Anna University Syllabus - Anna University ME Syllabus
EY7004 ENERGY CONVERSION TECHNIQUES Syllabus | Anna University ME Energy Engineering Second Semester Syllabus Regulation 2013. Below is the Anna University 2013 Regulation Syllabus for 2nd Semester for ME Energy engineering, Textbooks, Reference books, Exam portions, Question Bank, Previous year question papers, Model question papers, Class notes, Important 2 marks, 8 marks, 16 marks topics.
It is applicable for all students admitted in the Academic year 2013-2014 onwards for all its Affiliated institutions in Tamil Nadu.
Anna University Chennai Syllabus
EY7004 ENERGY CONVERSION TECHNIQUES L T P C 3 0 0 3
AIM:
To detail on the different technologies in general for converting one form of energy to another.
OBJECTIVES:
To analyze the working principle, pros and cons of
Conventional energy conversion techniques
Direct energy conversion systems
Need and necessity of energy storage systems and their desirable characteristics & Fuel cells
UNIT I CONVENTIONAL ENERGY CONVERSION CYCLES 8
Reversible and irreversible cycles – Thermodynamics analysis of Carnot – Stirling – Ericsson – Otto
– Diesel – Dual – Lenoir – Atkinson – Brayton - Rankine.
UNIT II DIRECT CONVERSION OF THERMAL TO ELECTRICAL ENERGY 8
Thermoelectric Converters –Thermionic converters – MHD – Ferro electric converter – Nernst effect
generator
UNIT III CHEMICAL & ELECTROMAGNETIC ENERGY TO ELECTRICAL ENERGY 9
Batteries – types – working – performance governing parameters – hydrogen energy – solar
photovoltaic cells
UNIT IV ENERGY STORAGE SYSTEMS 9
Energy Storage Technologies - Mechanical energy, Electrical energy, Chemical energy, Thermal
energy
UNIT V FUEL CELLS 11
Basics – types – working - comparative analysis – thermodynamics and kinetics of fuel cell process –
performance of fuel cell – applications - advantages and drawbacks
TOTAL: 45 PERIODS
OUTCOME:
Awareness on the existence of various mechanisms for conversion and storage of energy, their
merits, constraints and drawbacks
REFERENCES
1. Archie.W.Culp, Principles of Energy Conversion, McGraw-Hill Inc., 1991, Singapore
2. Kordesch. K, and Simader.G, Fuel Cell and Their Applications, Wiley-Vch, Germany 1996
3. Kettari, M.A.Direct Energy Conversion, Addison-Wesley Pub. Co 1997
4. Hart A.B and Womack, G.J.Fuel Cells: Theory and Application, Prentice Hall Newyork Ltd.,
London 1989
Anna University Chennai Syllabus
EY7004 ENERGY CONVERSION TECHNIQUES L T P C 3 0 0 3
AIM:To detail on the different technologies in general for converting one form of energy to another.
OBJECTIVES:
To analyze the working principle, pros and cons of
Conventional energy conversion techniques
Direct energy conversion systems
Need and necessity of energy storage systems and their desirable characteristics & Fuel cells
UNIT I CONVENTIONAL ENERGY CONVERSION CYCLES 8
Reversible and irreversible cycles – Thermodynamics analysis of Carnot – Stirling – Ericsson – Otto
– Diesel – Dual – Lenoir – Atkinson – Brayton - Rankine.
UNIT II DIRECT CONVERSION OF THERMAL TO ELECTRICAL ENERGY 8
Thermoelectric Converters –Thermionic converters – MHD – Ferro electric converter – Nernst effect
generator
UNIT III CHEMICAL & ELECTROMAGNETIC ENERGY TO ELECTRICAL ENERGY 9
Batteries – types – working – performance governing parameters – hydrogen energy – solar
photovoltaic cells
UNIT IV ENERGY STORAGE SYSTEMS 9
Energy Storage Technologies - Mechanical energy, Electrical energy, Chemical energy, Thermal
energy
UNIT V FUEL CELLS 11
Basics – types – working - comparative analysis – thermodynamics and kinetics of fuel cell process –
performance of fuel cell – applications - advantages and drawbacks
TOTAL: 45 PERIODS
OUTCOME:
Awareness on the existence of various mechanisms for conversion and storage of energy, their
merits, constraints and drawbacks
REFERENCES
1. Archie.W.Culp, Principles of Energy Conversion, McGraw-Hill Inc., 1991, Singapore
2. Kordesch. K, and Simader.G, Fuel Cell and Their Applications, Wiley-Vch, Germany 1996
3. Kettari, M.A.Direct Energy Conversion, Addison-Wesley Pub. Co 1997
4. Hart A.B and Womack, G.J.Fuel Cells: Theory and Application, Prentice Hall Newyork Ltd.,
London 1989
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