Verfügbarkeit: Process intensification | Technische Universität München

Process intensification: breakthrough in design, industrial innovation practices, and education

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Bibliographische Detailangaben
Beteiligte Personen:	Harmsen, Jan 1973- (VerfasserIn), Verkerk, Maarten J. 1953- (VerfasserIn)
Format:	Buch
Sprache:	Englisch
Veröffentlicht:	Berlin ; Boston De Gruyter [2020]
Schriftenreihe:	De Gruyter graduate
Schlagwörter:	Pharmazeutische Technologie Chemische Verfahrenstechnik Lebensmitteltechnologie Biokraftstoff Prozessoptimierung Kraftstoffherstellung Chemieingenieurwesen Industriedesign Technische Chemie Verfahrenstechnik TB: Textbook
Links:	http://www.degruyter.com/search?f_0=isbnissn&q_0=9783110657340&searchTitles=true https://d-nb.info/1203447647/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032432433&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
Umfang:	XVIII, 219 Seiten Illustrationen 24 cm, 416 g
ISBN:	9783110657340

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Datensatz im Suchindex

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adam_text	CONTENTS PREFACE * V AUTHORS * BIOGRAPHIES * XVII 1 INTRODUCTION * 1 1.1 OBJECTIVES OF THIS BOOK * 1 1.2 SETUP OF THIS BOOK * 1 1.3 WORDING ----- 2 REFERENCE * 2 PART A: THEORY 2 PROCESS INTENSIFICATION DESIGN * 5 2.1 OVERVIEW OF PROCESS INTENSIFICATION DESIGN * 5 2.1.1 DEFINITION OF PROCESS INTENSIFICATION DESIGN * 5 2.1.2 CLASSIFICATIONS OF PI ----- 7 2.1.3 OPPORTUNITIES PI APPLICATIONS ----- 8 2.2 SPATIAL DOMAIN PLANT-WIDE PI * 9 2.2.1 PLANT-WIDE INTENSIFICATION PRINCIPLES * 9 2.2.2 APPLICATION AREAS FOR PROCESS WIDE PI * 11 2.3 FUNCTION INTEGRATION DOMAIN ----- 12 2.3.1 INTRODUCTION OF FUNCTION INTEGRATION * 12 2.3.2 GUIDING PRINCIPLES FUNCTION INTEGRATION * 13 2.3.3 REACTIVE DISTILLATION * 14 2.3.4 DIVIDING COLUMN DISTILLATION * 16 2.4 TEMPORAL DOMAIN ----- 17 2.4.1 GUIDING PRINCIPLES TEMPORAL DOMAIN * 17 2.4.2 REVERSE FLOW REACTORS * 17 2.4.3 OSCILLATORY BAFFLED REACTORS ----- 18 2.5 THERMODYNAMIC DOMAIN ----- 19 2.5.1 THERMODYNAMIC DOMAIN GUIDING PRINCIPLES * 19 2.5.2 ELECTROMAGNETIC (MICROWAVE) HEATING * 20 2.6 SPATIAL DOMAIN EQUIPMENT * 21 2.6.1 SPATIAL DOMAIN EQUIPMENT INTENSIFICATION CRITERIA ----- 21 2.6.2 PI EQUIPMENT AND ATTRIBUTES ----- 23 2.7 DOMAIN COMBINATION OPTIONS * 31 2.8 EXERCISES * 32 REFERENCES * 33 VIII * CONTENTS 3 THE ROLE OF SUSTAINABLE DEVELOPMENT GOALS * 38 3.1 INTRODUCTION ----- 38 3.2 SDGS: THE PERSPECTIVE OF TOP MANAGEMENT * 39 3.3 SDGS: THE PERSPECTIVE OF ENGINEERS * 41 3.3.1 HIGHLIGHTING THE MOST RELEVANT SDGS----- 41 