Verfügbarkeit: Surrogate modeling of phase equilibrium calculations using adaptive sampling

Surrogate modeling of phase equilibrium calculations using adaptive sampling:

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Bibliographische Detailangaben
1. Verfasser:	Nentwich, Corina 1989- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Düren Shaker Verlag 2022
Schriftenreihe:	Schriftenreihe des Lehrstuhls für Systemdynamik und Prozessführung Band 1/2022
Schlagworte:	Phasengleichgewicht Zustandsgleichung Prozessmodell Hydroformylierung Prozesssimulation Dodecene Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	xxv, 169 Seiten Illustrationen, Diagramme
ISBN:	9783844084863 384408486X

Internformat

MARC


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Datensatz im Suchindex

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adam_text	CONTENTS 1. INTRODUCTION 1 1. THEORETICAL FOUNDATIONS 5 2. PHASE EQUILIBRIUM MODELING 7 2.1. MODELING OF THE FUGACITY ..................................................................................... 8 2.1.1. MODELING THE FUGACITY VIA THE FUGACITY COEFFICIENT .............................. 8 2.1.2. MODELING THE FUGACITY VIA THE ACTIVITY COEFFICIENT .............................. 10 2.1.3. PC-SAFT ..................................................................................................... 12 2.2. TWO-PHASE FLASH CALCULATIONS .................................................................................. 14 3. SURROGATE MODELING 17 3.1. SURROGATE MODELS ..................................................................................................... 17 3.1.1. LINEAR REGRESSION MODELS ........................................................................ 18 3.1.2. KRIGING ........................................................................................................ 18 3.1.3. ARTIFICIAL NEURAL NETWORKS (ANN) ......................................................... 20 3.1.4. SUPPORT VECTOR MACHINES (SVM) ............................................................ 23 3.2. SAMPLING ................................................................................................................. 25 3.2.1. ONE-SHOT DESIGNS ........................................................................................ 26 3.2.2. SEQUENTIAL DESIGNS ..................................................................................... 28 3.2.3. MIXED ADAPTIVE SEQUENTIAL DESIGN ............................................................ 29 3.3. VALIDATION ................................................................................................................. 30 3.3.1. ASSESSMENT OF THE SURROGATE MODEL QUALITY ............................................. 30 3.3.2. SAMPLE DISTRIBUTION METRIC ..................................................................... 32 4. LITERATURE REVIEW 33 4.1. SURROGATE MODELING IN CHEMICAL ENGINEERING ....................................................... 33 4.2. SURROGATE MODELING FOR THERMODYNAMIC COMPUTATIONS ..................................... 35 XII CONTENTS II. SURROGATE MODELING OF PHASE EQUILIBRIA 39 5. SURROGATE MODELING METHODS FOR PHASE EQUILIBRIA 41 5.1. INDIRECT SURROGATE MODELING METHOD ................................................................... 41 5.2. DIRECT SURROGATE MODELING METHOD ...................................................................... 41 6. ADAPTIVE SAMPLING 45 6.1. EXPLORATION ............................................................................................................... 45 6.2. EXPLOITATION ............................................................................................................... 45 6.2.1. PREDICTION VARIANCE ...................................................................................... 46 6.2.2. CANDIDATE SELECTION ................................................................................... 47 6.3. COMBINATION OF EXPLORATION AND EXPLOITATION ...................................................... 