DOCSLIB.ORG

Table of Contents

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Table of Contents Advances in Chemical, Material and Metallurgical Engineering ISBN(softcover): 978-3-03785-589-8 ISBN(eBook): 978-3-03813-970-6 Table of Contents Preface and Conference Organization Chapter 1: Theoretical and Computational Chemistry Chemical Bonding Characteristics of Lanthanide Complexes: a Case of Valence Study H. Zhang, X. Zhang and J.G. Ma 3 Development of the Simulation Software on the Complex Reaction Kinetics X.Z. Huang and H.L. Chen 7 Energy-Level Splitting of Cs2NaYCl6 Crystal Doped with Praeseodymium M.L. Duan, J.H. Li and X.F. Yang 11 NBO Analysis the Chlorine Anion Recognition Mechanism of the Urea-Based Involving Iodine and Fluorine Derivation Functional Molecular Material Y.Z. Liu, Y. Liu, K. Yuan and Y.C. Zhu 15 The Computer Simulation of the Acid-Base Titration X.Z. Huang, Y.T. Liu and L. Zhang 20 The Junction Width Effect on Inelastic Electron Tunneling Spectroscopy in Octanethiolate Molecular Junctions J.C. Leng, H. Ma and Y. Ma 25 The Orientation Effect on Inelastic Electron Tunneling Spectroscopy in Octanethiolate Molecular Junctions J.C. Leng, H. Ma and Y. Ma 29 The Geometry Structure and Molecular Vibrational Property of the Zeatin K. Yuan, Y.C. Zhu, L.J. Yang and Z.B. Wang 33 The Geometry Structures and IR Properties of the Urea-Based Derivation Functional Molecular Materials Used for the Chlorine Anion Recognition K. Yuan, Y.C. Zhu, Y.Z. Liu and H.A. Tang 37 Research on the Viscosity of CaF2-SiO2-Al2O3-CaO-MgO Slag System by the Thermodynamic Software Y. She, J.T. Ju, Z.Y. Jiao and Z.H. Zhang 42 Density Functional Study of H2S Adsorption on Small Agn (n = 1–5) J.Q. Wen, A.P. Yang, G.X. Chen and C.J. Zhang 47 Boundary Element Numerical Method for Electric Field Intensity Generated by Ten-Needle Electrodes in Vacuum A.L. Wang and F.P. Liu 52 Chapter 2: Analytical and Environmental Chemistry, Waste Disposal and Utilization Technology A Comparison of Three Indophenol Blue Methods for Measuring Ammonium in Five Types of Soils in China X.F. Gao, Y. Yang, Z.L. Liang and J.J. Zheng 59 Catalytic Voltammetric Determination of Vanadium in Crude Oil at Carbon Nanotube Paste Electrode L. Zheng and Y. Zhang 64 Comparison of Electrochemical Behaviors of Chalcopyrite, Bornite, Chalcocite and Covellite in 9K Medium C.L. Liang, J.L. Xia, Z.Y. Nie and X.P. Luo 68 Comparative Study of Geo-Accumulation Index and Enrichment Factor in Source Apportionment of Atmospheric Particulate Matter C.S. Fang, Z. Qu, D.L. Wang, J. Wang and L.J. Bi 72 Decolourization of Methylene Blue by Persulfate W. Hu, S.X. Li and C.D. Wang 76 Discrimination and Simultaneous Determination of 6-BA and KT by Polarized Synchronous Light Scattering and Synchronous Light Scattering Spectrum X.H. Zhao, Q.H. Zhu, Q. Yang, W. He, S. Zhou, X.Y. Li and J.D. Yang 81 Improvement on Determination of the Components of Industrial Sodium Polysulfide Z.L. Huang, S.P. Feng, D.S. Huang, G.Y. Liu, R.M. Xiao, L.D. Sun and W. Liu 87 Investigations of the Isotropic G Factors for the Cubic Fe+ Centers in LiF and NaF X.F. Hu, S.Y. Wu, M.Q. Kuang and B.T. Song 91 GC/MS Analysis of Soluble Fraction by Microwave-Assisted Extraction with Acetone from Two Kinds of Coal C.X. Ju, F.G. Li, Z.M. Zong, H. Zhang and X.Y. Wei 95 Indirect Spectrophotometric Determination of Methimazole Using Phenanthroline-Fe(II) X.R. Wen and C.Q. Tu 101 Hydrothermal Sulfidation of Hemimorphite with Elemental Sulfur C.X. Li, C. Wei, Z.G. Deng, M.T. Li, X.B. Li and H.S. Xu 106 Research on Determination and Preparation of