3.3.2 HIGHLIGHTING SOME SPECIFIC SDGS----- 43 3.4 DETAILED ANALYSIS OF SUSTAINABLE DEVELOPMENT GOALS: EXAMPLE OF SDG 12 ----- 43 3.5 SDGS AND STAGE-GATE PROCESS OF INNOVATION ----- 45 3.6 EPILOGUE ----- 45 REFERENCES * 46 4 VALUES, INTERESTS, AND BELIEFS - THREE PERSPECTIVES ON INDUSTRIAL INNOVATION PRACTICES * 47 4.1 INTRODUCTION ----- 47 4.2 PRACTICE APPROACHES * 49 4.3 THE VIB PRACTICE MODEL: VALUES OF ENGINEERS, INTERESTS OF STAKEHOLDERS, BELIEFS IN SOCIETY ----- 50 4.3.1 VALUES OF ENGINEERS * 51 4.3.2 INTERESTS OF STAKEHOLDERS * 53 4.3.3 BELIEFS IN SOCIETY ----- 57 4.4 ANALYZING EXISTING PRACTICES AND GUIDING FUTURE INNOVATIONS ----- 57 4.5 THE VIB PRACTICE MODEL AND THE STAGE-GATE INNOVATION METHOD ----- 58 REFERENCES * 59 5 MULTIDISCIPLINARY ASSESSMENT - INTEGRATING DIFFERENT KNOWLEDGE TYPES * 60 5.1 INTRODUCTION ----- 60 5.2 DIFFERENT PRACTICES: R&D, OPERATIONS, MARKETING, AND SALES * 61 5.3 DIFFERENT PRACTICES: SUPPORTING DEPARTMENTS * 62 5.4 INTEGRATION OF KNOWLEDGE ----- 63 REFERENCE * 63 PART B: APPLICATION OF THEORY: GUIDELINES AND METHODS 6 DISCOVERY STAGE * 67 6.1 INTRODUCTION ----- 67 6.2 PROJECT STEPS DISCOVERY STAGE * 68 CONTENTS IX 6.2.1 6.2.2 6.2.3 6.2.4 6.2.5 6.2.6 6.3 6.4 6.4.1 6.4.2 6.5 6.5.1 6.5.2 6.5.3 6.6 6.7 6.8 SCOPING ----- 68 DESIGN SYNTHESIS * 69 SIMULATION * 69 ANALYSIS * 69 PROOF OF PRINCIPLE VALIDATION * 70 STAGE-GATE ASSESSMENT * 71 SUSTAINABLE DEVELOPMENT GOALS METHOD * 71 PI DESIGN SYNTHESIS DISCOVERY METHOD * 72 BREAKTHROUGH PI DESIGN SYNTHESIS METHOD ----- 72 PI DESIGN SYNTHESIS FOR REVAMP * 74 VIB PERSPECTIVES METHODS * 74 VALUES OF ENGINEERS * 74 INTERESTS OF STAKEHOLDERS * 75 BELIEFS IN SOCIETY * 75 MULTIDISCIPLINARY ASSESSMENT METHOD * 75 CREATIVITY METHOD: SET TARGETS HIGH * 76 CASE STUDY: BREAKTHROUGH IN THE PROCESS * CASTING THE FOIL * 77 REFERENCES * 79 7 7.1 7.2 7.2.1 7.2.2 7.2.3 7.2.4 7.2.5 7.2.6 7.2.7 7.3 7.4 7.4.1 7.4.2 7.4.3 CONCEPT STAGE * 80 INTRODUCTION * 80 PROJECT STEPS * 80 PROJECT STEPS BACKGROUND * 80 SCOPING * 81 DESIGN SYNTHESIS ----- 82 MODELING AND SIMULATION * 87 ANALYSIS -----87 VALIDATION ----- 88 STAGE-GATE EVALUATION * 88 SUSTAINABLE DEVELOPMENT GOALS METHOD * 89 PROCESS INTENSIFICATION DESIGN METHOD * 90 PROCESS INTENSIFICATION BREAK-THROUGH DESIGN METHOD * 90 PROCESS INTENSIFICATION REVAMP EXISTING PROCESS METHOD * 90 PROCESS INTENSIFICATION DESIGN SYNTHESIS TO MODIFY AN AVAILABLE PROCESS DESIGN * 90 7.5 7.5.1 7.5.2 7.5.3 7.6 7.7 VIB PERSPECTIVES METHOD * 91 VALUES OF ENGINEERS * 92 INTERESTS OF STAKEHOLDERS * 92 BELIEFS IN SOCIETY * 93 MULTIDISCIPLINARY ASSESSMENT METHOD * 93 EXERCISES * 94 REFERENCES * 94 X * CONTENTS 