49 III. CASE STUDIES AND RESULTS 51 7. CASE STUDIES 53 7.1. HYDROFORMYLATION OF 1-DODECENE ............................................................................ 53 7.2. TRANSESTERIFICATION OF DIMETHYL CARBONATE ........................................................... 55 8. SURROGATE MODELING USING THE INDIRECT METHOD 57 8.1. HYDROFORMYLATION OF 1-DODECENE ............................................................................ 57 8.1.1. LLE ............................................................................................................... 57 8.1.2. GLE ............................................................................................................... 75 8.2. TRANSESTERIFICATION OF DIMETHYL CARBONATE (VLE) .............................................. 78 8.3. SUMMARY AND DISCUSSION ......................................................................................... 85 9. SURROGATE MODELING USING THE DIRECT METHOD 89 9.1. HYDROFORMYLATION OF 1-DODECENE ............................................................................ 89 9.1.1. LLE ............................................................................................................... 89 9.1.2. GLE ............................................................................................................. 101 9.2. TRANSESTERIFICATION OF DIMETHYL CARBONATE (VLE) ............................................. 104 9.3. SUMMARY AND DISCUSSION ....................................................................................... 108 IV. APPLICATION OF SURROGATE MODELS IN SIMULATION AND OPTI MIZATION 111 10. SIMULATION AND OPTIMIZATION OF THE HYDROFORMYLATION PROCESS 113 10.1. MODEL QUALITY COMPARISON FOR THE TWO SURROGATE MODELING METHODS . . . .113 10.2. APPLICATION OF THE SURROGATE MODELS IN PROCESS SIMULATION ........................... 118 10.3. APPLICATION OF THE SURROGATE MODELS IN PROCESS OPTIMIZATION ........................ 122 CONTENTS XIII 10.4. SUMMARY AND DISCUSSION .................................................................................. 127 11. CONCLUSION AND OUTLOOK 129 11.1. CONCLUSION ........................................................................................................... 129 11.2. OUTLOOK ................................................................................................................. 131 V. APPENDIX 133 A. MODEL PARAMETERS AND SAMPLING RANGES 135 B. OTHER RESULTS FOR THE INDIRECT METHOD 143 C. OTHER RESULTS FOR THE DIRECT METHOD 147 BIBLIOGRAPHY 158
adam_txt	CONTENTS 1. INTRODUCTION 1 1. THEORETICAL FOUNDATIONS 5 2. PHASE EQUILIBRIUM MODELING 7 2.1. MODELING OF THE FUGACITY . 8 2.1.1. MODELING THE FUGACITY VIA THE FUGACITY COEFFICIENT . 8 2.1.2. MODELING THE FUGACITY VIA THE ACTIVITY COEFFICIENT . 10 2.1.3. PC-SAFT . 12 2.2. TWO-PHASE FLASH CALCULATIONS . 14 3. SURROGATE MODELING 17 3.1. SURROGATE MODELS . 17 3.1.1. LINEAR REGRESSION MODELS . 18 3.1.2. KRIGING . 18 3.1.3. ARTIFICIAL NEURAL NETWORKS (ANN) . 20 3.1.4. SUPPORT VECTOR MACHINES (SVM) . 23 3.2. SAMPLING . 25 3.2.1. ONE-SHOT DESIGNS . 26 3.2.2. SEQUENTIAL DESIGNS . 28 3.2.3. MIXED ADAPTIVE SEQUENTIAL DESIGN . 29 3.3. VALIDATION . 30 3.3.1. ASSESSMENT OF THE SURROGATE MODEL QUALITY . 30 3.3.2. SAMPLE DISTRIBUTION METRIC . 32 4. LITERATURE REVIEW 33 4.1. SURROGATE MODELING IN CHEMICAL ENGINEERING . 33 4.2. SURROGATE MODELING FOR THERMODYNAMIC COMPUTATIONS . 35 XII CONTENTS II. SURROGATE MODELING OF PHASE EQUILIBRIA 39 5. SURROGATE MODELING METHODS FOR PHASE EQUILIBRIA 41 5.1. INDIRECT SURROGATE MODELING METHOD . 41 5.2. DIRECT SURROGATE MODELING METHOD . 41 6. ADAPTIVE SAMPLING 45 6.1. EXPLORATION . 45 6.2. EXPLOITATION . 45 6.2.1. PREDICTION VARIANCE . 46 6.2.2. CANDIDATE SELECTION . 47 6.3. COMBINATION OF EXPLORATION AND EXPLOITATION . 49 III. CASE STUDIES AND RESULTS 51 7. CASE STUDIES 53 7.1. HYDROFORMYLATION OF 1-DODECENE . 53 7.2. TRANSESTERIFICATION OF DIMETHYL CARBONATE . 55 8. SURROGATE MODELING USING THE INDIRECT METHOD 57 8.1. HYDROFORMYLATION OF 1-DODECENE . 57 8.1.1. LLE . 57 8.1.2. GLE . 75 8.2. TRANSESTERIFICATION OF DIMETHYL CARBONATE (VLE) . 78 8.3. SUMMARY AND DISCUSSION . 