Verfügbarkeit: Green chemistry in government and industry

Green chemistry in government and industry:

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Bibliographische Detailangaben
Weitere Verfasser:	Benvenuto, Mark Anthony (HerausgeberIn), Plaumann, Heinz (HerausgeberIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Boston De Gruyter [2020]
Schriftenreihe:	Green Chemical Processing volume 5
Schlagworte:	Grüne Chemie Fachpublikum/ Wissenschaft SCI026000 PN: Chemistry RN: The environment RNU: Sustainability TDC: Industrial chemistry TDCB: Chemical engineering TGM: Materials science TQ: Environmental science, engineering & technology 1687: Hardcover, Softcover / Technik/Chemische Technik
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	X, 134 Seiten Illustrationen, Diagramme (teilweise farbig) 24 cm x 17 cm
ISBN:	9783110597288

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adam_text	CONTENTS ABOUT THE SERIES * V LIST OF CONTRIBUTING AUTHORS ----- XI HEINZ PLAUMANN AND MARK A. BENVENUTO 1 IT * S NOT EASY BECOMING GREEN ... BUT WE * RE GETTING THERE! * 1 1.1 INTRODUCTION ----- 1 1.2 THIS VOLUME ----- 1 1.2.1 BIODEGRADABLE POLYMERS - WHY, WHAT, HOW? 2 1.2.2 SUSTAINABLE MATERIALS IN AUTOMOTIVE * 3 1.2.3 MEIJER AND CARBON MANAGEMENT * 4 1.2.4 APPLYING GREEN CHEMISTRY APPROACHES TO EPA-STANDARD METHOD OF ANALYSIS OF DIOXINS * 4 1.2.5 GREEN ROUTES TO SILICON-BASED MATERIALS AND THEIR ENVIRONMENTAL IMPLICATIONS ----- 4 1.2.6 GREENING WITHIN THE LUMBER INDUSTRY * 5 1.2.7 DETERMINING WILDLAND FIRE MARKERS IN RESIDENTIAL STRUCTURES USING THERMAL DESORPTION GAS CHROMOTOGRAPHY MASS SPECTROMETRY * 5 1.3 SUMMARY ----- 6 ATTILA E. PAVLATH 2 BIODEGRADABLE POLYMERS: WHY, WHAT, HOW? ----- 7 2.1 INTRODUCTION * 7 2.2 HOW DEGRADATION CAN OCCUR * 8 2.3 HISTORY ----- 8 2.4 HOW TO FORM BIODEGRADABLE POLYMERS ----- 9 2.5 TYPE OF POLYMERS: PREPARATION, UTILITY, DEGRADATION, PROBLEMS POLYSACCHARIDES ----- 10 2.6 PECTINE AND ALGINIC ACID * 12 2.7 PROTEIN ----- 13 2.8 POLYESTERS * 13 2.9 CAN WE SAVE THE ENVIRONMENT? ----- 14 REFERENCES * 15 ROSE RYNTZ AND SUSAN KOZORA 3 SUSTAINABLE MATERIALS IN AUTOMOTIVE * 17 3.1 INTRODUCTION TO PLASTICS IN AUTOMOTIVE ----- 17 3.2 KEY MATERIAL ATTRIBUTES/SPECIFICATIONS FOR USE IN COMPONENTS * 18 3.3 SUSTAINABLE MATERIAL REQUIREMENTS ----- 21 3.3.1 WHY SUSTAINABLE MATERIALS? * 21 VIII * CONTENTS 3.3.2 3.4 3.4.1 3.4.2 3.5 3.5.1 3.5.2 3.5.3 3.5.4 3.6 HOW DO WE DEFINE BIO-BASED MATERIALS? ----- 22 RECYCLED MATERIALS AND METHODS -----26 TYPES OF MATERIALS CURRENTLY RECYCLED IN