Verfügbarkeit: Ecodesign :: THWS Bibkatalog

Ecodesign: a life cycle approach for a sustainable future

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Bibliographische Detailangaben
Hauptverfasser:	Doorsselaer, Karine van 1965- (VerfasserIn), Koopmans, Rudy (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Munich ; Cincinnati, Ohio Hanser [2021]
Schlagworte:	Umweltverträgliches Produkt Umweltbilanz Produktentwicklung Produktlebenszyklus Produktgestaltung Kreislaufwirtschaft Nachhaltigkeit FBKOPROE: Produktentwicklung FBKTPROE: Produktentwicklung FBKTRECY: Recycling FBWIALLG: Management allgemein PLAS2021
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XX, 245 Seiten Illustrationen, Diagramme
ISBN:	9781569908617 1569908613

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MARC


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Datensatz im Suchindex

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adam_text	ACKNOWLEDGMENTS .......................................................................................... VII READING GUIDE ................................................................................................ IX ABOUT THE AUTHORS .......................................................................................... XIII 1 INTRODUCTION ........................................................................................ 1 2 NECESSITY OF ECODESIGN ........................................................................ 9 2.1 CHALLENGES .......................................................................................................... 12 2.1.1 THE EXPLOSIVE GROWTH OF THE WORLD POPULATION ............................... 12 2.1.2 THE DETERIORATION OF THE NATURAL ECOSYSTEM ..................................... 13 2.1.3 THE DEPLETION OF NATURAL RESOURCES ................................................... 14 2.2 LIMITS TO GROWTH ................................................................................................. 16 2.2.1 ENVIRONMENTAL IMPACT OF HUMAN ACTIVITY ........................................ 17 2.2.2 ECOLOGICAL FOOTPRINT ............................................................................. 19 2.3 THE ALARM BELL IS STILL RINGING ........................................................................... 21 2.4 ENVIRONMENTAL INITIATIVES OVER THE PAST YEARS ................................................ 24 2.5 STAKEHOLDERS OF A SUSTAINABLE SOCIETY .............................................................. 26 2.6 CONCLUSION .......................................................................................................... 28 3 EMERGENCE OF ECODESIGN AND THE CIRCULAR ECONOMY MODEL .......... 33 3.1 ECODESIGN ............................................................................................................. 35 3.2 LANSINK * S LADDER ................................................................................................ 38 3.3 SUSTAINABLE DEVELOPMENT ................................................................................... 39 3.3.1 PEOPLE, PLANET, PROFIT ............................................................................ 39 3.3.2 THE DILEMMA OF AGREEMENT ................................................................ 41 3.3.3 SUSTAINABLE DEVELOPMENT GOALS ......................................................... 42 3.3.4 ECO-EFFICIENCY ........................................................................................ 44 3.3.5 CRADLE TO CRADLE ..................................................................................... 