TIEE3038 Syllabus - Energy Storage Systems - 2022 Regulation Anna University
TIEE3038 Syllabus - Energy Storage Systems - 2022 Regulation Anna University
TIEE3038 |
ENERGY STORAGE SYSTEMS |
L T P C |
---|
3003
COURSE OBJECTIVES: Students will be able to:
• understand the various types of energy storage Technologies.
• analyze thermal storage system.
• analyze different battery storage technologies
• analyze the thermodynamics of Fuel Cell
• study the various applications of energy storage systems.
• analyze thermal storage system.
• analyze different battery storage technologies
• analyze the thermodynamics of Fuel Cell
• study the various applications of energy storage systems.
UNIT I |
INTRODUCTION |
(7+2 SKILL) 9 |
---|
Necessity of energy storage – types of energy storage – comparison of energy storage technologies – Applications.
UNIT II |
THERMAL STORAGE SYSTEM |
(7+2 SKILL) 9 |
---|
Thermal storage – Types – Modeling of thermal storage units – Simple water and rock bed storage system – pressurized water storage system – Modelling of phase change storage system – Simple units, packed bed storage units - Modelling using porous medium approach, Use of TRNSYS.
UNIT III |
ELECTRICAL ENERGY STORAGE |
(7+2 SKILL) 9 |
---|
Fundamental concept of batteries – measuring of battery performance, charging and discharging, power density, energy density, and safety issues. Types of batteries – Lead Acid, Nickel – Cadmium, Zinc Manganese dioxide, Li-ion batteries - Mathematical Modelling for Lead Acid Batteries – Flow Batteries.
UNIT IV |
FUEL CELL |
(7+2 SKILL) 9 |
---|
Fuel Cell – History of Fuel cell, Principles of Electrochemical storage – Types – Hydrogen oxygen cells, Hydrogen air cell, Hydrocarbon air cell, alkaline fuel cell, detailed analysis – advantages and disadvantages.
UNIT V |
ALTERNATE ENERGY STORAGE TECHNOLOGIES |
(7+2 SKILL) 9 |
---|
Flywheel, Super capacitors, Principles & Methods – Applications, Compressed air Energy storage, Concept of Hybrid Storage – Applications, Pumped Hydro Storage – Applications.
TOTAL: 45 PERIODS
COURSE OUTCOMES: Upon the successful completion of the course, students will be able to:
CO1: Understand different types storage technologies
CO2: Design a thermal storage system
CO3: Model battery storage system
CO4: Analyze the thermodynamics of fuel cell
CO5: Analyze the appropriate storage technologies for different applications
CO6: explore the alternate energy storage technologies.
TEXT BOOKS:
1. Ibrahim Dincer and Mark A. Rosen, ‘Thermal Energy Storage Systems and Applications’, John Wiley & Sons, 3rd Edition, 2021.
2. Ru-shi Liu, Lei Zhang and Xueliang sun, ‘Electrochemical technologies for energy storage and conversion’, Wiley publications, 2nd Volume set, 2012.
3. James Larminie and Andrew Dicks, ‘Fuel cell systems Explained’, Wiley publications, 3rd Edition, 2018.
2. Ru-shi Liu, Lei Zhang and Xueliang sun, ‘Electrochemical technologies for energy storage and conversion’, Wiley publications, 2nd Volume set, 2012.
3. James Larminie and Andrew Dicks, ‘Fuel cell systems Explained’, Wiley publications, 3rd Edition, 2018.
REFERENCES:
1. Lunardini.V.J, ‘Heat Transfer in Cold Climates’, John Wiley and Sons 1981, 1st Edition.
2. Schmidt.F.W. and Willmott.A.J., ‘Thermal Energy Storage and Regeneration’, Hemisphere Publishing Corporation, 1981, 1st Edition.
2. Schmidt.F.W. and Willmott.A.J., ‘Thermal Energy Storage and Regeneration’, Hemisphere Publishing Corporation, 1981, 1st Edition.
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