Diphenic Acid Z. Qi, Z.Y. Liu and J.L. Wang 112 Studies on Organic Carbon Distribution Characteristics of Organic- Mineral Complex in Sediment of Yitong River J.H. Wang, Y. Wang, Z.D. Zhang, M.L. Li and L.S. Du 117 Study on Effects of Different Types of Acid Rain on Nutritional Quality of Pakchoi C.S. Fang, D.L. Wang, S.C. Wang, S.N. Zhang, Z. Qu and J. Wang 122 Studies on the Interaction Mechanism between Lithium Chloride and Amorphous Al(OH)3 H.J. Yang, B. Li, X.L. Chai and W. Li 126 Survey and Evaluation of Heavy Metal Elements Pollution of Changchun Suburb Land L.L. Xu, L.Z. Zhang and B.L. Liu 130 The Nitrogen Distribution Characteristics of Different Colloidal Dispersion Complex in Yitong River Sediments J.H. Wang, T.T. Chen, L.S. Du and L.P. Zhao 134 Alkylpyridinium Hydrosulfate Ionic Liquids as Novel Additives for Zinc Electrodeposition Q.B. Zhang, Y.X. Hua and L.Y. Chen 140 Two-Phase Beckmann Rearrangement of Cyclohexanone Oxime under Milder Conditions in Cyclohexane G.Q. Liu, J. Wu and H.A. Luo 145 Effects of Soil Amendments on Coastal Saline-Alkali Soil Improvement and the Growth of Plants Z.B. Huang, Z.J. Sun and Z.H. Lu 152 Chromium Contamination in Sediments of Love River Mouth, Taiwan L.C. Chang, C.D. Dong, C.F. Chen and C.W. Chen 160 A Novel Method for Producing Phenazine by Using Waste from the Synthesis Process of 4- Amino-Diphenylamine R.H. Yang 164 A Post-Si CMP Cleaning Using BDD Film Electrochemical Oxidation Y.D. Zhu, X.P. Yang and B.H. Gao 169 A Review on the Immobilization of Heavy Metals with Geopolymers X.L. Zhang, A.L. Yao and L. Chen 173 Adsorption Properties of Pomelo Peels against Methylene Blue in Dye Wastewater S.X. Hou 178 Acid Endurance and Sorption of Zn2+ of Anaerobic Granular Sludge Acclimated by Flue Gas Pretreatment Wastewater J. Wang and Q. Zhong 182 Adsorption of Cu (II) on Thiourea Impregnated Gelatin Microspheres L.L. Yu and L. Yao 187 Adsorption of Pollutants from Water with Carbon Nanotubes J.Y. Li and Y.X. Jiang 192 Analysis of Alumina Red Mud Wet Flue Gas Desulfurization (FGD) Technology H. Pang, X.P. Li, S.J. Jin, P. Wei and H.P. Li 198 b Advances in Chemical, Material and Metallurgical Engineering Application of Chemical Precipitation in Treating Ammonia Nitrogen from Excess Sludge Liquor Y.X. Yan, J.L. Gao and J.P. Wu 204 Determination of Thiocyanate in Desulfurization Waste Solution by Spectrophotometry Z.Z. Li, G.Q. Li, Y.F. Zhang, L. Wang, Y.L. Shi and Y.Z. Wang 209 Effect of Temperature on Recovery of Iron from Waste Slag of Pyrite Processing G.F. Zhang, Q.R. Yang and L.K. Gao 213 Experimental Research on Application of Tailings Mortar for Treatment of Copper-Nickel Acid Wastewater B.Y. Song, L.S. He, B.D. Xi, W.X. Guan and R. Meng 218 Electrochemical Oxidation of 4-Chlorophenoxyacetic Acid on Ti/SnO2-Sb2O5/PbO2 Anode for Waste Water Treatment J.Y. Wang, S.X. Peng, B. Xue and J.H. Zhai 225 Evaluation of the Effects of Environmental Materials on Pb and Cd Immobilization Z.B. Huang, X.Q. Zhang, L.C. Peng, C. Shen and Z. Huang 229 Influence of Sewage Sludge on the Slurrying Properties and Co-Gasification Kinetics of Coal-Sludge Slurries B.Y. Zhu, H.X. Li, J. Yao, Q. Liu, Z.L. Zhang and X. Cao 239 Leaching Behaviors of Chemical Components from Steel Slag Z.B. Li, S.Y. Zhao, X.G. Zhao and M.H. Zen 245 Microwave-Assisted Preparation and Physical Characterisation of Iron Oxyhydroxides Adsorbents for Arsenic Removal from Aqueous Solutions M.N. Lu, A.N. Nikoloski, P. Singh, D. Parsonage, R.P. Das, L.B. Zhang, W. Li and J.H. Peng 249 Removal of Iron in Nickel Precipitation Residue Wastewater with