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Fundamentals of Thermodynamics 10th Edition by Claus Borgnakke, Richard Sonntag 1119494966 9781119494966

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Fundamentals of Thermodynamics 10th Edition Claus Borgnakke Digital Instant Download

Author(s): Claus Borgnakke; Richard E. Sonntag
ISBN(s): 9781119723653, 1119723655
Edition: 10
File Details: PDF, 18.33 MB
Year: 2020
Language: English
SKU: EB-22568794 Category: Tag:

Fundamentals of Thermodynamics 10th Edition by Claus Borgnakke, Richard E. Sonntag – Ebook PDF Instant Download/DeliveryISBN:  1119494966, 9781119494966 

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ISBN-10 :  1119494966 

ISBN-13 : 9781119494966

Author : Claus Borgnakke, Richard E. Sonntag 

The field’s leading textbook for more than three decades, Fundamentals of Engineering Thermodynamics offers a comprehensive introduction to essential principles and applications in the context of engineering. Now in its Tenth Edition, this book retains its characteristic rigor and systematic approach to thermodynamics with enhanced pedagogical features that aid in student comprehension. Detailed appendices provide instant reference; chapter summaries review terminology, equations, and key concepts; and updated data and graphics increase student engagement while enhancing understanding.

Covering classical thermodynamics with a focus on practical applications, this book provides a basic foundational skillset applicable across a variety of engineering fields. Worked examples demonstrate the appropriate use of new formulas, while clarifying the proper approach to generalized problems of a relevant nature. Going beyond the usual guidance in the basics of the field, this book is designed as comprehensive preparation for more advanced study in students’ engineering field of choice. 

 

Fundamentals of Thermodynamics 10th Table of contents:

1 INTRODUCTION AND PRELIMINARIES
CHAPTER 1 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 1 READINGS
1.1 A THERMODYNAMIC SYSTEM AND THE CONTROL VOLUME
1.2 MACROSCOPIC VERSUS MICROSCOPIC POINTS OF VIEW
1.3 PROPERTIES AND STATE OF A SUBSTANCE
1.4 PROCESSES AND CYCLES
1.5 UNITS FOR MASS, LENGTH, TIME, AND FORCE
1.6 SPECIFIC VOLUME AND DENSITY
1.7 PRESSURE
1.8 ENERGY
1.9 EQUALITY OF TEMPERATURE
1.10 THE ZEROTH LAW OF THERMODYNAMICS
1.11 TEMPERATURE SCALES
1.12 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
2 PROPERTIES OF A PURE SUBSTANCE
CHAPTER 2 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 2 READINGS
2.1 THE PURE SUBSTANCE
2.2 THE PHASE BOUNDARIES
2.3 THE P–V–T SURFACE
2.4 TABLES OF THERMODYNAMIC PROPERTIES
2.5 THE TWO-PHASE STATES
2.6 THE LIQUID AND SOLID STATES
2.7 THE SUPERHEATED VAPOR STATES
2.8 THE IDEAL GAS STATES
2.9 THE COMPRESSIBILITY FACTOR
2.10 EQUATIONS OF STATE
2.11 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
3 ENERGY EQUATION AND FIRST LAW OF THERMODYNAMICS
CHAPTER 3 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 3 READINGS
3.1 THE ENERGY EQUATION
3.2 THE FIRST LAW OF THERMODYNAMICS
3.3 THE DEFINITION OF WORK
3.4 WORK DONE AT THE MOVING BOUNDARY OF A SIMPLE COMPRESSIBLE SYSTEM
3.5 DEFINITION OF HEAT
3.6 HEAT TRANSFER MODES
3.7 INTERNAL ENERGY—A THERMODYNAMIC PROPERTY
3.8 PROBLEM ANALYSIS AND SOLUTION TECHNIQUE
3.9 THE THERMODYNAMIC PROPERTY ENTHALPY
3.10 THE CONSTANT-VOLUME AND CONSTANT-PRESSURE SPECIFIC HEATS
3.11 THE INTERNAL ENERGY, ENTHALPY, AND SPECIFIC HEAT OF IDEAL GASES
3.12 NONUNIFORM DISTRIBUTION OF STATES AND MASS
3.13 THE TRANSIENT PROCESS
3.14 GENERAL SYSTEMS THAT INVOLVE WORK
3.15 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
4 ENERGY ANALYSIS FOR A CONTROL VOLUME
CHAPTER 4 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 4 READINGS
4.1 CONSERVATION OF MASS AND THE CONTROL VOLUME
4.2 THE ENERGY EQUATION FOR A CONTROL VOLUME
4.3 THE STEADY-STATE PROCESS
4.4 EXAMPLES OF STEADY-STATE PROCESSES
4.5 MULTIPLE-FLOW DEVICES
4.6 THE TRANSIENT FLOW PROCESS
4.7 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
5 THE SECOND LAW OF THERMODYNAMICS
CHAPTER 5 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 5 READINGS
5.1 HEAT ENGINES AND REFRIGERATORS
5.2 THE SECOND LAW OF THERMODYNAMICS
5.3 THE REVERSIBLE PROCESS
5.4 FACTORS THAT RENDER PROCESSES IRREVERSIBLE
5.5 THE CARNOT CYCLE
5.6 TWO PROPOSITIONS REGARDING THE EFFICIENCY OF A CARNOT CYCLE
5.7 THE THERMODYNAMIC TEMPERATURE SCALE
5.8 THE IDEAL GAS TEMPERATURE SCALE
5.9 IDEAL VERSUS REAL MACHINES
5.10 THE INEQUALITY OF CLAUSIUS
5.11 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
6 ENTROPY
CHAPTER 6 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 6 READINGS
6.1 ENTROPY—A PROPERTY OF A SYSTEM
6.2 THE ENTROPY OF A PURE SUBSTANCE
6.3 ENTROPY CHANGE IN REVERSIBLE PROCESSES
6.4 THE THERMODYNAMIC PROPERTY RELATION
6.5 ENTROPY CHANGE OF A SOLID OR LIQUID
6.6 ENTROPY CHANGE OF AN IDEAL GAS
6.7 THE REVERSIBLE POLYTROPIC PROCESS FOR AN IDEAL GAS
6.8 ENTROPY CHANGE OF A CONTROL MASS DURING AN IRREVERSIBLE PROCESS
6.9 ENTROPY GENERATION AND THE ENTROPY EQUATION
6.10 PRINCIPLE OF THE INCREASE OF ENTROPY
6.11 ENTROPY AS A RATE EQUATION
6.12 SOME GENERAL COMMENTS ABOUT ENTROPY AND CHAOS
KEY CONCEPTS AND FORMULAS
7 ENTROPY ANALYSIS FOR A CONTROL VOLUME
CHAPTER 7 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 7 READINGS
7.1 THE ENTROPY EQUATION FOR A CONTROL VOLUME
7.2 THE STEADY-STATE PROCESS AND THE TRANSIENT PROCESS
7.3 THE STEADY-STATE SINGLE-FLOW PROCESS
7.4 PRINCIPLE OF THE INCREASE OF ENTROPY
7.5 ENGINEERING APPLICATIONS; ENERGY CONSERVATION AND DEVICE EFFICIENCY
KEY CONCEPTS AND FORMULAS
8 EXERGY
CHAPTER 8 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 8 READINGS
8.1 EXERGY, REVERSIBLE WORK, AND IRREVERSIBILITY
8.2 EXERGY AND ITS BALANCE EQUATION
8.3 THE SECOND LAW EFFICIENCY
8.4 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
9 POWER AND REFRIGERATION SYSTEMS—WITH PHASE CHANGE