44 3.3.5.1 ECO-EFFECTIVENESS .................................................................. 45 3.3.5.2 THE C2C BUSINESS .................................................................. 46 3.4 THE CIRCULAR ECONOMY MODEL ............................................................................ 47 3.4.1 THE PRINCIPLES OF A CIRCULAR ECONOMY MODEL ..................................... 48 3.4.2 VALUE PRESERVATION IN THE CIRCULAR ECONOMY MODEL ........................ 50 3.4.3 THE RELATION BETWEEN ECODESIGN AND THE CIRCULAR ECONOMY MODEL 52 3.5 BIO-(BASED) ECONOMY - GREEN ECONOMY - BLUE ECONOMY ............................... 53 3.5.1 BIO-(BASED) ECONOMY ............................................................................ 53 3.5.2 GREEN ECONOMY ..................................................................................... 54 3.5.3 BLUE (MARINE) ECONOMY BY THE EUROPEAN COMMISSION .................... 55 4 DESIGN FOR X ........................................................................................... 59 4.1 FEEDSTOCK AND MATERIALS ..................................................................................... 62 4.2 TECHNOLOGIES (DESIGN FOR MANUFACTURING - DFM) ....................................... 64 4.3 ASSEMBLY (DESIGN FOR ASSEMBLY - DFA) ............................................................. 64 4.4 PACKAGING AND DISTRIBUTION (DESIGN FOR LOGISTICS - DFL) .................................. 66 4.5 DESIGN FOR USE - DFU .......................................................................................... 67 4.5.1 CONSUMER BEHAVIOR (DESIGN FOR SUSTAINABLE BEHAVIOR - DFSB) ....... 68 4.5.2 ENERGY CONSUMPTION (DESIGN FOR ENERGY EFFICIENCY - DFEE) ........... 71 4.5.3 CONSUMABLES ........................................................................................ 72 4.5.4 EXTENDING LIFE SPAN (DESIGN FOR LONGEVITY - DFLG) .......................... 73 4.6 DESIGN FOR DISASSEMBLY (DFD) ........................................................................... 74 4.7 DESIGN FOR REUSE AND REPURPOSING (DFRR) ....................................................... 75 4.8 DESIGN FOR REPAIR AND MAINTENANCE (DFR - DFM) ............................................ 75 4.8.1 DILEMMA: REPAIR VERSUS NEW PRODUCT ................................................ 76 4.9 DESIGN FOR REMANUFACTURING OR REFURBISHING (DFRM - DFRF) ........................ 77 4.10 DESIGN FOR RECYCLING (DFR) ................................................................................. 78 4.10.1 RECYCLABILITY OF MATERIALS IN GENERAL .................................................. 79 4.10.2 RECYCLABILITY OF METALS .......................................................................... 80 4.10.3 RECYCLABILITY OF PLASTICS ........................................................................ 81 4.10.4 RECYCLABILITY OF CERAMICS AND GLASS ................................................... 85 4.10.5 RECYCLABILITY OF FIBERS ......................................................................... 86 4.11 DESIGN FOR COMPOSTING (DFC) ............................................................................. 87 4.12 WASTE STRATEGIES THAT DO NOT FIT IN THE CIRCULAR ECONOMY MODEL .................. 92 4.12.1 INCINERATION .......................................................................................... 92 4.12.2 LANDFILL ................................................................................................. 93 4.13 DESIGN FOR CIRCULARITY (DFCI) ............................................................................. 93 5 ECODESIGN TOOLS ................................................................ 