AUTOMOTIVE ----- 26 METHODS USED TO RECYCLE -----26 TESTING CONSIDERATIONS FOR BIO-BASED OR RECYCLED MATERIALS ----- 31 PROPERTY VARIATION POTENTIAL ----- 31 AUTOMOTIVE SPECIFICATIONS ----- 31 VOLATILE ORGANIC COMPOUNDS/FOGGING/MILDEW/ODOR ----- 31 CAE DATA ----- 32 HISTORICAL USE OF SUSTAINABLE MATERIALS IN AUTOMOTIVE APPLICATIONS ----- 32 3.6.1 3.6.2 3.7 ARE SUSTAINABLE MATERIALS NEW TO AUTOMOTIVE? * 32 EVOLUTION ----- 32 BIO-BASED OR RECYCLED MATERIALS: ANALYSIS OF OPPORTUNITIES & CONCERN ----- 34 3.7.1 3.8 CONCERNS WITH BIO-BASED MATERIALS * 35 FUTURE GROWTH AND MARKET DIRECTION ----- 35 REFERENCES * 36 CHRISTINA BRITTON AND ERIK PETROVSKIS 4 4.1 4.2 4.3 4.3.1 4.3.2 4.3.3 4.4 4.4.1 4.4.2 4.5 4.5.1 4.5.2 4.6 MEIJER AND CARBON MANAGEMENT * 39 INTRODUCTION ----- 39 MEIJER CARBON EMISSIONS * 40 ENERGY EFFICIENCY * 41 KEY ENERGY EFFICIENCY TACTICS * 42 AWARDS AND RECOGNITION * 43 ENERGY EFFICIENCY PROJECT EXAMPLES * 43 REFRIGERATION -----44 REFRIGERANT MANAGEMENT PERFORMANCE * 44 KEY REFRIGERANT MANAGEMENT TACTICS * 46 DISTRIBUTION * 47 LOGISTICS * 47 DISTRIBUTION CENTER EFFICIENCY * 48 WHERE DO WE GO FROM HERE? * 48 SUSAN C. WALKINSHAW 5 APPLYING GREEN CHEMISTRY APPROACHES TO EPA STANDARD METHOD OF ANALYSIS FOR DIOXINS * 51 5.1 5.2 5.3 5.4 OVERVIEW ----- 51 METHOD SELECTION ----- 52 SAMPLE PRE-PREPARATION * 53 SOLVENT CONSIDERATIONS ----- 54 CONTENTS * IX 5.5 FUME HOOD SPACE * 57 5.6 EXTRACTION TIME * 58 5.7 CONCLUSIONS ----- 61 REFERENCES * 62 JOSEPH C. FURGAL AND CHAMIKA U. LENORA 6 GREEN ROUTES TO SILICON-BASED MATERIALS AND THEIR ENVIRONMENTAL IMPLICATIONS * 65 6.1 INTRODUCTION ----- 65 6.2 SYNTHESIS OF SILICON-BASED MATERIALS ----- 67 6.2.1 COMMERCIAL METHODS TO SILICON-BASED MATERIALS * 67 6.2.2 SILICON-BASED MATERIALS FROM BIO-DERIVED SOURCES: RICE HULL(HUSK) ASH (RHA) ----- 68 6.2.3 RHA AS A SILICA SOURCE * 69 6.2.4 RHA AS A SOURCE FOR SILICON AND SILICON CARBIDE ----- 70 6.2.5 APPLICATIONS OF RHA DERIVED MATERIALS * 72 6.3 BEYOND CARBOTHERMAL REDUCTION: OTHER ROUTES TO ALKOXYSILANE BUILDING BLOCKS * 75 6.3.1 ALKOXYSILANES DIRECTLY FROM SILICA ----- 75 6.3.2 R-ALKOXYSILANES FROM DIALATO SILICATES AND SPIROSILOXANES ----- 80 6.3.3 ALKOXYSILANES AND STRUCTURED SILICATES FROM RHA * 83 6.3.4 FROM RHA TO SILSESQUIOXANE DERIVATIVES ----- 84 6.4 BIO-DERIVED SILOXANES, COMPOSITES AND OTHER FUNCTIONAL SILICON- BASED MATERIALS * 85 6.4.1 LIGNIN AND GELATIN BASED SILOXANE COPOLYMERS * 86 6.4.2 OTHER ORGANIC-SILOXANE COPOLYMERS * 88 6.4.3 INORGANIC COPOLYMERS AND COMPOSITES * 88 6.5 DEGRADATION PATHWAYS AND