8 8.1 8.1.1 8.1.2 8.1.3 8.1.4 8.1.5 8.1.6 8.2 8.3 8.3.1 8.3.2 8.3.3 8.4 8.5 8.5.1 8.5.2 8.5.3 8.6 FEASIBILITY STAGE * 96 INTRODUCTION * 96 SCOPING * 96 COMMERCIAL-SCALE DESIGN * 98 ANALYSIS * 100 DEVELOPMENT PLAN * 102 PILOT PLAN DESIGN * 102 STAGE-GATE EVALUATION * 102 SUSTAINABLE DEVELOPMENT GOALS METHOD * 103 KNOWLEDGE TRANSFER PREVIOUS STAGES * 104 INTRODUCTION * 104 WELL-CONSIDERED TEAM COMPOSITION * 105 TIME TRAVEL DIALOGUE SESSIONS WITH NEW TEAM MEMBERS * 106 OUTSIDE EXPERTS * KNOWLEDGE TRANSFER METHOD * 109 DESIGN ANALYSIS VIB METHOD * 110 VALUES OF ENGINEERS * 110 INTERESTS OF STAKEHOLDERS * 110 BELIEFS IN SOCIETY ----- 111 MULTIDISCIPLINARY STAGE-GATE ASSESSMENT METHOD * 111 REFERENCES * 112 9 9.1 9.2 9.3 9.4 9.5 9.5.1 9.5.2 9.5.3 9.6 9.7 9.8 9.9 DEVELOPMENT STAGE * 113 INTRODUCTION * 113 TEAM FORMATION * 113 SCOPING * 114 TESTS: DEFINING DEVELOPMENT PLAN * 114 VALIDATION ----- 115 VALIDATION PROCESS DESIGN * 115 VALIDATION PROCESS MODEL * 115 VALIDATION SCALE-UP THEORY * 115 DELIVERABLES FOR THE STAGE-GATE * 119 STAGE-GATE EVALUATION * 119 TIME TRAVEL EXERCISE METHOD * 119 MULTIDISCIPLINARY EVALUATION METHOD * 121 REFERENCES * 122 10 10.1 10.2 10.2.1 10.2.2 10.2.3 ENGINEERING PROCUREMENT AND CONSTRUCTION (EPC) STAGE * 123 INTRODUCTION ----- 123 EPC PROJECT STEPS * 124 SCOPING ----- 124 EPC CONTRACTOR SELECTION AND TEAM FORMATION * 124 DETAILED DESIGN * 125 CONTENTS * XI 10.2.4 10.2.5 10.3 PROCUREMENT * 125 CONSTRUCTION ----- 126 TIME TRAVEL EXERCISE METHOD * 126 REFERENCES * 128 11 11.1 11.2 11.2.1 11.2.2 11.2.3 11.2.4 11.3 11.4 11.5 START-UP AND NORMAL OPERATION STAGE * 129 INTRODUCTION * 129 PROJECT STEPS * 130 START-UP TEAM FORMATION * 130 START-UP PLAN ----- 130 START-UP ----- 131 NORMAL OPERATION ----- 131 TIME TRAVEL EXERCISE METHOD * 131 SPECIFIC VALUES, INTERESTS, AND BELIEF METHODS * 133 MULTIDISCIPLINARY ASSESSMENT METHOD * 134 REFERENCES----- 135 PART C: INDUSTRIAL PRACTICE CASES 12 12.1 12.2 12.3 12.4 12.5 12.6 12.7 12.8 12.9 SUMMARY PI INDUSTRIAL PRACTICES * 139 INTRODUCTION ----- 139 PI DOMAINS AND DESIGN ----- 139 SUSTAINABLE DEVELOPMENT GOALS * 139 VALUES OF ENGINEERS * 139 INTEREST OF STAKEHOLDERS * 140 BELIEFS OF LOCAL SOCIETY * 140 KNOWLEDGE TRANSFER AND MULTIDISCIPLINARY CO-OPERATION * 140 ROLE OF UNIVERSITIES AND EDUCATION * 141 EPILOGUE * 141 13 13.1 13.2 13.3 13.4 13.5 13.6 13.7 13.8 ROTATING CONE REACTOR BIOMASS PYROLYSIS PROCESS * 142 BACKGROUND INFORMATION BTG-BTL PROCESS ----- 142 DISCOVERY STAGE * 142 CONCEPT STAGE * 142 FEASIBILITY STAGE * 144 DEVELOPMENT STAGE * 144 ENGINEERING PROCUREMENT AND CONSTRUCTION STAGE * 145 START-UP STAGE