KLS s Gogte Institute of Technology, Udyambag, Belagavi Course Document Academic Year: 2016-17 Department of Chemistry Course Title : Engineering Chemistry Credits: 4 Course Code : 16CHE12 L:T:P - 4-0-0 Course Type: BS Semester : I Div: H, I, J, K, L, M CIE marks: 50 Hours/week: 4 Total Hours: 50 SEE marks: 50 Pre-requisites: Students should have basic knowledge of chemistry. Course Objectives: The objective of the course is to develop the interest among the students regarding chemistry and their applications in engineering. The student should understand the concepts of chemistry to lay the groundwork for subsequent studies in the fields such as chemical, mechanical, civil, environmental, electrical and electronics engineering etc. To train the students to effectively use the knowledge of electrochemistry, battery technology, corrosion science, metal finishing, chemical fuels, instrumental methods of analysis, polymers, water chemistry, nano chemistry in the practice of engineering. To develop an intuitive understanding of chemistry by emphasizing the related branches of engineering. To develop confidence among students about chemistry, how the knowledge of chemistry is applied in technological field. Course Outcomes(COs) : At the end of the course, the student will be able to [Outcomes usually follow the format: At the end of the course, students will be able to insert verb here + insert knowledge, skills, or attitudes the student is expected to develop] Bloom s CO No. Course Outcomes ( Action verb should be in italics) taxonomy CO-1 CO-2 CO-3 CO-4 CO-5 CO-6 Identify and compare the materials best suited for construction of Battery and fuel cells. Define and analyze engineering problems related corrosion and metal finishing in achieving a practical solution. Identify instrumental techniques for analysis and analyze the quality parameters of chemical fuels. Demonstrate the knowledge of polymer materials for futuristic engineering applications. Identify and apply suitable waste water treatment techniques. Demonstrate and apply basic concepts of nanoscience and nanotechnology in water treatment and air cleaning. Identify and compare Define and analyze Identify demonstrate Identify and apply demonstrate and apply Bloom s Level L 1, L3 L 1, L3 L1, L4 L2 L3 L3
Title of the Chapter : Electrochemistry, Energy Conversion and Storage Devices Unit No. : 1 Duration: 10 Hrs. 1 Identify and explain the types of electrodes. [L 3] 2 Describe the construction and working of calomel, silver-silver chloride and glass electrodes 3 Demonstrate measurement of ph of a solution using glass 4 Describe the construction and working of Ni-MH, Zn-air and Li-ion batteries [L 1] 5 Differentiate between battery and fuel cell [L 3] 6 Classify fuel cells based on electrolyte used [L 3] 7 Describe the construction and working of PEM fuel cell 8 Calculate EMF of cell using Nernst Equation [L 3] 9 Describe the construction and working photovoltaic cell [L 1] 10 Explain modules, panels & arrays. 11 Describe the production of solar grade silicon by union carbide process Title of the Chapter : Corrosion and Metal Finishing Unit No. : 2 1 Define corrosion. [L 1] 2 Discuss the electrochemical theory of corrosion 3 Identify and explain differential metal corrosion, differential aeration corrosion and stress corrosion [L 3] 4 List and categorize the various factors affecting the rate of corrosion [L 1] 5 Understand and apply the corrosion control methods [L 3] 6 List the technological importance of metal finishing [L 1] 7 Exemplify electroplating and electroless plating 8 Explain the effect of plating variables on the nature of electrodeposit. 9 Compare electroplating with electroless plating [L 4] Title of the Chapter : Fuels and Instrumental Methods of Analysis Unit No. : 3 1 Define chemical fuels, calorific values, knocking, octane number and cetane number [L 1] Page 2
