Jürgen Gmehling
Chemical Thermodynamics for Process Simulation
Mitarbeit:Gmehling, Jürgen; Kleiber, Michael; Kolbe, Bärbel
Jürgen Gmehling
Chemical Thermodynamics for Process Simulation
Mitarbeit:Gmehling, Jürgen; Kleiber, Michael; Kolbe, Bärbel
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Das einzige Lehrbuch, nun in der 2. Auflage, das die Thermodynamik auf praktische Probleme der Verfahrenstechnik anwendet, unzählige Beispiele mit Lösungen, Schätzmethoden zu thermophysikalischen Eigenschaften usw. präsentiert.Auch für Ingenieure bei Chemiefirmen von Interesse.
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Das einzige Lehrbuch, nun in der 2. Auflage, das die Thermodynamik auf praktische Probleme der Verfahrenstechnik anwendet, unzählige Beispiele mit Lösungen, Schätzmethoden zu thermophysikalischen Eigenschaften usw. präsentiert.Auch für Ingenieure bei Chemiefirmen von Interesse.
Produktdetails
- Produktdetails
- Verlag: Wiley-VCH
- Artikelnr. des Verlages: 1134325 000
- 2. Aufl.
- Seitenzahl: 804
- Erscheinungstermin: 9. April 2019
- Englisch
- Abmessung: 244mm x 170mm x 43mm
- Gewicht: 1562g
- ISBN-13: 9783527343256
- ISBN-10: 3527343253
- Artikelnr.: 54132117
- Verlag: Wiley-VCH
- Artikelnr. des Verlages: 1134325 000
- 2. Aufl.
- Seitenzahl: 804
- Erscheinungstermin: 9. April 2019
- Englisch
- Abmessung: 244mm x 170mm x 43mm
- Gewicht: 1562g
- ISBN-13: 9783527343256
- ISBN-10: 3527343253
- Artikelnr.: 54132117
Jürgen Gmehling, PhD, is Professor of Chemical Engineering at the University of Oldenburg, Germany. He is also president and CEO of DDBST GmbH, Oldenburg, as well as cofounder of LTP GmbH, part of the Carl von Ossietzky University of Oldenburg. Michael Kleiber, PhD, works as a Chief Development Engineer for ThyssenKrupp Uhde, Germany. Bärbel Kolbe, PhD, is a senior process engineer for ThyssenKrupp Uhde, Germany. Jürgen Rarey, PhD, is a professor at the University of Oldenburg, Germany, and cofounded DDBST GmbH, Oldenburg. He is also an honorary professor in Durban, South Africa.
INTRODUCTION
PVT BEHAVIOR OF PURE COMPONENTS
CORRELATION AND ESTIMATION OF PURE COMPONENT PROPERTIES
PROPERTIES OF MIXTURES
PHASE EQUILIBRIA IN FLUID SYSTEMS
CALORIC PROPERTIES
ELECTROLYTE SOLUTIONS
SOLID-LIQUID EQUILIBRIA
MEMBRANE PROCESSES
POLYMER THERMODYNAMICS
APPLICATIONS OF THERMODYNAMICS IN SEPARATION
ENTHALPY OF REACTION AND CHEMCIAL EQUILIBRIA
EXAMPLES FOR COMPLEX SYSTEMS
PRACTICAL APPLICATIONS
EXPERIMENTAL DETERMINATION OF PURE COMPONENT AND MIXTURE PROPERTIES
INTRODUCTION TO THE COLLECTION OF EXAMPLE PROBLEMS
APPENDIX A: PURE COMPONENT PARAMETERS
APPENDIX B: COEFFICIENTS FOR HIGH-PRECISION EQUATIONS OF STATE
APPENDIX C: USEFUL DERIVATIONS
APPENDIX D: STANDARD THERMODYNAMIC PROPERTIES FOR SELECTED ELECTROLYTE COMPOUNDS
APPENDIX E: REGRESSION TECHNIQUE FOR PURE COMPONENT DATA
APPENDIX F: REGRESSION TECHNIQUES FOR BINARY PARAMETERS
APPENDIX G: IDEAL GAS HEAT CAPACITY POLYNOMIAL COEFFICIENTS FOR SELECTED COMPOUNDS
APPENDIX H: UNIFAC PARAMETERS
APPENDIX I: MODIFIED UNIFAC PARAMETERS
APPENDIX J: PSRK PARAMETERS
APPENDIX K: VTPR PARAMETERS
PVT BEHAVIOR OF PURE COMPONENTS