COMMERCIAL-SCALE PLANTS * 146 CASE EVALUATION * 147 XII * CONTENTS 13.8.1 13.8.2 13.8.3 13.8.4 13.8.5 13.8.5 13.8.6 SUSTAINABLE DEVELOPMENT GOALS OF BTG-BTL ----- 147 ROLE OF PI CONCEPT DESIGN AND MODELING * 148 ROLE OF MODELING ---- 148 VIB PERSPECTIVES ----- 149 MULTIDISCIPLINARY COOPERATION ----- 149 FORMAL EDUCATION * 150 LEARNING POINTS ----- 150 REFERENCES * 151 14 14.1 14.2 14.2.1 14.2.2 14.2.3 14.3 14.3.1 14.3.2 14.3.3 14.4 14.4.1 14.4.2 14.4.3 14.4.4 14.5 14.6 14.7 14.7.1 EASTMAN CHEMICAL METHYL ACETATE MULTIFUNCTIONAL INTEGRATION * 152 BACKGROUND INFORMATION ----- 152 DISCOVERY STAGE ----- 152 DISCOVERY STAGE INTRODUCTION ----- 153 DISCOVERY STAGE PROBLEM DEFINITION * 154 DESIGN, MODELING, AND TESTING ----- 155 CONCEPT STAGE ----- 155 CONCEPT STAGE CONTENT OF EASTMAN CASE * 155 CONCEPT DESIGN ----- 155 CONCEPT MODELING TESTING AND EVALUATION * 158 FEASIBILITY AND DEVELOPMENT STAGE * 158 FEASIBILITY AND DEVELOPMENT APPROACH ----- 158 EXPERIMENTAL BENCH-SCALE TESTING * 158 PILOT PLANT DESIGN AND TEST RESULTS * 159 CONCURRENT MODELING AND DESIGN IN THE DEVELOPMENT STAGE * 160 ENGINEERING PROCUREMENT AND CONSTRUCTION * 160 IMPLEMENTATION START-UP AND NORMAL OPERATION * 161 EVALUATIONS: EASTMAN CASE ----- 162 PROCESS INTENSIFICATION DESIGN, MODELING, AND VALIDATION EVALUATION * 162 14.7.2 14.8 14.9 VALUES, INTERESTS, AND BELIEFS EVALUATION * 163 MULTIDISCIPLINARY ASSESSMENT EVALUATION * 164 LEARNING POINTS FOR EACH METHOD * 165 REFERENCES ---- 165 15 15.1 15.2 15.3 15.4 15.5 SHELL OMEGA ONLY MONOETHYLENE GLYCOL ADVANCED PROCESS * 166 BACKGROUND INFORMATION * 166 DISCOVERY STAGE * 167 CONCEPT STAGE * 168 FEASIBILITY STAGE * 168 DEVELOPMENT STAGE * 168 CONTENTS * XIII 15.5.1 15.5.2 15.6 MCC DEVELOPMENT * 168 CRITICAL REVIEW PROCESS DESIGN AND SCALE-UP BY SHELL EXPERTS * 169 THE DETAILED DESIGN (ENGINEERING PROCUREMENT AND CONSTRUCTION) STAGE ----- 170 15.7 15.8 15.8.1 15.8.2 15.8.3 15.8.4 15.9 15.9.1 15.9.2 15.9.3 15.9.4 15.9.5 15.9.6 START-UP STAGE * 170 EVALUATION OMEGA INNOVATION * 171 PI CONCEPTS OF OMEGA DESIGN EVALUATION ----- 171 SUSTAINABLE DEVELOPMENT GOALS EVALUATION * 171 VALUES, INTERESTS AND BELIEFS EVALUATION * 172 MULTIDISCIPLINARY COOPERATION EVALUATION * 173 LEARNING POINTS FOR EACH METHOD * 173 LEARNING POINT USE OF SUSTAINABLE DEVELOPMENT GOALS ----- 173 LEARNING POINT PI DESIGN USE ----- 173 LEARNING POINT VALUES OF ENGINEERS * 173 LEARNING POINT INTERESTS OF STAKEHOLDERS * 174 LEARNING POINT BELIEFS OF SOCIETY * 174 LEARNING POINT MULTIDISCIPLINARY COOPERATION * 174 EXERCISES ----- 174 REFERENCES * 175 16 16.1 16.2 16.3 16.4 16.5 16.6 16.7 16.8 16.8.1 16.8.2 16.8.3 