97 5.1 STRATEGY TOOLS ..................................................................................................... 100 5.1.1 BEGIN WITH THE END IN MIND ................................................................ 100 5.1.2 THE NIGHTMARE SCENARIO ...................................................................... 101 5.1.3 THE BUSINESS MODEL CANVAS ................................................................ 101 5.1.4 THE BUSINESS MODEL INNOVATION GRID (BMIX) ..................................... 102 5.1.5 THE SUSTAINABLE INNOVATION SYSTEM (SIS) TOOL KIT ............................ 102 5.1.6 RISK&RACE ............................................................................................. 103 5.1.7 GLOBAL REPORTING INITIATIVE .................................................................. 103 5.2 ECODESIGN TOOLS BASED ON PRODUCT LIFE CYCLE THINKING ................................. 105 5.2.1 QUANTITATIVE TOOLS ................................................................................. 106 5.2.1.1 LIFE CYCLE ASSESSMENT (LCA) ................................................ 106 5.2.1.1.1 METHODOLOGY ...................................................... 107 5.2.1.1.2 CONCLUSION .......................................................... 113 5.2.1.2 ECO-INDICATORS ....................................................................... 114 5.2.1.2.1 METHODOLOGY ..................................................... 115 5.2.1.2.2 CONCLUSION ......................................................... 118 5.2.1.3 (PRODUCT) CARBON FOOTPRINT ................................................. 119 5.2.1.3.1 METHODOLOGY ..................................................... 120 5.2.1.3.2 CONCLUSION ......................................................... 121 5.2.1.4 ENERGY BALANCE ...................................................................... 122 5.2.1.4.1 METHODOLOGY ..................................................... 122 5.2.1.4.2 CONCLUSION ......................................................... 123 5.2.1.5 EXERGETIC LIFE CYCLE ANALYSIS (ELCA) ................................... 124 5.2.1.5.1 METHODOLOGY ..................................................... 125 5.2.1.5.2 CONCLUSION ......................................................... 125 5.2.1.6 LIFE CYCLE SUSTAINABILITY ASSESSMENT (LCSA) ...................... 126 5.2.1.6.1 METHODOLOGY ..................................................... 127 5.2.1.6.2 CONCLUSION ......................................................... 128 5.2.2 QUALITATIVE TOOLS ................................................................................... 5.2.2.1 LIDS WHEEL ............................................................................ 5.2.2.1.1 APPROACH ........................................................ 5.2.2.1.2 USE ...................................................................... 5.2.2.2 ECO-STAR ................................................................................... 5.2.2.2.1 APPROACH ............................................................. 5.2.2.2.2 USE ...................................................................... 5.2.2.3 ECO-(INNOVATION) COMPASS .................................................... 5.2.2.4 CHECKLISTS ............................................................................... 5.2.2.5 ECODESIGN RULES OF THUMB FOR A CIRCULAR ECONOMY MODEL 146 5.2.2.5.1 GENERAL RULES OF THUMB ................................... 5.2.2.5.2 FOCUS ON REUSE BY THE SAME CONSUMER ........... 5.2.2.5.3 FOCUS ON REUSE BY DIFFERENT CONSUMERS ......... 