Description
Efnisyfirlit
- COVER
- TITLE PAGE
- ABOUT THE AUTHORS
- PREFACE TO THE FOURTH EDITION
- NOTES TO INSTRUCTORS
- DIGITAL RESOURCES AND WILEYPLUS
- POSTSCRIPT: INTRODUCTION TO AN AUTHOR
- NOMENCLATURE
- GLOSSARY OF CHEMICAL PROCESS TERMS
- PART 1: ENGINEERING PROBLEM ANALYSIS
- CHAPTER 1: WHAT SOME CHEMICAL ENGINEERS DO FOR A LIVING
- CHAPTER 2: INTRODUCTION TO ENGINEERING CALCULATIONS
- 2.0 LEARNING OBJECTIVES
- 2.1 UNITS AND DIMENSIONS
- 2.2 CONVERSION OF UNITS
- 2.3 SYSTEMS OF UNITS
- 2.4 FORCE AND WEIGHT
- 2.5 NUMERICAL CALCULATION AND ESTIMATION
- 2.6 DIMENSIONAL HOMOGENEITY AND DIMENSIONLESS QUANTITIES
- 2.7 PROCESS DATA REPRESENTATION AND ANALYSIS
- 2.8 SUMMARY
- PROBLEMS
- CHAPTER 3: PROCESSES AND PROCESS VARIABLES
- 3.0 LEARNING OBJECTIVES
- 3.1 MASS AND VOLUME
- 3.2 FLOW RATE
- 3.3 CHEMICAL COMPOSITION
- 3.4 PRESSURE
- 3.5 TEMPERATURE
- 3.6 SUMMARY
- PROBLEMS
- PART 2: MATERIAL BALANCES
- CHAPTER 4: FUNDAMENTALS OF MATERIAL BALANCES
- 4.0 LEARNING OBJECTIVES
- 4.1 PROCESS CLASSIFICATION
- 4.2 BALANCES
- 4.3 MATERIAL BALANCE CALCULATIONS
- 4.4 BALANCES ON MULTIPLE‐UNIT PROCESSES
- 4.5 RECYCLE AND BYPASS
- 4.6 CHEMICAL REACTION STOICHIOMETRY
- 4.7 BALANCES ON REACTIVE PROCESSES
- 4.8 COMBUSTION REACTIONS
- 4.9 SOME ADDITIONAL CONSIDERATIONS ABOUT CHEMICAL PROCESSES
- 4.10 SUMMARY
- PROBLEMS
- CHAPTER 5: SINGLE‐PHASE SYSTEMS
- 5.0 LEARNING OBJECTIVES
- 5.1 LIQUID AND SOLID DENSITIES
- 5.2 IDEAL GASES
- 5.3 EQUATIONS OF STATE FOR NONIDEAL GASES
- 5.4 THE COMPRESSIBILITY‐FACTOR EQUATION OF STATE
- 5.5 SUMMARY
- PROBLEMS
- CHAPTER 6: MULTIPHASE SYSTEMS
- 6.0 LEARNING OBJECTIVES
- 6.1 SINGLE-COMPONENT PHASE EQUILIBRIUM
- 6.2 THE GIBBS PHASE RULE
- 6.3 GAS–LIQUID SYSTEMS: ONE CONDENSABLE COMPONENT
- 6.4 MULTICOMPONENT GAS–LIQUID SYSTEMS
- 6.5 SOLUTIONS OF SOLIDS IN LIQUIDS
- 6.6 EQUILIBRIUM BETWEEN TWO LIQUID PHASES
- 6.7 ADSORPTION ON SOLID SURFACES
- 6.8 SUMMARY
- PROBLEMS
- PART 3: ENERGY BALANCES
- CHAPTER 7: ENERGY AND ENERGY BALANCES
- 7.0 LEARNING OBJECTIVES
- 7.1 FORMS OF ENERGY: THE FIRST LAW OF THERMODYNAMICS
- 7.2 KINETIC AND POTENTIAL ENERGY
- 7.3 ENERGY BALANCES ON CLOSED SYSTEMS
- 7.4 ENERGY BALANCES ON OPEN SYSTEMS AT STEADY STATE
- 7.5 TABLES OF THERMODYNAMIC DATA
- 7.6 ENERGY BALANCE PROCEDURES
- 7.7 MECHANICAL ENERGY BALANCES
- 7.8 SUMMARY
- PROBLEMS
- CHAPTER 8: BALANCES ON NONREACTIVE PROCESSES
- 8.0 LEARNING OBJECTIVES
- 8.1 ELEMENTS OF ENERGY BALANCE CALCULATIONS
- 8.2 CHANGES IN PRESSURE AT CONSTANT TEMPERATURE
- 8.3 CHANGES IN TEMPERATURE
- 8.4 PHASE‐CHANGE OPERATIONS
- 8.5 MIXING AND SOLUTION
- 8.6 SUMMARY
- PROBLEMS
- CHAPTER 9: BALANCES ON REACTIVE PROCESSES
- 9.0 LEARNING OBJECTIVES
- 9.1 HEATS OF REACTION
- 9.2 MEASUREMENT AND CALCULATION OF HEATS OF REACTION: HESS’S LAW
- 9.3 FORMATION REACTIONS AND HEATS OF FORMATION
- 9.4 HEATS OF COMBUSTION
- 9.5 ENERGY BALANCES ON REACTIVE PROCESSES
- 9.6 FUELS AND COMBUSTION
- 9.7 SUMMARY
- PROBLEMS
- CHAPTER 10: BALANCES ON TRANSIENT PROCESSES
- 10.0 LEARNING OBJECTIVES
- 10.1 THE GENERAL BALANCE EQUATION … AGAIN
- 10.2 MATERIAL BALANCES
- 10.3 ENERGY BALANCES ON SINGLE‐PHASE NONREACTIVE PROCESSES
- 10.4 SIMULTANEOUS TRANSIENT BALANCES
- 10.5 SUMMARY
- PROBLEMS
- APPENDIX A: COMPUTATIONAL TECHNIQUES
- APPENDIX A.1 THE METHOD OF LEAST SQUARES
- APPENDIX A.2 ITERATIVE SOLUTION OF NONLINEAR ALGEBRAIC EQUATIONS
- APPENDIX A.3 NUMERICAL INTEGRATION
- APPENDIX B: PHYSICAL PROPERTY TABLES
- ANSWERS TO TEST YOURSELVES
- ANSWERS TO SELECTED PROBLEMS
- INDEX
- END USER LICENSE AGREEMENT