CHAPTER 9 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 9 READINGS
9.1 INTRODUCTION TO POWER SYSTEMS
9.2 THE RANKINE CYCLE
9.3 EFFECT OF PRESSURE AND TEMPERATURE ON THE RANKINE CYCLE
9.4 THE REHEAT CYCLE
9.5 THE REGENERATIVE CYCLE AND FEEDWATER HEATERS
9.6 DEVIATION OF ACTUAL CYCLES FROM IDEAL CYCLES
9.7 COMBINED HEAT AND POWER: OTHER CONFIGURATIONS
9.8 INTRODUCTION TO REFRIGERATION SYSTEMS
9.9 THE VAPOR-COMPRESSION REFRIGERATION CYCLE
9.10 WORKING FLUIDS FOR VAPOR-COMPRESSION REFRIGERATION SYSTEMS
9.11 DEVIATION OF THE ACTUAL VAPOR-COMPRESSION REFRIGERATION CYCLE FROM THE IDEAL CYCLE
9.12 REFRIGERATION CYCLE CONFIGURATIONS
9.13 THE ABSORPTION REFRIGERATION CYCLE
9.14 EXERGY ANALYSIS OF CYCLES
KEY CONCEPTS AND FORMULAS
10 POWER AND REFRIGERATION SYSTEMS—GASEOUS WORKING FLUIDS
CHAPTER 10 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 10 READINGS
10.1 AIR-STANDARD POWER CYCLES
10.2 THE BRAYTON CYCLE
10.3 THE SIMPLE GAS-TURBINE CYCLE WITH A REGENERATOR
10.4 GAS-TURBINE POWER CYCLE CONFIGURATIONS
10.5 THE AIR-STANDARD CYCLE FOR JET PROPULSION
10.6 THE AIR-STANDARD REFRIGERATION CYCLE
10.7 RECIPROCATING ENGINE POWER CYCLES
10.8 THE OTTO CYCLE
10.9 THE DIESEL CYCLE
10.10 THE STIRLING CYCLE
10.11 THE ATKINSON AND MILLER CYCLES
10.12 COMBINED-CYCLE POWER AND REFRIGERATION SYSTEMS
KEY CONCEPTS AND FORMULAS
11 GAS MIXTURES
CHAPTER 11 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 11 READINGS
11.1 GENERAL CONSIDERATIONS AND MIXTURES OF IDEAL GASES
11.2 A SIMPLIFIED MODEL OF A MIXTURE INVOLVING GASES AND A VAPOR
11.3 THE ENERGY EQUATION APPLIED TO GAS–VAPOR MIXTURES
11.4 THE ADIABATIC SATURATION PROCESS
11.5 ENGINEERING APPLICATIONS—WET-BULB AND DRY-BULB TEMPERATURES AND THE PSYCHROMETRIC CHART
KEY CONCEPTS AND FORMULAS
12 THERMODYNAMIC RELATIONS
CHAPTER 12 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 12 READINGS
12.1 THE CLAPEYRON EQUATION
12.2 MATHEMATICAL RELATIONS FOR A HOMOGENEOUS PHASE
12.3 THE MAXWELL RELATIONS
12.4 THERMODYNAMIC RELATIONS INVOLVING ENTHALPY, INTERNAL ENERGY, AND ENTROPY
12.5 VOLUME EXPANSIVITY AND ISOTHERMAL AND ADIABATIC COMPRESSIBILITY
12.6 REAL-GAS BEHAVIOR AND EQUATIONS OF STATE
12.7 THE GENERALIZED CHART FOR CHANGES OF ENTHALPY AT CONSTANT TEMPERATURE
12.8 THE GENERALIZED CHART FOR CHANGES OF ENTROPY AT CONSTANT TEMPERATURE
12.9 THE PROPERTY RELATION FOR MIXTURES
12.10 PSEUDOPURE SUBSTANCE MODELS FOR REAL GAS MIXTURES
12.11 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
13 CHEMICAL REACTIONS
CHAPTER 13 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 13 READINGS
13.1 FUELS
13.2 THE COMBUSTION PROCESS
13.3 ENTHALPY OF FORMATION
13.4 ENERGY ANALYSIS OF REACTING SYSTEMS
13.5 ENTHALPY AND INTERNAL ENERGY OF COMBUSTION; HEATING VALUE
13.6 ADIABATIC FLAME TEMPERATURE
13.7 THE THIRD LAW OF THERMODYNAMICS AND ABSOLUTE ENTROPY
13.8 SECOND-LAW ANALYSIS OF REACTING SYSTEMS
13.9 FUEL CELLS
13.10 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
14 INTRODUCTION TO PHASE AND CHEMICAL EQUILIBRIUM
CHAPTER 14 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 14 READINGS
14.1 REQUIREMENTS FOR EQUILIBRIUM
14.2 EQUILIBRIUM BETWEEN TWO PHASES OF A PURE SUBSTANCE
14.3 METASTABLE EQUILIBRIUM
14.4 CHEMICAL EQUILIBRIUM
14.5 SIMULTANEOUS REACTIONS
14.6 COAL GASIFICATION
14.7 IONIZATION
14.8 ENGINEERING APPLICATIONS
KEY CONCEPTS AND FORMULAS
15 COMPRESSIBLE FLOW
CHAPTER 15 PROBLEMS
CONCEPT-STUDY GUIDE PROBLEMS
HOMEWORK PROBLEMS
ENGLISH UNIT PROBLEMS
SUMMARY OBJECTIVES
STUDY GUIDE AND CHAPTER STUDY RESOURCES
CHAPTER 15 READINGS
15.1 STAGNATION PROPERTIES
15.2 THE MOMENTUM EQUATION FOR A CONTROL VOLUME
15.3 ADIABATIC, ONE-DIMENSIONAL, STEADY-STATE FLOW OF AN INCOMPRESSIBLE FLUID THROUGH A NOZZLE
15.4 VELOCITY OF SOUND IN AN IDEAL GAS
15.5 REVERSIBLE, ADIABATIC, ONE-DIMENSIONAL FLOW OF AN IDEAL GAS THROUGH A NOZZLE
15.6 MASS-FLOW RATE OF AN IDEAL GAS THROUGH AN ISENTROPIC NOZZLE
15.7 NORMAL SHOCK IN AN IDEAL GAS FLOWING THROUGH A NOZZLE
15.8 NOZZLE AND DIFFUSER COEFFICIENTS

 

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