5.2.2.5.4 FOCUS ON REFURBISH AND REMANUFACTURE ......... 5.2.2.5.5 FOCUS ON RECYCLING ............................................ 5.2.2.5.6 CHECKLIST VISUALIZATION ..................................... 5.3 CONCLUSIONS ......................................................................................................... 6 ECODESIGN IN THE PRODUCT DEVELOPMENT PROCESS ........................... 6.1 THE DESIGN PROCESS .............................................................................................. 6.1.1 STAGE 1: STRATEGIC CHOICES .................................................................... 6.1.2 STAGE 2: PRODUCT IDEAS .......................................................................... 6.1.3 STAGE 3: PRODUCT DEFINITION .................................................................. 6.1.4 STAGES 4,5, AND 6: SYSTEM, CONCEPT, AND DETAILED DESIGN ................. 6.2 ECO-INNOVATION ................................................................................................... 6.3 IMPLEMENTATION OF ECODESIGN BY SYSTEM THINKING .......................................... 6.4 EVALUATION OF ECODESIGN BY MULTI-OBJECTIVE OPTIMIZATION .............................. 6.5 ECODESIGN EXAMPLES ............................................................................................ 6.5.1 MASTER-PROJECT * CARGO-TRAM - LAST MILE DELIVERY * BY FREDERIK CARETTE (GRADUATE 2018) ......................................... 6.5.2 MASTER-PROJECT FIBIO BY LAURE HERWEYERS (GRADUATE 2018) ..................................................................................... 6.5.3 MASTER-PROJECT * HYPERLEAFS * BY THOMAS ROSCAM (GRADUATE 2019) ..................................................................................... 6.5.4 MASTER-PROJECT * ZERO DISCARDS * BY NICHOLAS VAN BEYLEN (GRADUATE 2017) ...................................................................... 6.5.5 MASTER-PROJECT * RE-SHUTTLE * BY ROBRECHT VANDEKERKHOVE (GRADUATE 2019) 6.6 CONCLUSION ........................................................................................................... 128 129 130 134 134 135 136 139 140 146 147 148 148 149 149 150 157 160 161 162 163 163 164 166 168 170 170 171 172 173 174 175 7 STIMULATING ECODESIGN ........................................................................ 179 7.1 BIOMIMICRY ......................................................................................................... 182 7.2 BLUE ECONOMY ..................................................................................................... 184 7.3 GREEN ECONOMY ................................................................................................... 185 7.4 INDUSTRY 4.0 ......................................................................................................... 186 7.5 LEARN FROM THE PAST ............................................................................................ 188 8 ECODESIGN AND ENTREPRENEURSHIP ..................................................... 191 8.1 THE VALUE CHAINS ............................................................................................... 194 8.1.1 INTERNAL AND EXTERNAL STAKEHOLDERS ................................................... 194 8.1.2 COSTS AND BENEFITS ................................................................................. 196 8.2 INTEGRATING ECODESIGN ........................................................................................ 198 8.2.1 COMPANY LEADERSHIP ........................................................................... 199 8.2.1.1 CORPORATE SOCIAL RESPONSIBILITY .......................................... 