Magnesium Oxide Y.N. Liu, Z.S. Zhang and J.P. Xia 254 Recovery of Nickel and Cobalt from Dimethyldithiocarbamate Precipitation of Pyrolusite Leaching Process H.F. Su, B.J. Li, Q. Lu, Y.X. Wen and J. Su 258 Study on Degradation of Dyes Wastewater by N-Doped TiO2 C.L. Miao and H. Wang 263 Study on Disinfection of Oilfield Wastewater H.Y. Lin, C.C. Wang and L.B. Kan 267 Status on the Sulfur Resources Reclamation from the Phosphogypsum H.P. Li and K.B. Luo 271 Study on the Removal of Heavy Metals by Biomass N. Zhou, Z. Zhou, Y. Qin and C.J. Zeng 276 Study on Modified PVA- H3BO3 Immobilization Microorganism Method for Hydrogen Production from Wastewater L. Deng, B. Huang, H.Y. Zhao, J.Y. Du and L. Gao 280 Study on Treatment Effect of Three Types of Industrial Wastewater by Ammonium Molybdate-Modified Bentonite H. Shao, W. Gao, D. Zhang, Z.R. Liu and W.Z. Li 286 Study the Adsorption of Mold/Bentonite Composite Adsorbent on Acid Purplish Red in Wastewater G.P. Liu, X. Zhu, Y.C. Liu and Q.R. Zhao 292 Study on CaSO3 and CaO as Additives of Slag Cement G.Z. Gong, S.F. Ye, J.H. Li, W.F. Yang and Q. Xie 297 Supercritical Water Oxidation Kinetics of Textiles Dyeing Wastewater Q. Wang, Y.K. Lv, R. Zhang and J.C. Bi 302 Studying of the Grafting Modification on the PP Melt-Blown Non-Woven Fabric Used in Sewage Filtration X.P. Cui 307 The Experimental Study on Performance of the High-Content Slag Cementitious Materials P. Yang, Z.G. Qin, W.X. Zhao, X.N. Cai and X.L. Yuang 311 The Recycling Spent Catalyst of Furfural Hydrogenation with Pressure Sulphuric Acid Leaching Z.X.
Load more

Recommended publications
  • Distillation ­ Accessscience from Mcgraw­Hill Education
    6/19/2017 Distillation ­ AccessScience from McGraw­Hill Education (http://www.accessscience.com/) Distillation Article by: King, C. Judson University of California, Berkeley, California. Last updated: 2014 DOI: https://doi.org/10.1036/1097­8542.201100 (https://doi.org/10.1036/1097­8542.201100) Content Hide Simple distillations Fractional distillation Vapor­liquid equilibria Distillation pressure Molecular distillation Extractive and azeotropic distillation Enhancing energy efficiency Computational methods Stage efficiency Links to Primary Literature Additional Readings A method for separating homogeneous mixtures based upon equilibration of liquid and vapor phases. Substances that differ in volatility appear in different proportions in vapor and liquid phases at equilibrium with one another. Thus, vaporizing part of a volatile liquid produces vapor and liquid products that differ in composition. This outcome constitutes a separation among the components in the original liquid. Through appropriate configurations of repeated vapor­liquid contactings, the degree of separation among components differing in volatility can be increased manyfold. See also: Phase equilibrium (/content/phase­equilibrium/505500) Distillation is by far the most common method of separation in the petroleum, natural gas, and petrochemical industries. Its many applications in other industries include air fractionation, solvent recovery and recycling, separation of light isotopes such as hydrogen and deuterium, and production of alcoholic beverages, flavors, fatty acids, and food oils. Simple distillations The two most elementary forms of distillation are a continuous equilibrium distillation and a simple batch distillation (Fig. 1). http://www.accessscience.com/content/distillation/201100 1/10 6/19/2017 Distillation ­ AccessScience from McGraw­Hill Education Fig. 1 Simple distillations. (a) Continuous equilibrium distillation.
