombay Students, Io make October aware of Open Source Bombay Electrical Staff and Software) Engg., 2012 FOSS(Pyth Exam: Faculty on, PHP, VNIT, 19/10/12 Scilab) Nagpur

EE/VNIT/Nov 13 Page 218 of 218