CORRELATION AND ESTIMATION OF PURE COMPONENT PROPERTIES
PROPERTIES OF MIXTURES
PHASE EQUILIBRIA IN FLUID SYSTEMS
CALORIC PROPERTIES
ELECTROLYTE SOLUTIONS
SOLID-LIQUID EQUILIBRIA
MEMBRANE PROCESSES
POLYMER THERMODYNAMICS
APPLICATIONS OF THERMODYNAMICS IN SEPARATION
ENTHALPY OF REACTION AND CHEMCIAL EQUILIBRIA
EXAMPLES FOR COMPLEX SYSTEMS
PRACTICAL APPLICATIONS
EXPERIMENTAL DETERMINATION OF PURE COMPONENT AND MIXTURE PROPERTIES
INTRODUCTION TO THE COLLECTION OF EXAMPLE PROBLEMS
APPENDIX A: PURE COMPONENT PARAMETERS
APPENDIX B: COEFFICIENTS FOR HIGH-PRECISION EQUATIONS OF STATE
APPENDIX C: USEFUL DERIVATIONS
APPENDIX D: STANDARD THERMODYNAMIC PROPERTIES FOR SELECTED ELECTROLYTE COMPOUNDS
APPENDIX E: REGRESSION TECHNIQUE FOR PURE COMPONENT DATA
APPENDIX F: REGRESSION TECHNIQUES FOR BINARY PARAMETERS
APPENDIX G: IDEAL GAS HEAT CAPACITY POLYNOMIAL COEFFICIENTS FOR SELECTED COMPOUNDS
APPENDIX H: UNIFAC PARAMETERS
APPENDIX I: MODIFIED UNIFAC PARAMETERS
APPENDIX J: PSRK PARAMETERS
APPENDIX K: VTPR PARAMETERS
INTRODUCTION
PVT BEHAVIOR OF PURE COMPONENTS
CORRELATION AND ESTIMATION OF PURE COMPONENT PROPERTIES
PROPERTIES OF MIXTURES
PHASE EQUILIBRIA IN FLUID SYSTEMS
CALORIC PROPERTIES
ELECTROLYTE SOLUTIONS
SOLID-LIQUID EQUILIBRIA
MEMBRANE PROCESSES
POLYMER THERMODYNAMICS
APPLICATIONS OF THERMODYNAMICS IN SEPARATION
ENTHALPY OF REACTION AND CHEMCIAL EQUILIBRIA
EXAMPLES FOR COMPLEX SYSTEMS
PRACTICAL APPLICATIONS
EXPERIMENTAL DETERMINATION OF PURE COMPONENT AND MIXTURE PROPERTIES
INTRODUCTION TO THE COLLECTION OF EXAMPLE PROBLEMS
APPENDIX A: PURE COMPONENT PARAMETERS
APPENDIX B: COEFFICIENTS FOR HIGH-PRECISION EQUATIONS OF STATE
APPENDIX C: USEFUL DERIVATIONS
APPENDIX D: STANDARD THERMODYNAMIC PROPERTIES FOR SELECTED ELECTROLYTE COMPOUNDS
APPENDIX E: REGRESSION TECHNIQUE FOR PURE COMPONENT DATA
APPENDIX F: REGRESSION TECHNIQUES FOR BINARY PARAMETERS
APPENDIX G: IDEAL GAS HEAT CAPACITY POLYNOMIAL COEFFICIENTS FOR SELECTED COMPOUNDS
APPENDIX H: UNIFAC PARAMETERS
APPENDIX I: MODIFIED UNIFAC PARAMETERS
APPENDIX J: PSRK PARAMETERS
APPENDIX K: VTPR PARAMETERS
PVT BEHAVIOR OF PURE COMPONENTS
CORRELATION AND ESTIMATION OF PURE COMPONENT PROPERTIES
PROPERTIES OF MIXTURES
PHASE EQUILIBRIA IN FLUID SYSTEMS
CALORIC PROPERTIES
ELECTROLYTE SOLUTIONS
SOLID-LIQUID EQUILIBRIA
MEMBRANE PROCESSES
POLYMER THERMODYNAMICS
APPLICATIONS OF THERMODYNAMICS IN SEPARATION
ENTHALPY OF REACTION AND CHEMCIAL EQUILIBRIA
EXAMPLES FOR COMPLEX SYSTEMS
PRACTICAL APPLICATIONS
EXPERIMENTAL DETERMINATION OF PURE COMPONENT AND MIXTURE PROPERTIES
INTRODUCTION TO THE COLLECTION OF EXAMPLE PROBLEMS
APPENDIX A: PURE COMPONENT PARAMETERS
APPENDIX B: COEFFICIENTS FOR HIGH-PRECISION EQUATIONS OF STATE
APPENDIX C: USEFUL DERIVATIONS
APPENDIX D: STANDARD THERMODYNAMIC PROPERTIES FOR SELECTED ELECTROLYTE COMPOUNDS
APPENDIX E: REGRESSION TECHNIQUE FOR PURE COMPONENT DATA
APPENDIX F: REGRESSION TECHNIQUES FOR BINARY PARAMETERS
APPENDIX G: IDEAL GAS HEAT CAPACITY POLYNOMIAL COEFFICIENTS FOR SELECTED COMPOUNDS
APPENDIX H: UNIFAC PARAMETERS
APPENDIX I: MODIFIED UNIFAC PARAMETERS
APPENDIX J: PSRK PARAMETERS
APPENDIX K: VTPR PARAMETERS