    [Show full text]
  • Chem Tech Pro 2F/20, Jaljyoti Appartment, New Sama Road, Chhani Jakat Naka, Vadodara-390002 Website: Email: [email protected]
    Suppliers of all types of Equipments, Instruments and Chemicals Hub for all types Equipments, Instruments and Chemicals for various industries Registered Marketing Office: Chem Tech Pro 2F/20, Jaljyoti Appartment, New Sama Road, Chhani Jakat Naka, Vadodara-390002 Website: www.chemtechpro.in Email: [email protected] 1 About Chem Tech Pro Chem Tech Pro is global leading suppliers of various scientific equipments, chemical equipments, educational equipments, pilot plants for chemicals and pharmaceuticals products, analytical instruments, automation systems, labo- ratory chemicals, industrial chemicals and varieties of technical services pro- vider. Chem Tech Pro’s Products and Services 1. Absorption Columns 2. Adsorption Columns 3. Agitators 4. Analytical Equipments 5. Boilers and Steam Generators 6. Catalysts 7. Centrifuges 8. Chemicals 9. Cooling Towers 10. Crystallizers 11. Decanters 12. Distillation Columns 13. Dryers 14. Educational Equipments for Engineering Colleges 15. Environmental Equipments 16. Evaporators 17. Extraction Units 18. Fans, Blowers and Compressors 19. Fermenters and Bioreactors 20. Furnaces 21. Glass Equipments 22. Heat Exchangers 23. Humidifiers 24. Ion Exchange Equipments 25. Liquid Handling Equipments 26. Material Handling Equipments 27. Mechanical Seals and Stuffing Boxes 28. Membrane and Filtration Equipments 29. Mixing and Blending Units 30. Packing for columns 31. Personal Protective Equipments 32. Pilot Plants Specialists 33. Polymers 34. Pressure Vessels 35. Process Controllers and Instruments 36. Pumps 37. Reactors 38. Re-boilers 39. Safety and Fire fighting Equipments 40. Sewage Treatment Plants 41. Sight Glass and Flow Indicators 42. Solar Equipments 43. Sonicators and Homogenizers 44. Storage Tanks 45. Surface Treatment Equipments 46. Technical Services for various industries 47. Thickeners and Clarifiers 48.
    [Show full text]
  • Lithium Isotope Separation a Review of Possible Techniques
    Canadian Fusion Fuels Technology Project Lithium Isotope Separation A Review of Possible Techniques Authors E.A. Symons Atomic Energy of Canada Limited CFFTP GENERAL CFFTP Report Number s Cross R< Report Number February 1985 CFFTP-G-85036 f AECL-8 The Canadian Fusion Fuels Technology Project represents part of Canada's overall effort in fusion development. The focus for CFFTP is tritium and tritium technology. The project is funded by the governments of Canada and Ontario, and by Ontario Hydro. The Project is managed by Ontario Hydro. CFFTP will sponsor research, development and studies to extend existing experience and capability gained in handling tritium as part of the CANDU fission program. It is planned that this work will be in full collaboration and serve the needs of international fusion programs. LITHIUM ISOTOPE SEPARATION: A REVIEW OF POSSIBLE TECHNIQUES Report No. CFFTP-G-85036 Cross Ref. Report No. AECL-8708 February, 1985 by E.A. Symons CFFTP GENERAL •C - Copyright Ontario Hydro, Canada - (1985) Enquiries about Copyright and reproduction should be addressed to: Program Manager, CFFTP 2700 Lakeshore Road West Mississauga, Ontario L5J 1K3 LITHIUM ISOTOPE SEPARATION: A REVIEW OF POSSIBLE TECHNIQUES Report No. OFFTP-G-85036 Cross-Ref Report No. AECL-87O8 February, 1985 by E.A. Symons (x. Prepared by: 0 E.A. Symons Physical Chemistry Branch Chemistry and Materials Division Atomic Energy of Canada Limited Reviewed by: D.P. Dautovich Manager - Technology Development Canadian Fusion Fuels Technology Project Approved by: T.S. Drolet Project Manager Canadian Fusion Fuels Technology Project ii ACKNOWLEDGEMENT This report has been prepared under Element 4 (Lithium Compound Chemistry) of the Fusion Breeder Blanket Program, which is jointly funded by AECL and CFFTP.