199 8.2.2 PROCESS LEVEL: ENVIRONMENTAL PERMITS .............................................. 200 8.2.3 PRODUCT LEVEL: ECODESIGN .................................................................... 201 8.3 VALUE AND PROFIT ................................................................................................. 201 8.4 RISK ....................................................................................................................... 202 9 ECODESIGN AND GOVERNANCE ............................................................... 205 9.1 STANDARDS ............................................................................................................ 207 9.1.1 ISO STANDARDS ...................................................................................... 209 9.1.1.1 ISO 9000 STANDARDS .............................................................. 210 9.1.1.2 ISO 14000 STANDARDS AND EMAS .......................................... 210 9.1.1.3 ISO 26000 STANDARDS ............................................................ 211 9.1.1.4 ISO 14080 STANDARD .............................................................. 212 9.1.2 COUNTRY STANDARDS ............................................................................... 212 9.2 EU DIRECTIVES AND REGULATIONS ......................................................................... 213 9.2.1 ECODESIGN FOR ENERGY-CONSUMING PRODUCTS ...................................... 214 9.2.2 PRODUCT ENVIRONMENTAL FOOTPRINT (PEF) ............................................ 216 9.2.3 REACH ................................................................................................... 216 9.2.4 WEEE ..................................................................................................... 217 9.2.5 ROHS ...................................................................................................... 218 9.3 GOVERNMENT STIMULI ......................................................................................... 218 9.3.1 IN PURSUIT OF THE CIRCULAR ECONOMY MODEL ........................................ 218 9.3.2 EXTENDED PRODUCER RESPONSIBILITY ..................................................... 218 9.3.2.1 TAKE-BACK OBLIGATION ........................................................... 219 9.3.2.2 COLLECTIVE INITIATIVES ............................................................ 220 9.3.3 GOVERNMENT INVESTMENTS .................................................................... 220 9.3.4 GOVERNMENT PUBLIC PROCUREMENTS ..................................................... 221 10 ECODESIGN AND CONSUMERS .................................................................. 225 10.1 SUSTAINABLE CONSUMPTION ................................................................................... 229 10.2 NEEDS AND DESIRES .............................................................................................. 234 10.3 FRUGALITY ............................................................................................................... 236 10.4 STIMULI .................................................................................................................. 236 10.4.1 ECOLABELS ................................................................................................ 237 10.4.2 GOVERNMENTS AND CONSUMER ORGANIZATIONS ..................................... 237 11 CONCLUSIONS AND PERSPECTIVES ............................................................ 241
