Course Outcomes: Students will be able to
1. To recognize the basic physical concepts of thermodynamics and kinetics involved in electrochemical reactions 2. To select the appropriate battery system with respect to application 3. To analyse the characterization methods of batteries and interpret the concepts describing battery performance 4. To describe the recent developments battery systems 5. To understand the requirements of battery systems for automotive applications and understand the modelling of battery systems 6. To discuss the Life Cycle Analysis according to cost and environmental aspects; material and energy consumption - reuse - recycling Module 1: Introduction to Electrochemical Energy Storage (9 Hrs) Introduction to Battery Technologies- Electromotive Force- Reversible Cells- Relation Between Electrical Energy and Energy Content of a Cell-Free Energy Changes and Electromotive Force in CellCurrent Challenges in Energy Storage Technologies. Module 2: Major Battery Chemistries Development and Testing (9 Hrs) Battery Performance Evaluation- Primary Battery - Service Time- Voltage Data- Service Life – Ohmic Load Curve- Effect of Operating Temperature on Service Life. Secondary Batteries- Discharge Curves - Terminal Voltages- Plateau Voltage –Lead Acid Batteries – Construction and Application. Module 3: Recent Technologies (9 Hrs) Recent Development of Electrode Materials in Lithium Ion Batteries- Recent Development Of Solid Electrolytes and their Application to Solid State Batteries-Polymer Solid Electrolytes for Lithium Ion Conduction– Thin Film Solid State Batteries: Fundamentals - Constriction and Application – Super Capacitors: Fundamentals - Construction and Application. Module 4: Batteries for Automotives (9 Hrs) Batteries for Automotives - Future Prospects: Degrees o Vehicle Electrification – Battery Size Vs. Application -USABC And DOE Targets for Vehicular Energy Storage Systems Module 5: Analysis and Simulation of Batteries (9 Hrs) Equivalent Circuit and Life Modeling – Environmental Concerns in Battery Production – Recycling of Batteries Text Books:
1. David Linden, Thomas B. Reddy, “Handbook of Batteries”, 3rd Edition, Mc-Graw Hill, New York, 2001. 2. Helena Berg, “Batteries for Electric Vehicles: Materials and Electrochemistry”, 1st Edition, Cambridge University Press, UK, 2015. Reference books:
1. T. Minami, M.Tatsumisago, M.Wakihara, C. Iwakura and S. Kohijiya, “Solid State Ionics for Batteries”, Springer Publication, 2009. 2. Sandeep Dhameja, “Electric Vehicle Battery Systems” - Newnes Publication - 2001. 19CH3008
CORROSION ENGINEERING
L 3
Course Objectives:
1. To understand the corrosion phenomenon and various types of corrosion 2. To know the methods involved in corrosion testing 3. To understand the effect of corrosion in industries Course Outcomes:
1. To know the theoretical basis of corrosion formation the effects of corrosion 2. To analyze various types of corrosion 3. To apply various corrosion testing methods APPLIED CHEMISTRY (2020)
T 0
P 0
C 3