    [Show full text]
  • Enrichment of Natural Products Using an Integrated Solvent-Free Process: Molecular Distillation
    BK1064-ch62_R2_250706 SYMPOSIUM SERIES NO. 152 # 2006 IChemE ENRICHMENT OF NATURAL PRODUCTS USING AN INTEGRATED SOLVENT-FREE PROCESS: MOLECULAR DISTILLATION Fregolente, L.V.; Moraes, E.B.; Martins, P.F.; Batistella, C.B.; Wolf Maciel, M.R.; Afonso, A.P.; Reis, M.H.M. Chemical Engineering School/Separation Process Development Laboratory (LDPS) State University of Campinas – CP 6066 – CEP 13081-970 – Campinas – SP – Brazil E-mail: [email protected] Molecular distillation is a potential process for separation, purification and/or concentration of natural products, usually constituted by complex and thermally sen- sitive molecules, such as vitamins. Furthermore, this process has advantages over other techniques that use solvents as the separating agent, avoiding problems of toxi- city. This process is characterized by short exposure of the distilled liquid to high temperatures, by high vacuum (around 1024 mmHg) in the distillation space and by a small distance between the evaporator and the condenser (around 2 cm). The pro- ductivity of the process is high, considering the concentration of high added value compounds. In this work, the molecular distillation process was applied to enrich borage oil in gamma-linolenic acid (GLA) and also to recover tocopherols from deo- dorizer distillate of soybean oil (DDSO), since these are components of interest for food and pharmaceutical industries. KEYWORDS: gamma-linolenic acid, vitamin E, molecular distillation, deodorizer distillate of soybean oil, borrage oil INTRODUCTION Molecular distillation shows potential in the separation, purification and/or concentration of natural products, usually constituted by complex and thermally sensitive molecules, such as vitamins and polyunsaturated fatty acids, because it can minimize losses by thermal decomposition.
    [Show full text]
  • Separation of Tocopherol from Crude Palm Oil Biodiesel
    ISSN 2090-424X J. Basic. Appl. Sci. Res., 1(9)1169-1172, 2011 Journal of Basic and Applied © 2011, TextRoad Publication Scientific Research www.textroad.com Separation of Tocopherol from Crude Palm Oil Biodiesel Hendrix Yulis Setyawan1*, Erliza hambali 2, Ani Suryani2, Dwi Setyaningsih 2 1 Department of Industrial Agricultural Technology, Faculty of Agricultural, University of Brawijaya Veteran Street Malang City East Java Indonesia Phone: +62341580106 Fax: +62341568917 2 Departments of Industrial Agricultural Technology, Faculty of Agricultural, Bogor Agricultural University Baranangsiang Campus IPB, Jl Raya Bogor Pajajaran 16,153 ABSTRACT A molecular distillation procedure was developed to extract tocopherols from crude palm oil based biodiesel. Change of CPO to biodiesel can be made by esterification and transesterification reaction. Use of esterification and trans-esterification reaction were facilitated the process of molecular distillation because of the heavy molecules such as glycerol have been separated first. The conditions of molecular distillation to recover tocopherols were set-up of with a flow rate of 1.3 liter/jam-1, 7 liters / hour, distillation temperature 175 ˚ C - 220 ˚ C and 200 rpm rotational speed wipers - 400 rpm. It was found that the yield of tocopherols were the separated between 22.9 mg - 605 mg from 1.302 mg of overall tocopherol content in crude palm oil based biodiesel. The overall recovery of tocopherols was around 35% of the original content in crude palm oil based biodiesel. In the residue, there were no different value in acid number, FFA content, density, kinematic viscosity and iodine value of crude palm oil based biodiesel after molecular distillation process.
