AE3351 - Aero Engineering Thermodynamics Syllabus Regulation 2021 Anna University

Regulation 2021, Anna University Subject code – AE3351 deals with B.E Aeronautical Engineering 2nd year semester III Aero Engineering Thermodynamics Syllabus. To prepare for challenging subjects in the field of Aeronautics need a detailed syllabus and preparation strategies. In this article, we discuss the Aero Engineering Thermodynamics syllabus.

We intend to provide every topic of the syllabus and content required for academic performance, along with reference books. In this article AE3351 – Aero Engineering Thermodynamics Syllabus, you will be guided to get an idea of each topic of the syllabus and you can make your preparation strategy, and notes by filtering difficult topics from the different subjects. Then you can concentrate on the topic where you need to focus more. We included all the topics regarding the Aeronautical syllabus. We hope this information is useful to you. Don’t forget to share it with your friends and classmates.

If you want to know more about the syllabus of B.E Computer Science and Engineering connected to an affiliated institution’s under four-year undergraduate degree programme. We provide you with a detailed Year-wise, semester-wise, and Subject-wise syllabus in the following link B.E Aeronautical Engineering Syllabus Anna University, Regulation 2021.

Aim Of Concept:

  • To make the student understand the quantitative analysis of machine and processes for transformation of energy and between work and heat.
  • To Make the student understand the Laws of thermodynamics would be able to quantify through measurement of related
  • To Apply the thermodynamic properties, energies and their interactions in real-time problems
  • To develop basic concept of air cycle, gas turbine engines and heat transfer.
  • To analyse different types of Heat transfer
  • To identify the different components of Jet Engines

AE3351 – Aero Engineering Thermodynamics Syllabus

Unit I: Fundamental Concept And First Law

Concept of continuum, macroscopic approach, thermodynamic systems – closed, open and isolated. Property, state, path and process, quasi-static process, work, internal energy, enthalpy, specific heat capacities and heat transfer, SFEE, application of SFEE to jet engine components, First law of thermodynamics, relation between pressure, volume and temperature for various processes, Zeroth law of thermodynamics.

Unit II: Second Law And Entropy

Second law of thermodynamics – Kelvin Planck and Clausius statements of second law. Reversibility and Irreversibility, Thermal reservoir, Carnot theorem. Carnot cycle, Reversed Carnot cycle, efficiency, COP, Thermodynamic temperature scale – Clausius inequality, Concept of entropy, Entropy changes for various processes.

Unit III: Air Standard Cycles

Otto, Diesel, Dual, Ericsson, Atkinson, Stirling and Brayton cycles – Air standard efficiency – Mean effective pressure.

Unit IV: Fundamentals Of Vapour Power Cycles

Properties of pure substances – solid, liquid and vapour phases, phase rule, p-v, p-T, T-v, T-s, h-s diagrams, p-v-T surfaces, thermodynamic properties of steam – calculations of work done and heat transfer in non-flow and flow processes – standard Rankine cycle, Reheat and Regeneration cycle: heat rate, Specific steam consumption, Tonne of refrigeration.

AE3351 - Aero Engineering Thermodynamics Syllabus Regulation 2021 Anna University

Unit V: Basics Of Propulsion And Heat Transfer

Classification of jet engines – basic jet propulsion arrangement – Engine station number, thrust equation – Specific thrust, SFC, TSFC, specific impulse, actual cycles, isentropic efficiencies of jet engine components, polytropic efficiency, conduction in parallel, radial and composite wall, Basics of convective and radiation heat transfer.

Text Books:

1. Nag. P.K., “Engineering Thermodynamics”, Tata McGraw-Hill, New Delhi, 2013.
2. Rathakrishnan E., “Fundamentals of Engineering Thermodynamics”, Prentice-Hall India, 2005.
3. Yunus A. Cengel and Michael A. Boles, “Thermodynamics: An Engineering Approach” McGraw-Hill Science/Engineering/Math; 7thedition 2010.

References:

1. Arora C.P, “Thermodynamics”, Tata McGraw-Hill, New Delhi, 2003.
2. Holman. J.P., “Thermodynamics”, 3rd Edition, McGraw-Hill, 2007.
3. Merala C, Pother, Craig W, Somerton, “Thermodynamics for Engineers”, Schaum Outline Series, Tata McGraw-Hill, New Delhi, 2004.
4. Ramalingam K.K. “Thermodynamics”, Sci-Tech Publications, 2006
5. Venwylen and Sontag, “Classical Thermodynamics”, Wiley Eastern, 1987

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