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Faculty of Science Handbook, Session 2019/2020
3. Energy & Fuels, American Chemical Society (ACS Soft skills:
Publications) CT1 – 3
4. G.A. Karim. (2012). Fuels, Energy, and Environment.
CRC Press. References:
5. U.R. Chaudhri. (2010). Fundamental of Petroleum and 1. Moretto, H. H., Woditsch, P., Terrel, D., Terrel, K. H.
Petrochemical Engineearing. CRC Press. and Buchel, K. H. (2000). Industrial Inorganic
Chemistry. John Wiley
2. Ulmann’s Encyclopedia of Industrial Chemistry (1993)
th
SID2008 INDUSTRIAL ORGANIC CHEMISTRY 3. J.D. Lee (1996) Concise Inorganic Chemistry (5
Edition). Backwell Science Ltd
Organic raw materials: Carbon sources, routes based on 4. Austin, G. T. (1977). Shreve’s Chemical Process
fats and oils, carbohydrates, coal, petroleum, and natural Industries. McGraw-Hill.
gas. Alkanes and cycloalkanes: refinery processes; 5. ISI Journal Articles.
catalytic alkylation, catalytic isomerisation, catalytic
reforming, catalytic cracking and hydrocracking.
SID2010 IONIC LIQUIDS
Industrial reactions: Free radical oxidation; liquid-phase
and gas-phase free radical oxidations. Liquid -phase non - Introduction to ionic liquids: History, types of ionic liquids,
free radical oxidations such as Wacker Chemie Process, nomenclature; Chemical and physical properties: Protic
Dow Process and Halcon Process. Heterogeneous- and aprotic ionic liquids; Preparation and purification of
catalysed gas-phase oxidations. ionic liquids: Metathesis (metathetic exchange of anion),
neutralisation of base with Bronsted acids or direct
Other industrial processes such as chlorination and alkylation of alkylimidazole and the carbonate route.
oxychlorination, aromatic electrophilic substitution, Characterisation of ionic liquids: NMR spectroscopy, mass
aromatic nucleophilic substitution, hydrolysis, dehydration, spectrometry etc. Water content analysis – Karl Fischer
esterification, hydrogenation, dehydrogenation, and Titration.
hydroformylation.
Application of ionic liquids in organic reactions and for
Assessment Methods: industrial applications: Henry reaction, Michael reaction,
Continuous assessment: 30% Aldol condensation, Diels-Alder reactions, protection of
Final examination: 70% carbonyl, heterocyclic synthesis, hydrogenation, oxidation;
use of ionic liquids in biomass processing. Challenges and
Medium of instruction: issues: Recoverable and recyclability of ionic liquids,
English safety and environmental issues.
Soft skills: Assessment Methods:
CT1 – 3 Continuous assessment: 30%
Final examination: 70%
References:
1. Weissermel, K. And Arpe, H. J. (2010). Industrial Medium of instruction:
Organic Chemistry. 5 Edition. Wiley-VCH. English
th
2. Wiseman, P. (1987). Introduction to Industrial Organic
nd
Chemistry. 2 Edition. Elsevier Applied Science. Soft skills:
3. Waddams, A. L. (1978). Chemicals from Petroleum. 4 CT1 – 3
th
Edition. John Murray.
4. Journal: Chemistry and Industry. References:
5. Harold A.W., Bryan G.R. and Jeffery S.P. (2012). 1. Michael Freemantle (2009). Introduction to Ionic
rd
Industrial Organic Chemistry. 3 Edition. John Wiley & Liquids, Royal Society of Chemistry.
Sons. 2. P. Wasserscheid and T. Welton (2008). Ionic liquids in
6. James A.K. (2013). Riegel’s Handbook of Industrial Synthesis, Wiley-VCH.
Chemistry. 9 Edition. Springer Science & Business 3. Barbara Kirchner (2010). Ionic Liquids, Springer.
th
Media. (Electronic book).
SID2009 INDUSTRIAL INORGANIC CHEMISTRY SID2011 INDUSTRIAL ELECTROCHEMSITRY
Introduction to the primary inorganic materials (nitrogen, Fundamentals of electrochemistry and industrial
phosphorus, sulphur, halogen and their compounds), applications include processes such as synthesis of
mineral fertilizers, organosilicon compounds (silanes, organic and inorganic compounds, the conversion and
silicons, industrial silicon products) and inorganic solids storage of energy and galvanic deposition of metals and
(silicate products, inorganic fibers, construction materials, alloys. Electrochemical methods also plays a lead role in
enamel, ceramics, metallic hard materials, carbon corrosion protection, sensor devices and technologies
modifications, fillers and inorganic pigments) involving where charge transfer takes place at an electrified
modern processes. The economic importance also will be interface. Optimization of electrochemical method and
discussed in relation to the production of the inorganic processes based on the fundamental laws of
materials. electrochemistry will be addressed.
Assessment Methods: Assessment Methods:
Continuous assessment: 30% Continuous assessment: 30%
Final examination: 70% Final examination: 70%
Medium of instruction: Medium of instruction:
English English
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