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Thermodynamics for engineers

Thermodynamics for engineers
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Barcode Shelf Location Collection Volume Ref. Branch Status Due Date Res.
10029214 TJ265.P68 2020
 Engineering   GUtech Library . . Available .  
Download Title Catalogue Record 13522
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Catalogue Information
Field name Details
ISBN 9781260456523
Language Eng
Shelf Location TJ265.P68 2020
Author Potter, Merle C.
Title Thermodynamics for engineers
4th ed.
Publisher New York : McGraw-Hill , 2020
Description 421 p. ; 28 cm.
Specific Type of Material Book
Series Schaum's outline series
Contents Preface Contents Chapter 1 Concepts, Definitions, and Basic Principles 1.1 Introduction 1.2 Thermodynamic Systems and Control Volumes 1.3 Macroscopic Description 1.4 Properties and State of a System 1.5 Thermodynamic Equilibrium and Processes 1.6 Units 1.7 Density, Specific Volume, and Specific Weight 1.8 Pressure 1.9 Temperature 1.10 Energy Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 2 Properties of Pure Substances 2.1 Introduction 2.2 The P-v-T Surface 2.3 The Liquid-Vapor Region 2.4 Property Calculations 2.5 The Ideal-Gas Equation of State 2.6 Equations of State for a Nonideal Gas Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 3 Work and Heat 3.1 Introduction 3.2 Definition of Work 3.3 Quasi-Equilibrium Work due to a Moving Boundary 3.4 Nonequilibrium Work 3.5 Other Work Modes 3.6 Heat Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 4 The First Law of Thermodynamics 4.1 Introduction 4.2 The First Law of Thermodynamics Applied to a Cycle 4.3 The First Law Applied to a Process 4.4 Enthalpy 4.5 Latent Heat 4.6 Specific Heats 4.7 The First Law Applied to Various Processes 4.8 General Formulation for Control Volumes 4.9 Applications of the Energy Equation to Control Volumes 4.10 Transient Flow Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 5 The Second Law of Thermodynamics 5.1 Introduction 5.2 Heat Engines, Heat Pumps, and Refrigerators 5.3 Statements of the Second Law of Thermodynamics 5.4 Reversibility 5.5 The Carnot Engine 5.6 Carnot Efficiency Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 6 Entropy 6.1 Introduction 6.2 Definition 6.3 Entropy for an Ideal Gas with Constant Specific Heats 6.4 Entropy for an Ideal Gas with Variable Specific Heats 6.5 Entropy for Substances such as Steam, Solids, and Liquids 6.6 The Inequality of Clausius 6.7 Entropy Change for an Irreversible Process 6.8 The Second Law Applied to a Control Volume Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 7 Reversible Work, Irreversibility, and Availability 7.1 Basic Concepts 7.2 Reversible Work and Irreversibility 7.3 Availability and Exergy 7.4 Second-Law Analysis of a Cycle Solved Problems Supplementary Problems Answers to Supplementary Problems Chapter 8 Gas Power Cycles 8.1 Introduction 8.2 Gas Compressors 8.3 The Air-Standard Cycle 8.4 The Carnot Cycle 8.5 The Otto Cycle 8.6 The Diesel Cycle 8.7 The Dual Cycle 8.8 The Stirling and Ericsson Cycles 8.9 The Brayton Cycle 8.10 The Regenerative Brayton Cycle 8.11 The Intercooling, Reheating, Regenerative Brayton Cycle 8.12 The Turbojet Engine Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 9 Vapor Power Cycles 9.1 Introduction 9.2 The Rankine Cycle 9.3 Rankine Cycle Efficiency 9.4 The Reheat Cycle 9.5 The Regenerative Cycle 9.6 The Supercritical Rankine Cycle 9.7 Effect of Losses on Power Cycle Efficiency 9.8 The Combined Brayton-Rankine Cycle Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 10 Refrigeration Cycles 10.1 Introduction 10.2 The Vapor Refrigeration Cycle 10.3 The Multistage Vapor Refrigeration Cycle 10.4 The Heat Pump 10.5 The Absorption Refrigeration Cycle 10.6 The Gas Refrigeration Cycle Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 11 Thermodynamic Relations 11.1 Three Differential Relations 11.2 The Maxwell Relations 11.3 The Clapeyron Equation 11.4 Further Consequences of the Maxwell Relations 11.5 Relationships Involving Specific Heats 11.6 The Joule-Thomson Coefficient 11.7 Enthalpy, Internal Energy, and Entropy Changes of Real Gases Solved Problems Supplementary Problems Answers to Supplementary Problems Chapter 12 Mixtures and Psychrometrics 12.1 Basic Definitions 12.2 Ideal-Gas Law for Mixtures 12.3 A Mixture of Ideal Gases 12.4 Air-Vapor Mixtures: Psychrometry 12.5 Adiabatic Saturation and Wet-Bulb Temperatures 12.6 The Psychrometric Chart 12.7 Air-Conditioning Processes Solved Problems Supplementary Problems Review Questions for the FE Examination Answers to Supplementary Problems Answers to Review Questions for the FE Examination Chapter 13 Combustion 13.1 Combustion Equations 13.2 Enthalpy of Formation, Enthalpy of Combustion, and the First Law 13.3 Adiabatic Flame Temperature Solved Problems Supplementary Problems Answers to Supplementary Problems Sample Exams for a Semester Course for Engineering Students Exam No. 1 Exam No. 2 Exam No. 3 Final Exam Appendix A Conversions of Units Appendix B Material Properties Appendix C Properties of Water (Steam Tables) Appendix D Properties of R134a Appendix E Ideal-Gas Tables Appendix F Psychrometric Charts Appendix G Compressibility Chart Appendix H Enthalpy Departure Charts Appendix I Entropy Departure Charts Index
Subject Engineering thermodynamics
Other name(s) Somerton, Craig W.
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