16.8.4 16.9 INTENSIFIED ETHANOL PRODUCTION BY CYCLIC DISTILLATION * 176 BACKGROUND INFORMATION * 176 DISCOVERY STAGE * 177 CONCEPT STAGE * 178 FEASIBILITY STAGE * 180 DEVELOPMENT STAGE * 181 ENGINEERING PROCUREMENT AND CONSTRUCTION STAGE * 181 START-UP STAGE ----- 182 EVALUATION * 182 SUSTAINABLE DEVELOPMENT GOALS * 183 PI CONCEPTS * 183 VIB PERSPECTIVES * 183 MULTIDISCIPLINARY COOPERATION * 184 LEARNING POINTS ----- 185 REFERENCES * 187 17 17.1 17.1.1 17.1.2 17.1.3 PHARMACEUTICALS CASE * 188 BACKGROUND INFORMATION * 188 BACKGROUND PHARMACEUTICAL INDUSTRIES * 188 PROCESS INTENSIFICATION LIMITATIONS IN PHARMA INDUSTRIES ----- 188 PROCESS INTENSIFICATION CASE DEALKYLATION ----- 190 XIV * CONTENTS 17.2 17.3 17.4 17.5 17.6 17.7 17.7.1 17.7.2 17.7.3 17.7.4 17.8 DISCOVERY STAGE IN DEALKYLATION PROCESS ----- 191 CONCEPT STAGE IN DEALKYLATION PROCESS * 192 FEASIBILITY STAGE IN ALKYLATION PROCESS * 194 DEVELOPMENT STAGE IN DEALKYLATION PROCESS * 194 IMPLEMENTATION STAGE IN DEALKYLATION PROCESS * 194 EVALUATION ----- 195 SUSTAINABLE DEVELOPMENT GOALS * 195 PI CONCEPTS * 195 VIB PERSPECTIVES ----- 195 MULTIDISCIPLINARY COOPERATION ----- 196 LEARNING POINTS * 196 REFERENCES * 197 PART D: EDUCATING PI - ACADEMIC AND INDUSTRIAL 18 PROCESS INTENSIFICATION EDUCATION BSC COURSES * 201 18.1 BSC CHEMICAL ENGINEERING CURRICULUM ----- 201 18.2 NECESSARY BASIC INFRASTRUCTURE TO STUDY PI ----- 202 18.3 DIDACTICAL METHODS ----- 203 REFERENCE ----- 204 19 INDUSTRIAL SUSTAINABLE INTENSIFIED PROCESS INNOVATION TRAINING * 205 19.1 INTRODUCTION ----- 205 19.1.1 MAARTEN VERKERK MANAGEMENT EXPERIENCES LEADING TO THIS BOOK ----- 205 19.1.2 JAN HARMSEN ENGINEERING EXPERIENCES LEADING TO THIS BOOK ----- 206 19.1.3 LEARNING POINTS ----- 208 19.2 NEED FOR INDUSTRIAL TRAINING ----- 208 19.3 MANAGEMENT TRAINING ----- 209 19.4 INDUSTRIAL ENGINEERS TRAINING ----- 210 19.5 STAKEHOLDERS TRAINING ----- 211 REFERENCES * 211 APPENDIX 1 PHARMA CASE: PRODUCTION INCREASE BY COMBINED EVAPORATION CRYSTALLIZATION AND COOLING CRYSTALLIZATION * 213 INDEX ----- 217
any_adam_object	1
author	Harmsen, Jan 1973- Verkerk, Maarten J. 1953-
author_GND	(DE-588)1089308582 (DE-588)173509533
author_facet	Harmsen, Jan 1973- Verkerk, Maarten J. 1953-
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dewey-ones	660 - Chemical engineering
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dewey-search	660.2
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dewey-tens	660 - Chemical engineering
discipline	Chemie / Pharmazie
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id	DE-604.BV047025041
illustrated	Illustrated
indexdate	2024-12-20T19:07:38Z
