Engineering Thermodynamics detail syllabus for Automobile Engineering (Auto), 2017 scheme is taken from VTU official website and presented for VTU students. The course code (17AU33), 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 auto 3rd sem syllabus for be 2017 scheme vtu you can visit Auto 3rd Sem syllabus for BE 2017 Scheme VTU Subjects. The detail syllabus for engineering thermodynamics is as follows.
Course Objectives:
At the end of this course, students will be able to:
- Define work, heat, and laws of thermodynamics.
- Calculate performance characteristics of I. C. engines.
- Evaluate thermal performance of refrigeration cycles.
- Demonstrate the calculation of efficiency of gas power and vapor power cycles.
Module 1
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Module 2
Laws of Thermodynamics and Entropy:
Joules experiments, Statement of the First law of thermodynamics, steady state-steady flow energy equation, important applications, analysis of unsteady processes such as filling and evacuation of vessels with and without heat transfer.
Keivin -Planck &Clasius statement of Second law of Thermodynamics, PMM II and PMM I.
Clasius Theorem & inequality, Entropy; definition, a property, Available and unavailable energy, Numericals.
Module 3
Combustion Thermodynamics, Gas power cycles and Testing of I. C. Engines:
Air Fuel (A/F) ratio, Excess air, Theoretical (Stoichiometeric) air for combustion of fuels, Exhaust gas analysis , Otto, Diesel, Dual Cycles, efficiencies and mean effective pressures, Testing of two stroke and four stroke SI and CI engines for performance Related numerical problems, heat balance sheet, Morse test, Willian line test and Motoring Test.
Module 4
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Module 5
Reciprocating Air Compressors, Gas Turbine and Jet Propulsion:
Operation of a single stage reciprocating compressor, work input through P-V diagram, steady state and steady flow analysis, adiabatic, isothermal and mechanical efficiencies minimum work for compression, multistage compressor.
Classification of Gas turbines, Analysis of open cycle gas turbine cycle. Advantages and disadvantages of closed cycle, numericals. Principle of Jet propulsion and Rocket propulsion
Course Outcomes:
After completion of above course, student will be able to:
- Define and explain fundamental thermodynamic laws and concepts, work, various types of works and heat and its applications, entropy and its relations, Zeroth, First & Second law of thermodynamics and its applications.
- Explain various thermodynamic relations, constants of gas and basics of ideal gas & its mixtures.
- Calculate load and IP, BP and other performance characteristics of I.C. engines.
- Explain the selection of air conditioning system; evaluate thermal performance of refrigeration cycles.
- Calculate efficiency and MEP of various gas power & vapor power cycles.
- Explain the principles of gas turbine & jet propulsion system and their fuels.
Text Books:
- Basic and Applied Thermodynamics- P. K. Nag, Tata McGraw Hul Pub. 2002
- Applied Thermodynamics – B. K. Venkanna , PHI New Delhi
Reference Books:
- Thermodynamics, An engineering approach- Yunus, A. Cenegal and Michael A.Boies, Tata Mac- Graw Hill Publishing Company, 2002,
- Fundamental of Classical Thermodynamics- G. J. Van Wylen and R. E. Sontang, Wiley eastern.
For detail syllabus of all other subjects of BE Auto, 2017 scheme do visit Auto 3rd Sem syllabus for 2017 scheme.
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