    [Show full text]
  • Design and Feasibility Analysis of Commercial Silver-Based Solvent Extraction of Omega-3 Pufa by Kirubanandan Shanmugam, Andrew Neima & Adam A
    Global Journal of Researches in Engineering: J General Engineering Volume 15 Issue 5 Version 1.0 Year 2015 Type: Double Blind Peer Reviewed International Research Journal Publisher: Global Journals Inc. (USA) Online ISSN: 2249-4596 Print ISSN:0975-5861 Design and Feasibility Analysis of Commercial Silver-Based Solvent Extraction of Omega-3 Pufa By Kirubanandan Shanmugam, Andrew Neima & Adam A. Donaldson Dalhousie University, Canada Abstract- Afish oil processing facility was designed and evaluated for the annual extraction of 2.5 ktonnes of Omega-3 polyunsaturated fatty acids from 18/12EE fish oils by liquid-liquid solvent extraction through the use of a silver-based solvent. Using experimentally derived extraction efficiencies obtained with commercial 18/12EE fish oil, a plug-flow reactor configuration is proposed to significantly reduce silver solvent inventory requirements relative to conventional batch processes, corresponding to an initial capital reduction of ~$40 million at this scale. Evaluation of the proposed facilityresulted in capital costs of $4.9 million, annual operating costs of $7.7million, and a yearly gross revenue of $21.0 million. Considering the expensive solvent used, the profitability of the proposed process is highly dependent on the amount of solvent required to fill the vessels, and on the recovery efficiency following de-complexation of the Omega-3 and silver ions. Depending on market conditions, a number of recovery methods are discussed and evaluated, with specific emphasis placed on chemical, thermal or electrolytic methods. Keywords: EPA/DHA, fish oils, solvent extraction, silver, omega-3, processdesign, solvent inventory. GJRE-J Classification : FOR Code: 291899 DesignandFeasibilityAnalysisofCommercialSilverBasedSolventExtractionofOmega3Pufa Strictly as per the compliance and regulations of : © 2015.
    [Show full text]
  • Method and Apparatus for Cryopreparation, Dry Stabilization and Rehydration of Biological Suspensions
    Europaisches Patentamt European Patent Office © Publication number: 0 475 409 A2 Office europeen des brevets EUROPEAN PATENT APPLICATION © Application number: 91115480.5 int. CI 5= A01N 1/02, F26B 5/06 @ Date of filing: 12.09.91 ® Priority: 12.09.90 US 581584 8654 Plum Lake Drive, Houston, 03.06.91 US 709504 Texas 77095(US) Inventor: Nichols, Ken B. @ Date of publication of application: 16106 La Cabana, Houston, 18.03.92 Bulletin 92/12 Texas 77062(US) Inventor: Piunno, Carmen © Designated Contracting States: 9,Glory Bower, The Woodlands, AT BE CH DE DK ES FR GB GR IT LI LU NL SE Texas 77381 (US) Inventor: Ross, David © Applicant: LIFECELL CORPORATION 19735 San Gabriel, Houston, 3606-A Research Forest Drive Texas 77081 (US) The Woodlands, Texas 77381 (US) @ Inventor: Livesey, Stephen © Representative: Dost, Wolfgang, 104 Napoleon St Eltham, Victoria Dr.rer.nat.,Dipl.-Chem. et al austria 3000(US) Patent- & Rechtsanwalte Bardehle . Inventor: Del Campo, Anthony A. Pagenberg . Dost . Altenburg . Frohwitter . 11810 Oakcroft, Houston, Geissler & Partner Galileiplatz 1 Postfach 86 Texas 77381 (US) 06 20 Inventor: Nag, Abhijit W-8000 Munchen 86(DE) © Method and apparatus for cryopreparation, dry stabilization and rehydration of biological suspensions. © This invention relates to methods, apparatus and solutions for cryopreserving microscopic biological materials for biologically extended periods of time. The method comprises treating a suspension of biological material, in a appropriate buffer, with a cryoprotectant or combination of cryoprotectants which raises the glass transition temperature range of the sample. One or more dry protectants may be added to the cryosolution. The cryosolution is then nebulized and rapidly cooled with novel apparatus, dried by molecular distillation, stored and then rehydrated in a buffer prior to its use.
