Fundamentals of engineering thermodynamics /

Moran, Michael J.

Fundamentals of engineering thermodynamics / Michael J. Moran, Howard N. Shapiro. - 2nd ed. - New York : Wiley, c1992. - x, 804 p. : ill. (some col.) ; 26 cm. + Appendices

CONTENTS

CHAPTER 1: INTRODUCTORY CONCEPTS AND DEFINITIONS
thermodynamic systems
property, state, process and equilibrium
e.tc

CHAPTER 2: ENERGY AND THE FIRST LAW OF THERMODYNAMICS
mechanical concepts of energy
energy transfer by work
e.tc

CHAPTER 3: PROPERTIES OF A PURE, SIMPLE COMPRESSIBLE SUBSTANCE
state principle
PVT relation
e.tc

CHAPTER 4: CONTROL VOLUME ENERGY ANALYSIS
conservation of mass for a control volume
conservation of energy for a control volume
e.tc

CHAPTER 5: SECOND LAW OF THERMODYNAMICS
introduction
statements of the second law
e.tc

CHAPTER 6: ENTROPY
clausius inequality
definition of entropy change
e.tc

CHAPTER 7: AVAILABILITY(EXERGY) ANALYSIS
introduction
availability
e.tc


CHAPTER 8: VAPOR POWER SYSTMES
preliminaries
Rankine cycle
e.tc

CHAPTER 9: GAS POWER SYSTEMS
preliminaries
air-standard Otto cycle
e.tc.

CHAPTER 10: REFRIGERATION AND HEAT PUMP SYSTEMS
preliminaries
vapor-compression refrigeration
e.tc

CHAPTER 11: THERMODYNAMIC RELATIONS FOR SIMPLE COMPRESSIBLE SUBSTANCES
equations of state
etc

CHAPTER 12: NONREACTING IDEAL GAS MIXTURES AND PSYCHROMETRICS
describing mixture composition
PVT relationships for ideal gas mixtures
e.tc

CHAPTER 13: REACTING MIXTURES AND COMBUSTION
combustion process
conservation of energy for reacting systems
e.tc

CHAPTER 14: CHEMICAL AND PHASE EQUILIBRIUM
preliminary considerations
equation of reaction equilibruim
e.tc




Includes index.

0471539848 (alk. paper)

91023752


Thermodynamics.

621.402/1 / MOR