2 Describe the construction and working of bomb calorimeter 3 Calculate the calorific values of solid or liquid fuels [L 3] 4 Discuss catalytic cracking of petroleum and reforming of petrol 5 Explain the mechanism of knocking and its ill effects 6 Discuss the advantages and disadvantages of power alcohol 7 Outline the procedure for synthesis of biodiesel 8 Explain instrumentation and applications of UV-Visible, Infra Red spectroscopy, Thermal gravimetric analysis (TGA), Flame photometry, Differential thermal analysis (DTA) and Differential scanning calorimetry (DSC) Title of the Chapter : Polymers and Composite materials Unit No. : 4 1 Calculate number average and weight average weight of polymer [L 3] 2 Discuss the glass transition temperature and factors influencing Tg 3 Describe the synthesis of some commercially important polymers 4 Exemplify elastomers, adhesives and polymer composites 5 Classify matrix materials and Reinforcements 6 Define the conducting and Photo conducting polymer [L 1] 7 Describe the synthesis of conducting (polyaniline) and photo-conducting polymer (polycarbazole) 8 Describe the mechanism of conduction in polyacetylene 9 Identify the applications of polymers and polymer composites [L 3] Title of the Chapter : Water Technology and Nanotechnology Unit No. : 5 1 Analyze DO, BOD and COD of water and waste water [L 4] 2 Describe steps involved sewage treatment 3 Differentiate between conventional and advance secondary sewage treatment processes [L 3] 4 Explain desalination of water by ion exchange, reverse osmosis and electro dialysis methods 5 Explain size dependent properties of nanomaterials 6 Discuss chemical vapour deposition process of synthesizing nanoparticles. 7 Elucidate the applications of nanomaterials in water purification and air cleaning. Page 3
Books: Text Books: 1. R. V. Gadag and A. N. Shetty, Engineering Chemistry, IK International Publishing House, New Delhi, Third Edition 2014 2. V. R. Gawariker, N V. Viswanathan, Jayadev Sreedhar, Polymer Science, New Age International (P) Ltd., New Delhi, 2nd edition 2015. 3. Arun Bahl, B. S. Bahl, A Text Book of Organic Chemistry, S Chand and Co. Ltd., First Edition 2005 4. Michael F. Ashby, Paulo J. Ferreira, Daniel L. Schodek, Nano Materials, Nanotechnologies and Design, Elsevier India Pvt. Ltd., 2011 5. B. S. Jai Prakash, R. Venigopal, Shivakumarraiah, Pushpa Iyengar, Chemistry for Engineering Students, Subhas Stores (Bangalore ), 2014 Reference Books: 1. T Pradeep, NANO: The Essentials, Tata McGraw Hill Education Pvt. Ltd., New Delhi, 2012, 7th Reprint 2. Fred W. Billmeyer, Text Book of Polymer Science, Wiley India (P) Ltd., Third Edition 2011 3. O. G. Palanna, Engineering Chemistry, Tata McGraw Hill Education Pvt. Ltd., New Delhi, 2009 4. Shashi Chawla, A Text Book of Engineering Chemistry, Dhanapat Rai and Co. Pvt. Ltd., Delhi, Third Edition 2015 Activities planned for achievement of outcomes: Activities to be selected from following list (Partial list, more activities can be added by faculty) Tick mark 1. Assignments 2. Quizzes 3. Internal Assessment Tests 4. Course Seminar 5. Course Project (Mini project) 6. Case Studies 7. Viva-Voce Page 4
Mapping of COs and POs Course Outcomes Activities (Mention the S.No.) Program Outcomes 1 2 3 4 5 6 7 8 9 10 11 12 CO-1 1, 2, 3 H L L L CO-2 1, 2, 3 H M M L L L L CO-3 1, 2, 3 H L L CO-4 3 H M L CO-5 3 H M L L L M L CO-6 3 H L L L L Mapping of COs and PSOs Course Outcomes CO-1 CO-2 CO-3 CO-4 CO-5 CO-6 Activities (Mention the S.No.) Program Specific Outcomes PSO1 PSO2 PSO3 Note: 1. Enter correlation levels 1, 2 or 3 as defined below: 1: Slight (Low) 2: Moderate (Medium) 3: Substantial (High) It there is no correlation, put - Name and signature of the faculty member Page 5