adam_txt	ACKNOWLEDGMENTS . VII READING GUIDE . IX ABOUT THE AUTHORS . XIII 1 INTRODUCTION . 1 2 NECESSITY OF ECODESIGN . 9 2.1 CHALLENGES . 12 2.1.1 THE EXPLOSIVE GROWTH OF THE WORLD POPULATION . 12 2.1.2 THE DETERIORATION OF THE NATURAL ECOSYSTEM . 13 2.1.3 THE DEPLETION OF NATURAL RESOURCES . 14 2.2 LIMITS TO GROWTH . 16 2.2.1 ENVIRONMENTAL IMPACT OF HUMAN ACTIVITY . 17 2.2.2 ECOLOGICAL FOOTPRINT . 19 2.3 THE ALARM BELL IS STILL RINGING . 21 2.4 ENVIRONMENTAL INITIATIVES OVER THE PAST YEARS . 24 2.5 STAKEHOLDERS OF A SUSTAINABLE SOCIETY . 26 2.6 CONCLUSION . 28 3 EMERGENCE OF ECODESIGN AND THE CIRCULAR ECONOMY MODEL . 33 3.1 ECODESIGN . 35 3.2 LANSINK * S LADDER . 38 3.3 SUSTAINABLE DEVELOPMENT . 39 3.3.1 PEOPLE, PLANET, PROFIT . 39 3.3.2 THE DILEMMA OF AGREEMENT . 41 3.3.3 SUSTAINABLE DEVELOPMENT GOALS . 42 3.3.4 ECO-EFFICIENCY . 44 3.3.5 CRADLE TO CRADLE . 44 3.3.5.1 ECO-EFFECTIVENESS . 45 3.3.5.2 THE C2C BUSINESS . 46 3.4 THE CIRCULAR ECONOMY MODEL . 47 3.4.1 THE PRINCIPLES OF A CIRCULAR ECONOMY MODEL . 48 3.4.2 VALUE PRESERVATION IN THE CIRCULAR ECONOMY MODEL . 50 3.4.3 THE RELATION BETWEEN ECODESIGN AND THE CIRCULAR ECONOMY MODEL 52 3.5 BIO-(BASED) ECONOMY - GREEN ECONOMY - BLUE ECONOMY . 53 3.5.1 BIO-(BASED) ECONOMY . 53 3.5.2 GREEN ECONOMY . 54 3.5.3 BLUE (MARINE) ECONOMY BY THE EUROPEAN COMMISSION . 55 4 DESIGN FOR X . 59 4.1 FEEDSTOCK AND MATERIALS . 62 4.2 TECHNOLOGIES (DESIGN FOR MANUFACTURING - DFM) . 64 4.3 ASSEMBLY (DESIGN FOR ASSEMBLY - DFA) . 64 4.4 PACKAGING AND DISTRIBUTION (DESIGN FOR LOGISTICS - DFL) . 66 4.5 DESIGN FOR USE - DFU . 67 4.5.1 CONSUMER BEHAVIOR (DESIGN FOR SUSTAINABLE BEHAVIOR - DFSB) . 68 4.5.2 ENERGY CONSUMPTION (DESIGN FOR ENERGY EFFICIENCY - DFEE) . 71 4.5.3 CONSUMABLES . 72 4.5.4 EXTENDING LIFE SPAN (DESIGN FOR LONGEVITY - DFLG) . 73 4.6 DESIGN FOR DISASSEMBLY (DFD) . 74 4.7 DESIGN FOR REUSE AND REPURPOSING (DFRR) . 75 4.8 DESIGN FOR REPAIR AND MAINTENANCE (DFR - DFM) . 75 4.8.1 DILEMMA: REPAIR VERSUS NEW PRODUCT . 76 4.9 DESIGN FOR REMANUFACTURING OR REFURBISHING (DFRM - DFRF) . 77 4.10 DESIGN FOR RECYCLING (DFR) . 78 4.10.1 RECYCLABILITY OF MATERIALS IN GENERAL . 79 4.10.2 RECYCLABILITY OF METALS . 80 4.10.3 RECYCLABILITY OF PLASTICS . 81 4.10.4 RECYCLABILITY OF CERAMICS AND GLASS . 85 4.10.5 RECYCLABILITY OF FIBERS . 86 4.11 DESIGN FOR COMPOSTING (DFC) . 87 4.12 WASTE STRATEGIES THAT DO NOT FIT IN THE CIRCULAR ECONOMY MODEL . 92 4.12.1 INCINERATION . 92 4.12.2 LANDFILL . 93 4.13 DESIGN FOR CIRCULARITY (DFCI) . 93 5 ECODESIGN TOOLS . 97 5.1 STRATEGY TOOLS . 100 5.1.1 BEGIN WITH THE END IN MIND . 100 5.1.2 THE NIGHTMARE SCENARIO . 101 5.1.3 THE BUSINESS MODEL CANVAS . 101 5.1.4 THE BUSINESS MODEL INNOVATION GRID (BMIX) . 102 5.1.5 THE SUSTAINABLE INNOVATION SYSTEM (SIS) TOOL KIT . 102 5.1.6 RISK&RACE . 103 5.1.7 GLOBAL REPORTING INITIATIVE . 103 5.2 ECODESIGN TOOLS BASED ON PRODUCT LIFE CYCLE THINKING . 105 5.2.1 QUANTITATIVE TOOLS . 106 5.2.1.1 LIFE CYCLE ASSESSMENT (LCA) . 106 5.2.1.1.1 METHODOLOGY . 107 5.2.1.1.2 CONCLUSION . 113 5.2.1.2 ECO-INDICATORS . 114 5.2.1.2.1 METHODOLOGY . 115 5.2.1.2.2 CONCLUSION . 118 5.2.1.3 (PRODUCT) CARBON FOOTPRINT . 119 5.2.1.3.1 METHODOLOGY . 120 5.2.1.3.2 CONCLUSION . 121 5.2.1.4 ENERGY BALANCE . 122 5.2.1.4.1 METHODOLOGY . 122 5.2.1.4.2 CONCLUSION . 123 5.2.1.5 EXERGETIC LIFE CYCLE ANALYSIS (ELCA) . 124 5.2.1.5.1 METHODOLOGY . 125 5.2.1.5.2 CONCLUSION . 125 5.2.1.6 LIFE CYCLE SUSTAINABILITY ASSESSMENT (LCSA) . 126 5.2.1.6.1 METHODOLOGY . 127 5.2.1.6.2 CONCLUSION . 128 5.2.2 QUALITATIVE TOOLS . 5.2.2.1 LIDS WHEEL . 5.2.2.1.1 APPROACH . 5.2.2.1.2 USE . 5.2.2.2 ECO-STAR . 5.2.2.2.1 APPROACH . 5.2.2.2.2 USE . 5.2.2.3 ECO-(INNOVATION) COMPASS . 5.2.2.4 CHECKLISTS . 