institution	BVB
institution_GND	(DE-588)10095502-2
isbn	9783110657340
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032432433
oclc_num	1192521526
open_access_boolean
owner	DE-703 DE-1102
owner_facet	DE-703 DE-1102
physical	XVIII, 219 Seiten Illustrationen 24 cm, 416 g
publishDate	2020
publishDateSearch	2020
publishDateSort	2020
publisher	De Gruyter
record_format	marc
series2	De Gruyter graduate
spellingShingle	Harmsen, Jan 1973- Verkerk, Maarten J. 1953- Process intensification breakthrough in design, industrial innovation practices, and education Pharmazeutische Technologie (DE-588)4045699-7 gnd Chemische Verfahrenstechnik (DE-588)4069941-9 gnd Lebensmitteltechnologie (DE-588)4034901-9 gnd Biokraftstoff (DE-588)4145658-0 gnd Prozessoptimierung (DE-588)4176074-8 gnd Kraftstoffherstellung (DE-588)4165454-7 gnd
subject_GND	(DE-588)4045699-7 (DE-588)4069941-9 (DE-588)4034901-9 (DE-588)4145658-0 (DE-588)4176074-8 (DE-588)4165454-7
title	Process intensification breakthrough in design, industrial innovation practices, and education
title_auth	Process intensification breakthrough in design, industrial innovation practices, and education
title_exact_search	Process intensification breakthrough in design, industrial innovation practices, and education
title_full	Process intensification breakthrough in design, industrial innovation practices, and education Jan Harmsen and Maarten Verkerk
title_fullStr	Process intensification breakthrough in design, industrial innovation practices, and education Jan Harmsen and Maarten Verkerk
title_full_unstemmed	Process intensification breakthrough in design, industrial innovation practices, and education Jan Harmsen and Maarten Verkerk
title_short	Process intensification
title_sort	process intensification breakthrough in design industrial innovation practices and education
title_sub	breakthrough in design, industrial innovation practices, and education
topic	Pharmazeutische Technologie (DE-588)4045699-7 gnd Chemische Verfahrenstechnik (DE-588)4069941-9 gnd Lebensmitteltechnologie (DE-588)4034901-9 gnd Biokraftstoff (DE-588)4145658-0 gnd Prozessoptimierung (DE-588)4176074-8 gnd Kraftstoffherstellung (DE-588)4165454-7 gnd
topic_facet	Pharmazeutische Technologie Chemische Verfahrenstechnik Lebensmitteltechnologie Biokraftstoff Prozessoptimierung Kraftstoffherstellung
url	http://www.degruyter.com/search?f_0=isbnissn&q_0=9783110657340&searchTitles=true https://d-nb.info/1203447647/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032432433&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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