ME3391 Engineering Thermodynamics Notes
Download ME3391 Engineering Thermodynamics Books, Lecture Notes, Part-A 2 marks with answers, Part-B 16 marks Questions, PDF Books. In this Notes Very Useful for Second Year Third Semester Students.
“ME3391 Engineering Thermodynamics Books”
“ME3391 Engineering Thermodynamics Lecture Notes”
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“ME3391 Engineering Thermodynamics Notes”
Subject Info:
Semester | Third Semester |
Department | Mech |
Year | Second Year |
Regulation | R 2021 |
Subject Code / Name | ME3391 Engineering Thermodynamics |
Content | Local Authors Books, Lecture Notes |
Syllabus:
ME3391 Engineering Thermodynamics
UNIT I BASICS, ZEROTH AND FIRST LAW
Review of Basics – Thermodynamic systems, Properties and processes Thermodynamic Equilibrium – Displacement work – P-V diagram. Thermal equilibrium – Zeroth law – Concept of temperature and Temperature Scales. First law – application to closed and open systems – steady and unsteady flow processes.
UNIT II SECOND LAW AND ENTROPY
Heat Engine – Refrigerator – Heat pump. Statements of second law and their equivalence & corollaries. Carnot cycle – Reversed Carnot cycle – Performance – Clausius inequality. Concept of entropy – T-s diagram – Tds Equations – Entropy change for a pure substance.
UNIT III AVAILABILITY AND APPLICATIONS OF II LAW
Ideal gases undergoing different processes – principle of increase in entropy. Applications of II Law. Highand low-grade energy. Availability and Irreversibility for open and closed system processes – I and II law Efficiency
UNIT IV PROPERTIES OF PURE SUBSTANCES
Steam – formation and its thermodynamic properties – p-v, p-T, T-v, T-s, h-s diagrams. PVT surface. Determination of dryness fraction. Calculation of work done and heat transfer in non-flow and flow processes using Steam Table and Mollier Chart.
UNIT V GAS MIXTURES AND THERMODYNAMIC RELATIONS
Properties of Ideal gas, real gas – comparison. Equations of state for ideal and real gases. vander Waal’s relation – Reduced properties – Compressibility factor – Principle of Corresponding states – Generalized Compressibility Chart. Maxwell relations – TdS Equations – heat capacities relations – Energy equation, Joule- Thomson experiment – Clausius-Clapeyron equation.