85 9. SURROGATE MODELING USING THE DIRECT METHOD 89 9.1. HYDROFORMYLATION OF 1-DODECENE . 89 9.1.1. LLE . 89 9.1.2. GLE . 101 9.2. TRANSESTERIFICATION OF DIMETHYL CARBONATE (VLE) . 104 9.3. SUMMARY AND DISCUSSION . 108 IV. APPLICATION OF SURROGATE MODELS IN SIMULATION AND OPTI MIZATION 111 10. SIMULATION AND OPTIMIZATION OF THE HYDROFORMYLATION PROCESS 113 10.1. MODEL QUALITY COMPARISON FOR THE TWO SURROGATE MODELING METHODS . . . .113 10.2. APPLICATION OF THE SURROGATE MODELS IN PROCESS SIMULATION . 118 10.3. APPLICATION OF THE SURROGATE MODELS IN PROCESS OPTIMIZATION . 122 CONTENTS XIII 10.4. SUMMARY AND DISCUSSION . 127 11. CONCLUSION AND OUTLOOK 129 11.1. CONCLUSION . 129 11.2. OUTLOOK . 131 V. APPENDIX 133 A. MODEL PARAMETERS AND SAMPLING RANGES 135 B. OTHER RESULTS FOR THE INDIRECT METHOD 143 C. OTHER RESULTS FOR THE DIRECT METHOD 147 BIBLIOGRAPHY 158
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spelling	Nentwich, Corina 1989- Verfasser (DE-588)1193499127 aut Surrogate modeling of phase equilibrium calculations using adaptive sampling Corina Nentwich Düren Shaker Verlag 2022 xxv, 169 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Schriftenreihe des Lehrstuhls für Systemdynamik und Prozessführung Band 1/2022 Phasengleichgewicht (DE-588)4132145-5 gnd rswk-swf Zustandsgleichung (DE-588)4068158-0 gnd rswk-swf Prozessmodell (DE-588)4237203-3 gnd rswk-swf Hydroformylierung (DE-588)4160908-6 gnd rswk-swf Prozesssimulation (DE-588)4176077-3 gnd rswk-swf Dodecene (DE-588)4150363-6 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Prozesssimulation (DE-588)4176077-3 s Phasengleichgewicht (DE-588)4132145-5 s DE-604 Zustandsgleichung (DE-588)4068158-0 s Prozessmodell (DE-588)4237203-3 s Dodecene (DE-588)4150363-6 s Hydroformylierung (DE-588)4160908-6 s Shaker Verlag (DE-588)1064118135 pbl Dortmund (DE-588)4012814-3 gnd uvp Schriftenreihe des Lehrstuhls für Systemdynamik und Prozessführung Band 1/2022 (DE-604)BV035738045 2022,1 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033596396&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Nentwich, Corina 1989- Surrogate modeling of phase equilibrium calculations using adaptive sampling Schriftenreihe des Lehrstuhls für Systemdynamik und Prozessführung Phasengleichgewicht (DE-588)4132145-5 gnd Zustandsgleichung (DE-588)4068158-0 gnd Prozessmodell (DE-588)4237203-3 gnd Hydroformylierung (DE-588)4160908-6 gnd Prozesssimulation (DE-588)4176077-3 gnd Dodecene (DE-588)4150363-6 gnd
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title	Surrogate modeling of phase equilibrium calculations using adaptive sampling
title_auth	Surrogate modeling of phase equilibrium calculations using adaptive sampling
title_exact_search	Surrogate modeling of phase equilibrium calculations using adaptive sampling
title_exact_search_txtP	Surrogate modeling of phase equilibrium calculations using adaptive sampling
title_full	Surrogate modeling of phase equilibrium calculations using adaptive sampling Corina Nentwich
title_fullStr	Surrogate modeling of phase equilibrium calculations using adaptive sampling Corina Nentwich
title_full_unstemmed	Surrogate modeling of phase equilibrium calculations using adaptive sampling Corina Nentwich
title_short	Surrogate modeling of phase equilibrium calculations using adaptive sampling
title_sort	surrogate modeling of phase equilibrium calculations using adaptive sampling
topic	Phasengleichgewicht (DE-588)4132145-5 gnd Zustandsgleichung (DE-588)4068158-0 gnd Prozessmodell (DE-588)4237203-3 gnd Hydroformylierung (DE-588)4160908-6 gnd Prozesssimulation (DE-588)4176077-3 gnd Dodecene (DE-588)4150363-6 gnd
topic_facet	Phasengleichgewicht Zustandsgleichung Prozessmodell Hydroformylierung Prozesssimulation Dodecene Hochschulschrift
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033596396&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV035738045
work_keys_str_mv	AT nentwichcorina surrogatemodelingofphaseequilibriumcalculationsusingadaptivesampling AT shakerverlag surrogatemodelingofphaseequilibriumcalculationsusingadaptivesampling

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