Batteries and Fuel Cells for Commercial, Military and Space Applications Syllabus for VTU BE 2017 Scheme (Open Elective-2)

Batteries and Fuel Cells for Commercial, Military and Space Applications detail syllabus for various departments, 2017 scheme is taken from VTU official website and presented for VTU students. The course code (17EE663), and for exam duration, Teaching Hr/week, Practical Hr/week, Total Marks, internal marks, theory marks, duration and credits do visit complete sem subjects post given below.

For all other open elective-2 syllabus for vtu be 2017 scheme you can visit Open Elective-2 syllabus for VTU BE 2017 Scheme Subjects. The detail syllabus for batteries and fuel cells for commercial, military and space applications is as follows.

Course Objectives:

• To discuss the current status of various rechargeable batteries and fuel cells for various applications.
• To discuss the performance capabilities and limitations of batteries and fuel cells.
• To discuss the performance requirements for next-generation high-power rechargeable lithium-based batteries and sealed nickel-cadmium and lead-acid batteries.
• To discuss fuel cells that are best suited for applications where electrical power requirements vary between several kilowatts (kW) to a few megawatts (MW).
• To describe the high-power batteries currently used by EVs and HEVs and various next-generation rechargeable batteries best suited for all-electric cars, EVs, and HEVs.
• To discuss low-power battery configurations that are best suited for compact commercial, industrial, and medical applications.
• To identify the design aspects and performance characteristics of micro and nano.

Module 1

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Module 2

Batteries for Aerospace and Communications Satellites: Introduction, On-board Electrical Power System, Battery Power Requirements and Associated Critical Components, Cost-Effective Design Criterion for Battery-Type Power Systems for Spacecraft, Spacecraft Power System Reliability, Ideal Batteries for Aerospace and Communications Satellites, Performance Capabilities and Battery Power Requirements for the Latest Commercial and Military Satellite Systems, Military Satellites for Communications, Surveillance, Reconnaissance, and Target Tracking, Batteries Best Suited to Power Satellite Communications Satellites 08

Module 3

Fuel Cell Technology:Introduction, Performance Capabilities of Fuel Cells Based on Electrolytes, Low-Temperature Fuel Cells Using Various Electrolytes, Fuel Cells Using a Combination of Fuels, Fuel Cell Designs for Multiple Applications, Ion-Exchange Membrane Fuel Cells, Potential Applications of Fuel Cells, Fuel Cells for Aircraft Applications, Fuel Cells for Commercial, Military, and Space Applications, Fuel Cells Capable of Operating in Ultra-High-Temperature Environments, Fuel Cell Requirements for Electric Power Plant Applications.

Module 4
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Module 5

Low-Power Rechargeable Batteries for Commercial, Space, and Medical Applications: Introduction, Low-Power Battery Configurations, Characteristics, Batteries for Miniaturized Electronic System Applications, for Embedded-System Applications, Batteries for Medical Applications, Selection Criteria for Primary and Secondary (Rechargeable) Batteries for Specific Applications.

Course Outcomes:

At the end of the course the student will be able to:

• Discuss the current status, the performance capabilities and limitations of rechargeable batteries and fuel cells for various applications.
• To discuss the performance requirements for next-generation high-power rechargeable lithium-based batteries and sealed nickel-cadmium and lead-acid batteries.
• Discuss fuel cells that are best suited for applications where electrical power requirements vary between several kilowatts (kW) to a few megawatts (MW)
• Describe the high-power batteries currently used by EVs and HEVs and various next-generation rechargeable batteries best suited for all-electric cars, EVs, and HEVs.
• Discuss low-power battery configurations that are best suited for compact commercial, industrial, and medical applications.
• Explain the design aspects and performance characteristics of micro- and nano-batteries best suited for detection, sensing, and monitoring devices.

Graduate Attributes (as per NBA):

• Engineering Knowledge,
• Problem Analysis,

Question paper pattern:

The question paper will have ten questions.

• Each full question is for 16 marks.
• There will be 2full questions (with a maximum of four sub questions in one full question) from each module.
• Each full question with sub questions will cover the contents under a module.
• Students will have to answer 5 full questions, selecting one full question from each module.

Text Books:

1. Next-Generation Batteries and Fuel Cells for Commercial, Military, and Space Applications, A.R. JHA, CRC Press, 1st Edition, 2012

Reference Books:

1. Electrochemical Power Sources: Batteries, Fuel Cells, and Supercapacitors, Vladimir S. Bagotsky, John Wiley, 1st Edition,2015.
2. Modelling and Control of Fuel Cells: Distributed Generation Applications M. HashemNehrir Caisheng Wang, Wiley, 1st Edition,2009.

For detail syllabus of all other subjects of BE do syllabus for different schemes from menu given on top.

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