    [Show full text]
  • Chemical Engineering – Cbcs Pattern
    COURSE SCHEME EXAMINATION SCHEME ABSORPTION SCHEME & SYLLABUS Of First, Second, Third & Fourth Semester Choice Base Credit System (CBCS) Of Master of Technology (M.Tech) In CHEMICAL ENGINEEERING CHEMICAL ENGINEERING – CBCS PATTERN SEMESTER - I TEACHING SCHEME EXAMINATION SCHEME THEORY TUTORIAL PRACTICAL THEORY PRACTICAL TERM WORK Sr. No Title) Course Course (Subject (Subject Min Min Min Max Max Total Mode No. of No. of No. of Marks Hours Hours Hours Hours Hours Hours Marks Credits Credits Credits Lecture Lecture Lecture CIE 30 1 PCC-CH101 3 3 3 1 1 1 - - - 100 40 - - 2 25 10 ESE 70 CIE 30 2 PCC-CH102 3 3 3 1 1 1 - - - 100 40 - - 2 25 10 ESE 70 CIE 30 3 PCC-CH103 3 3 3 1 1 1 - - - 100 40 - - 2 25 10 ESE 70 CIE 30 4 PCE-CH 3 3 3 - 1 1 - - - 100 40 - - - - - ESE 70 CIE 30 5 PCE-CH 3 3 3 - 1 1 - - - 100 40 - - - - - ESE 70 6 MC-CH101 - - - - - - 1 2 2 - - - - As per BOS Guidelines - - 2 25 10 7 MC-CH102 - - - - - - 1 2 2 - - - - - - 2 50 20 TOTAL 15 15 15 3 5 5 2 4 4 500 - 150 SEMESTER –II CIE 30 1 PCC-CH201 3 3 3 1 1 1 - - - 100 40 - - 2 25 10 ESE 70 CIE 30 2 PCC-CH202 3 3 3 1 1 1 - - - 100 40 - - 2 25 10 ESE 70 CIE 30 3 PCC-CH203 3 3 3 1 1 1 - - - 100 40 - - 2 25 10 ESE 70 CIE 30 4 PCE-CH 3 3 3 - 1 1 - - - 100 40 - - - - - ESE 70 CIE 30 5 PCE-CH 3 3 3 - 1 1 - - - 100 40 - - - - - ESE 70 6 MC-CH201 - - - - - - 1 2 2 - - - - As per BOS Guidelines 25 10 2 25 10 7 MC-CH202 - - - - - - 1 2 2 - - - - 25 10 - - - TOTAL 15 15 15 3 5 5 2 4 4 500 50 100 TOTAL 30 30 30 06 10 10 04 08 08 1000 50 250 CIE- Continuous Internal Evaluation ESE – End Semester Examination • Candidate contact hours per week : 24 Hours (Minimum) • Total Marks for M.Tech.
    [Show full text]
  • Extraction and Enzymatic Modification of Functional Lipids from Soybean Oil Deodorizer Distillate
    21 Extraction and Enzymatic Modification of Functional Lipids from Soybean Oil Deodorizer Distillate Carlos F. Torres, Guzmán Torrelo and Guillermo Reglero Departamento de Producción y Caracterización de Nuevos Alimentos Instituto de Investigación en Ciencias de la Alimentación (CIAL), CSIC-UAM Madrid Spain 1. Introduction Crude vegetable oils contain triacylglycerols as major component and various minor components such as diacylglycerols, monoacylglycerols, free fatty acids, phospholipids, tocopherols, sterols, squalene, color pigments, waxes, aldehydes, ketones, triterpene alcohols and metals that may affect the quality of the final product. The minor components are removed partially or entirely by either physical or chemical refining in order to make the vegetable oils suitable for human consumption. Deodorization is the last major processing step in the refining of edible oils. It has the responsibility for removing both the undesirable ingredients occurring in natural fats and oils and those which may be imparted by prior unit processes such as caustic refining, bleaching, hydrogenation, or even storage conditions. It is this unit process that finally establishes the oil characteristics of "flavor and odor," which are those most readily recognized by the consumer (Gavin, 1978). Deodorizer distillate is a by-product of deodorization, which is the last major step in vegetable oil refining process. It is a complex mixture of free fatty acids, mono-, di- and triacyglycerols, sterols and their esters, tocopherols, hydrocarbons, pesticides, and breakdown products of fatty acids, aldehydes, ketones and acylglycerol species (Ramamurthi & McCurdy, 1993). Deodorizer distillate is an excellent source of valuable compounds such as phytosterols, tocopherols and squalene, which can be recovered and further used as food additives, in pharmaceutical industry and cosmetics.
