EEDLO5012: Renewable Energy and Energy Storage Syllabus for EE 5th Sem 2018 Pattern Mumbai University (Department Level Optional Course-1)

Renewable Energy and Energy Storage detailed syllabus scheme for Electrical Engineering (EE), 2018 regulation has been taken from the MU official website and presented for the Bachelor of Engineering students. For Course Code, Course Title, Test 1, Test 2, Avg, End Sem Exam, Team Work, Practical, Oral, Total, and other information, do visit full semester subjects post given below.

For 5th Sem Scheme of Electrical Engineering (EE), 2018 Pattern, do visit EE 5th Sem Scheme, 2018 Pattern. For the Department Level Optional Course-1 scheme of 5th Sem 2018 regulation, refer to EE 5th Sem Department Level Optional Course-1 Scheme 2018 Pattern. The detail syllabus for renewable energy and energy storage is as follows.

Renewable Energy and Energy Storage Syllabus for Electrical Engineering TE 5th Sem 2018 Pattern Mumbai University

Course Objectives:

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Course Outcomes:

Student will be able to

Identify and describe the issues related to use of fossil fuels and to recognize means of mitigation through adaption of renewable energy (RE).
Identify and analyze the process of power generation through solar thermal and solar photovoltaic technologies.
Identify and describe the various components and types of Wind Energy system Fuel cell technology, tidal, wave, and biomass systems.
Identify and describe the importance of various forms of energy storage (ES) in new power generation scenario based on renewable energy.
Analyze, formulate and propose the power sharing mechanisms and to evaluate the fault scenarios in hybrid RE and ES sources.
Recognize the need to adapt and engage in operations RE/ES related activities for sustainable future.

Module 1

Introduction- Worlds and Indias production and reserves of commercial energy sources, energy alternatives, review of conventional and non conventional energy sources. Statistic of net potential and current generation status of different energy alternatives. Distributed generation, Future trends in power generation and distribution. 03

Module 2

Module 3

Wind Energy Review of wind energy system and its components, types of wind turbines, characteristics; Power generation and control in wind energy systems, performance calculations of wind energy systems. Topologies of WES, WES with rectifier / inverter system, Power Converters for Doubly Fed Induction Generators (DFIG) in Wind Turbines. 04

Module 4

Fuel Cell- Review of fuel cells and their principle of operation, Review of types of fuel cell and their performance comparison. Topologies of fuel cell power systems, applications. 03

Module 5

Module 6

Energy Storage Forms of energy storage, importance of storage system in new power generation scenario; Types, characteristics and performance evaluation of: batteries, ultra-capacitors, flywheels, SME, pumped hydro storage system; Applications of Energy storage in distributed generation, smart grid systems, Electric and Hybrid electric vehicles. Hybrid power system based on renewable energy and energy storage. 10

Reference Books:

Ali Keyhani, Mohammad N. Marwali, Min Dai Integration of Green and Renewable Energy in Electric Power Systems, Wiley
Green M.A Solar Cells: Operating Principles, technology and System Applications, Prentice Hall Inc, Englewood Cliffs N.J, U.S.A, 1982
James Larminie, Andrew Dicles Fuel Cell Systems Explained, Wiley publication
Chetan Singh Solanki , Solar Photo Voltaics , PHI Learning Pvt Ltd., New Delhi,2009
Hashem Nehrir and Caisheng Wang, Modeling and control of fuel cells: Distributed Generation Applications, IEEE Press, 2009
J.F. Manwell and J.G. McGowan, Wind Energy Explained, theory design and applications, Wiley publication
Leo J.M.J. Blomen and Michael N. Mugerwa, Fuel Cell System, New York, Plenum Press, 1993.
D. D. Hall and R. P. Grover, Biomass Regenerable Energy, John Wiley, New York, 1987.
Felix A. Farret and M. Godoy Simoes, Integration of Alternative Sources of Energy, 2006, John Wiley and Sons.
Robert Huggins, Energy Storage, Springer, 2010
M. Ehsani, Y. Gao, and Ali Emadi, Modern Electric, Hybrid Electric and Fuel Cell Vehicles: Fundamentals, Theory and Design, Second Edition, CRC Press.
S. Chakraborty, M. G. Simoes and W. E. Kramer, Power Electronics for Renewable and Distributed Energy System, Springer 2013
Ahmed Faheem Zobaa, Energy storage – Technologies and Applications, InTech Publication 2013.
N. Femia G. Petrone, G. Spagnuolo and M. Vitelli, Power Electronics and Control Techniques for Maximum Energy Harvesting in Photovoltaic Systems, CRC Press, 2013

Website Reference:

Other References Material

Heinrich Ha”Berlin, Photovoltaics System Design And Practice, Wiley, 2012
Shinya Obara, Design of Renewable Energy Systems: Microgrid and Nature Grid Methods, Engineering Science Reference, 2014

Assessment

Internal Assessment consists of two tests out of which; one should be compulsory class test (on minimum 02 Modules) and the other is either a class test or assignment on live problems or course project Term work: Term work shall consist of minimum eight tutorials and assignments (minimum 2). The distribution of marks for term work shall be as follows: Tutorials :15 marks Assignments :05 marks Attendance (Theory and Tutorial. :05 marks The final certification and acceptance of term work ensures minimum passing in the term work

Theory Examination:

Question paper will comprise of 6 questions, each carrying 20 marks.
Total four questions need to be solved.
Q.1 will be compulsory, based on entire syllabus wherein sub questions of 2 to 5 marks will be asked.
Remaining question will be randomly selected from all the modules.

For detail Syllabus of all subjects of Electrical Engineering (EE) 5th Sem 2018 regulation, visit EE 5th Sem Subjects of 2018 Pattern.

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