5.2.2.5 ECODESIGN RULES OF THUMB FOR A CIRCULAR ECONOMY MODEL 146 5.2.2.5.1 GENERAL RULES OF THUMB . 5.2.2.5.2 FOCUS ON REUSE BY THE SAME CONSUMER . 5.2.2.5.3 FOCUS ON REUSE BY DIFFERENT CONSUMERS . 5.2.2.5.4 FOCUS ON REFURBISH AND REMANUFACTURE . 5.2.2.5.5 FOCUS ON RECYCLING . 5.2.2.5.6 CHECKLIST VISUALIZATION . 5.3 CONCLUSIONS . 6 ECODESIGN IN THE PRODUCT DEVELOPMENT PROCESS . 6.1 THE DESIGN PROCESS . 6.1.1 STAGE 1: STRATEGIC CHOICES . 6.1.2 STAGE 2: PRODUCT IDEAS . 6.1.3 STAGE 3: PRODUCT DEFINITION . 6.1.4 STAGES 4,5, AND 6: SYSTEM, CONCEPT, AND DETAILED DESIGN . 6.2 ECO-INNOVATION . 6.3 IMPLEMENTATION OF ECODESIGN BY SYSTEM THINKING . 6.4 EVALUATION OF ECODESIGN BY MULTI-OBJECTIVE OPTIMIZATION . 6.5 ECODESIGN EXAMPLES . 6.5.1 MASTER-PROJECT * CARGO-TRAM - LAST MILE DELIVERY * BY FREDERIK CARETTE (GRADUATE 2018) . 6.5.2 MASTER-PROJECT FIBIO BY LAURE HERWEYERS (GRADUATE 2018) . 6.5.3 MASTER-PROJECT * HYPERLEAFS * BY THOMAS ROSCAM (GRADUATE 2019) . 6.5.4 MASTER-PROJECT * ZERO DISCARDS * BY NICHOLAS VAN BEYLEN (GRADUATE 2017) . 6.5.5 MASTER-PROJECT * RE-SHUTTLE * BY ROBRECHT VANDEKERKHOVE (GRADUATE 2019) 6.6 CONCLUSION . 128 129 130 134 134 135 136 139 140 146 147 148 148 149 149 150 157 160 161 162 163 163 164 166 168 170 170 171 172 173 174 175 7 STIMULATING ECODESIGN . 179 7.1 BIOMIMICRY . 182 7.2 BLUE ECONOMY . 184 7.3 GREEN ECONOMY . 185 7.4 INDUSTRY 4.0 . 186 7.5 LEARN FROM THE PAST . 188 8 ECODESIGN AND ENTREPRENEURSHIP . 191 8.1 THE VALUE CHAINS . 194 8.1.1 INTERNAL AND EXTERNAL STAKEHOLDERS . 194 8.1.2 COSTS AND BENEFITS . 196 8.2 INTEGRATING ECODESIGN . 198 8.2.1 COMPANY LEADERSHIP . 199 8.2.1.1 CORPORATE SOCIAL RESPONSIBILITY . 199 8.2.2 PROCESS LEVEL: ENVIRONMENTAL PERMITS . 200 8.2.3 PRODUCT LEVEL: ECODESIGN . 201 8.3 VALUE AND PROFIT . 201 8.4 RISK . 202 9 ECODESIGN AND GOVERNANCE . 205 9.1 STANDARDS . 207 9.1.1 ISO STANDARDS . 209 9.1.1.1 ISO 9000 STANDARDS . 210 9.1.1.2 ISO 14000 STANDARDS AND EMAS . 210 9.1.1.3 ISO 26000 STANDARDS . 211 9.1.1.4 ISO 14080 STANDARD . 212 9.1.2 COUNTRY STANDARDS . 212 9.2 EU DIRECTIVES AND REGULATIONS . 213 9.2.1 ECODESIGN FOR ENERGY-CONSUMING PRODUCTS . 214 9.2.2 PRODUCT ENVIRONMENTAL FOOTPRINT (PEF) . 216 9.2.3 REACH . 216 9.2.4 WEEE . 217 9.2.5 ROHS . 218 9.3 GOVERNMENT STIMULI . 218 9.3.1 IN PURSUIT OF THE CIRCULAR ECONOMY MODEL . 218 9.3.2 EXTENDED PRODUCER RESPONSIBILITY . 218 9.3.2.1 TAKE-BACK OBLIGATION . 219 9.3.2.2 COLLECTIVE INITIATIVES . 220 9.3.3 GOVERNMENT INVESTMENTS . 220 9.3.4 GOVERNMENT PUBLIC PROCUREMENTS . 221 10 ECODESIGN AND CONSUMERS . 225 10.1 SUSTAINABLE CONSUMPTION . 229 10.2 NEEDS AND DESIRES . 234 10.3 FRUGALITY . 236 10.4 STIMULI . 236 10.4.1 ECOLABELS . 237 10.4.2 GOVERNMENTS AND CONSUMER ORGANIZATIONS . 237 11 CONCLUSIONS AND PERSPECTIVES . 241
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author	Doorsselaer, Karine van 1965- Koopmans, Rudy
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ctrlnum	(OCoLC)1227687448 (DE-599)DNB1220370207
discipline	Kunstgeschichte Biologie Wirtschaftswissenschaften Umwelt
discipline_str_mv	Kunstgeschichte Biologie Wirtschaftswissenschaften Umwelt
format	Book
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id	DE-604.BV047065404
illustrated	Illustrated
index_date	2024-07-03T16:12:30Z
indexdate	2024-07-10T09:01:36Z
institution	BVB
institution_GND	(DE-588)1064064051
isbn	9781569908617 1569908613
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-032472510
oclc_num	1227687448
open_access_boolean
owner	DE-210 DE-20 DE-12 DE-M49 DE-BY-TUM DE-1050 DE-473 DE-BY-UBG DE-Aug4
owner_facet	DE-210 DE-20 DE-12 DE-M49 DE-BY-TUM DE-1050 DE-473 DE-BY-UBG DE-Aug4
physical	XX, 245 Seiten Illustrationen, Diagramme