    [Show full text]
  • Definitions of Abbreviations Used in Course Descriptions
    DEFINITIONS OF NANO Nanoscience and Nanoengineering ABBREVIATIONS USED IN PALE Paleontology COURSE DESCRIPTIONS PE Physical Education PHIL Philosophy PHYS Physics Abbreviation Definition POLS Political Science PSYC Psychology AES AESospheric and Environmental SOC Sociology Sciences SPAN Spanish ANTH Anthropology SPCM Speech ART Art ARTH Art History BIOL Biology Courses above 400 level are normally BME Biomedical Engineering reserved for graduate studies; however, in some CBE Chemical and Biological cases, undergraduate students may take graduate Engineering level courses. CEE Civil and Environmental Engineering Students must receive a passing grade of “D” or CENG Computer Engineering better for any prerequisite course unless CHEM Chemistry specifically stated. CHIN Chinese CM Construction Management Black Hills State University offers courses in CP Career Planning accounting, business administration, economics, CSC Computer Science entrepreneurship, and religion. EE Electrical Engineering EM Engineering Mechanics ENGL English ENGM Engineering Management EXCH Student Exchange - International GE General Engineering GEOE Geological Engineering GEOG Geography GEOL Geology GER German GES General Engineering and Science GS General Studies HIST History HUM Humanities IENG Industrial Engineering IS Interdisciplinary Sciences MATH Mathematics ME Mechanical Engineering MEM Mining Engineering and Management MES Materials Engineering and Science MET Metallurgical Engineering MSL Military Science MUAP Applied Music MUEN Music Ensemble MUS Music COURSES instructors. AES 110 ORIENTATION TO THE Notes: May be repeated to a total of 6 credit ATMOSPHERIC SCIENCES hours. (1-0) 1 credits. This course represents an introduction to the field of Atmospheric Sciences AES 401/501 ATMOSPHERIC PHYSICS for first year undergraduate students. Basic skills (3-0) 3 credits. An introduction to physical and concepts to prepare students for future processes that govern the behavior of the coursework will be presented.
    [Show full text]
  • Gas Physics and Vacuum Technology
    1 1 Gas Physics and Vacuum Technology 1.1 The term “vacuum” In standard specification list DIN 28400, Part 1, the term “vacuum” is defined as follows: Vacuum is the state of a gas, the particle density of which is lower than the one of the atmosphere on the earth’s surface. As within certain limits the particle density depends on place and time, a general upper limit of vacuum cannot be determined. In practice, the state of a gas can mostly be defined as vacuum in cases in which the pressure of the gas is lower than atmosphere pressure, i.e. lower than the air pressure in the respective place. The correlation between pressure (p) and particle density (n) is p= n · K · T (1-1) k Boltzmann constant T thermodynamic temperature Strictly speaking, this formula is valid only for ideal gases. The legal pressure unit is Pascal (Pa) as SI unit. The usual pressure unit in vacuum technology is millibar (mbar). This pressure unit is valid for the whole vacuum range from coarse vacuum to ultrahigh vacuum. 1.2 Application of vacuum technology Vacuum is often used in chemical reactions. It serves to influence the affinity and therefore the reaction rate of the phase equilibrium gaseous – solid, gaseous – liquid and liquid – solid. The lowering of the pressure causes a decrease in the reaction density of a gas. This effect is used e. g. in the metallurgy for the bright-annealing of metals. There are several kilograms of metal for 1 liter annealing space, whereas less than 1/3 of the total volume is filled with gas; as a result, the oxygen content of Liquid Ring Vacuum Pumps, Compressors and Systems.
    [Show full text]
  • Applications of Molecular Distillation Technique in Food Products
    REVIEW APPLICATIONS OF MOLECULAR DISTILLATION TECHNIQUE IN FOOD PRODUCTS O. KETENOGLU* and A. TEKIN Department of Food Engineering, Ankara University, Diskapi 06110, Ankara, Turkey *Corresponding author: Tel. +90 312 2033300/3642, Fax +90 312 3178711, email: [email protected] ABSTRACT There are several separation techniques -including conventional distillation- for extracting heat sensitive compounds from food products. However, some compounds may have high boiling points at which other compounds might be adversely affected. Vacuum application is also need- ed for such kinds of foods. Molecular distillation is an advanced vacuum distillation method per- formed by short-path evaporators. Distance between evaporator and condenser is extremely re- duced which results in minimized pressure drop. Heat sensitive material meets heat for a short time under high vacuum, thus low or no decomposition occurs. This review aims to discuss the basics and uses of molecular distillation in foods. - Keywords: molecular distillation, purification, separation, short-path, vacuum - Ital. J. Food Sci., vol. 27 - 2015 277 INTRODUCTION distillation techniques. Ex: thin film evapora- tors (TFE) and short-path distillation equip- Distillation is a simple physical separation ment (SPD). process of liquid mixtures based on differenc- According to SHI et al. (2007), distillation es in boiling points of components in the mix- method can be called as molecular distillation if ture. Very first usage of distillation dates back the distance between evaporator and condenser to 1st century (FORBES, 1970). Further experi- reaches to mean free path of a vapor molecule. ments leaded to new knowledge that is known Lei et al. (2005) described the mean free path, < as fundamentals of distillation now.
    [Show full text]