ENGINEERING THERMODYNAMICS

 Course Code : PCME4205 Author : uLektz University : Biju Patnaik University of Technology (BPUT) Regulation : 2010 Categories : Mechanical Format : ePUB3 (DRM Protected) Type : eBook

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Description :ENGINEERING THERMODYNAMICS of PCME4205 covers the latest syllabus prescribed by Biju Patnaik University of Technology (BPUT) for regulation 2010. Author: uLektz, Published by uLektz Learning Solutions Private Limited.

Note : No printed book. Only ebook. Access eBook using uLektz apps for Android, iOS and Windows Desktop PC.

Topics
UNIT-I: REVIEW OF FIRST AND SECOND LAWS ,GENERAL THERMODYNAMIC PROPERTY RELATIONS AND RECIPROCATING AIR COMPRESSORS

1.1 Review of First and Second laws,First law analysis of unsteady flow control volumes, Entropy generation, Reversible work, Availability and Irreversibility

1.2 General Thermodynamic property relations:The Maxwell relations, The Clapeyron equation, The TdS relations,Isothermal compressibility and volume expansivity,The Joule-Thomson coefficient

1.3 Reciprocating Air Compressors: Work Input Through p-v Diagram And Steady State Steady Flow Analysis. Introduction (Uses of compressed air),The reciprocating cycle neglecting and considering clearance volume,Volumetric efficiency and its effect on compressor performance, Limitations of single stage compression

1.4 Multistage compression and inter cooling,Optimum intercooler pressure,Performance and design calculations of reciprocating compressors,Air motors.

UNIT-II: VAPOR POWER CYCLES

2.1 Vapor Power Cycles: The Carnot vapor cycle and its limitations, The Rankine cycle,Means of increasing the Rankine cycle efficiency,The reheat cycle, The regenerative feed heating cycle

2.2 The binary vapor cycle,The gas-vapor coupled cycles,Cogeneration (Back pressure and Pass-out turbines)

UNIT-III: GAS POWER CYCLES AND REFRIGERATION CYCLES

3.1 Gas Power Cycles: Air standard cycles- Otto, Diesel, Dual Combustion and Brayton cycles

3.2 The Brayton cycle with non-isentropic flow in compressors and turbines,The Brayton cycle with regeneration, reheating and inter cooling,Ideal jet propulsion cycle

3.3 Refrigeration cycles: Reversed Carnot cycle,Reversed Brayton cycle (Gas refrigeration system), The vapor compression cycle,The vapor absorption cycle