publishDate	2021
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publisher	Hanser
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spelling	Doorsselaer, Karine van 1965- Verfasser (DE-588)1226111483 aut Ecodesign a life cycle approach for a sustainable future Karine Van Doorsselaer, Rudolf J. Koopmans Munich ; Cincinnati, Ohio Hanser [2021] © 2021 XX, 245 Seiten Illustrationen, Diagramme txt rdacontent n rdamedia nc rdacarrier Umweltverträgliches Produkt (DE-588)4061629-0 gnd rswk-swf Umweltbilanz (DE-588)4299127-4 gnd rswk-swf Produktentwicklung (DE-588)4139402-1 gnd rswk-swf Produktlebenszyklus (DE-588)4135136-8 gnd rswk-swf Produktgestaltung (DE-588)4047340-5 gnd rswk-swf Kreislaufwirtschaft (DE-588)4361327-5 gnd rswk-swf Nachhaltigkeit (DE-588)4326464-5 gnd rswk-swf FBKOPROE: Produktentwicklung FBKTPROE: Produktentwicklung FBKTRECY: Recycling FBWIALLG: Management allgemein PLAS2021 Umweltverträgliches Produkt (DE-588)4061629-0 s Produktentwicklung (DE-588)4139402-1 s Produktlebenszyklus (DE-588)4135136-8 s Nachhaltigkeit (DE-588)4326464-5 s DE-604 Kreislaufwirtschaft (DE-588)4361327-5 s Produktgestaltung (DE-588)4047340-5 s Umweltbilanz (DE-588)4299127-4 s b DE-604 Koopmans, Rudy Verfasser (DE-588)1042620555 aut Hanser Publications (DE-588)1064064051 pbl Erscheint auch als Online-Ausgabe 978-1-56990-862-4 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032472510&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p vlb 20201028 DE-101 https://d-nb.info/provenance/plan#vlb
spellingShingle	Doorsselaer, Karine van 1965- Koopmans, Rudy Ecodesign a life cycle approach for a sustainable future Umweltverträgliches Produkt (DE-588)4061629-0 gnd Umweltbilanz (DE-588)4299127-4 gnd Produktentwicklung (DE-588)4139402-1 gnd Produktlebenszyklus (DE-588)4135136-8 gnd Produktgestaltung (DE-588)4047340-5 gnd Kreislaufwirtschaft (DE-588)4361327-5 gnd Nachhaltigkeit (DE-588)4326464-5 gnd
subject_GND	(DE-588)4061629-0 (DE-588)4299127-4 (DE-588)4139402-1 (DE-588)4135136-8 (DE-588)4047340-5 (DE-588)4361327-5 (DE-588)4326464-5
title	Ecodesign a life cycle approach for a sustainable future
title_auth	Ecodesign a life cycle approach for a sustainable future
title_exact_search	Ecodesign a life cycle approach for a sustainable future
title_exact_search_txtP	Ecodesign a life cycle approach for a sustainable future
title_full	Ecodesign a life cycle approach for a sustainable future Karine Van Doorsselaer, Rudolf J. Koopmans
title_fullStr	Ecodesign a life cycle approach for a sustainable future Karine Van Doorsselaer, Rudolf J. Koopmans
title_full_unstemmed	Ecodesign a life cycle approach for a sustainable future Karine Van Doorsselaer, Rudolf J. Koopmans
title_short	Ecodesign
title_sort	ecodesign a life cycle approach for a sustainable future
title_sub	a life cycle approach for a sustainable future
topic	Umweltverträgliches Produkt (DE-588)4061629-0 gnd Umweltbilanz (DE-588)4299127-4 gnd Produktentwicklung (DE-588)4139402-1 gnd Produktlebenszyklus (DE-588)4135136-8 gnd Produktgestaltung (DE-588)4047340-5 gnd Kreislaufwirtschaft (DE-588)4361327-5 gnd Nachhaltigkeit (DE-588)4326464-5 gnd
topic_facet	Umweltverträgliches Produkt Umweltbilanz Produktentwicklung Produktlebenszyklus Produktgestaltung Kreislaufwirtschaft Nachhaltigkeit
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032472510&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT doorsselaerkarinevan ecodesignalifecycleapproachforasustainablefuture AT koopmansrudy ecodesignalifecycleapproachforasustainablefuture AT hanserpublications ecodesignalifecycleapproachforasustainablefuture

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