ENVIRONMENTAL IMPLICATIONS * 89 6.5.1 SILOXANES IN BIOLOGICAL SYSTEMS * 89 6.5.2 SILOXANES IN NATURE * 90 6.6 CONCLUSIONS * 91 REFERENCES * 92 ROBY WONG 7 GREEN POSSIBILITIES IN A GREEN INDUSTRIAL SECTOR: THE LUMBER INDUSTRY * 101 7.1 INTRODUCTION * 101 7.2 HOW DOES THE INDUSTRY WORK? * 103 7.3 ENVIRONMENTAL IMPACT * 106 7.4 DECAY AND DEGRADATION * 108 7.5 COATINGS AND PRESERVATIVES * 114 7.6 WOOD-POLYMER COMPOSITES ----- 119 X * CONTENTS 7.7 CONCLUSION ----- 122 REFERENCES ----- 122 M. KATIE MARTIN, DALE J. LECAPTAIN AND ALICE DELIA 8 DETERMINING WILDLAND FIRE MARKERS IN RESIDENTIAL STRUCTURES USING THERMAL DESORPTION GAS CHROMATOGRAPHY MASS SPECTROMETRY * 125 8.1 INTRODUCTION ----- 125 8.2 MATERIALS AND METHODS ----- 126 8.2.1 CHEMICALS AND MATERIALS * 126 8.2.2 PREPARATION OF STANDARDS ----- 127 8.2.3 SMOKE CHAMBER SETUP ----- 127 8.2.4 BULK MATERIALS OFF-GASSING * 128 8.2.5 INSTRUMENTATION AND CHROMATOGRAPHIC CONDITIONS * 128 8.3 RESULTS AND DISCUSSION ----- 129 8.4 CONCLUSIONS ----- 131 REFERENCES ----- 131 INDEX ----- 133
adam_txt	CONTENTS ABOUT THE SERIES * V LIST OF CONTRIBUTING AUTHORS ----- XI HEINZ PLAUMANN AND MARK A. BENVENUTO 1 IT * S NOT EASY BECOMING GREEN . BUT WE * RE GETTING THERE! * 1 1.1 INTRODUCTION ----- 1 1.2 THIS VOLUME ----- 1 1.2.1 BIODEGRADABLE POLYMERS - WHY, WHAT, HOW? 2 1.2.2 SUSTAINABLE MATERIALS IN AUTOMOTIVE * 3 1.2.3 MEIJER AND CARBON MANAGEMENT * 4 1.2.4 APPLYING GREEN CHEMISTRY APPROACHES TO EPA-STANDARD METHOD OF ANALYSIS OF DIOXINS * 4 1.2.5 GREEN ROUTES TO SILICON-BASED MATERIALS AND THEIR ENVIRONMENTAL IMPLICATIONS ----- 4 1.2.6 GREENING WITHIN THE LUMBER INDUSTRY * 5 1.2.7 DETERMINING WILDLAND FIRE MARKERS IN RESIDENTIAL STRUCTURES USING THERMAL DESORPTION GAS CHROMOTOGRAPHY MASS SPECTROMETRY * 5 1.3 SUMMARY ----- 6 ATTILA E. PAVLATH 2 BIODEGRADABLE POLYMERS: WHY, WHAT, HOW? ----- 7 2.1 INTRODUCTION * 7 2.2 HOW DEGRADATION CAN OCCUR * 8 2.3 HISTORY ----- 8 2.4 HOW TO FORM BIODEGRADABLE POLYMERS ----- 9 2.5 TYPE OF POLYMERS: PREPARATION, UTILITY, DEGRADATION, PROBLEMS POLYSACCHARIDES ----- 10 2.6 PECTINE AND ALGINIC ACID * 12 2.7 PROTEIN ----- 13 2.8 POLYESTERS * 13 2.9 CAN WE SAVE THE ENVIRONMENT? ----- 14 REFERENCES * 15 ROSE RYNTZ AND SUSAN KOZORA 3 SUSTAINABLE MATERIALS IN AUTOMOTIVE * 17 3.1 INTRODUCTION TO PLASTICS IN AUTOMOTIVE ----- 17 3.2 KEY MATERIAL ATTRIBUTES/SPECIFICATIONS FOR USE IN COMPONENTS * 18 3.3 SUSTAINABLE MATERIAL REQUIREMENTS ----- 21 3.3.1 WHY SUSTAINABLE MATERIALS? * 21 VIII * CONTENTS 3.3.2 3.4 3.4.1 3.4.2 3.5 3.5.1 3.5.2 3.5.3 3.5.4 3.6 HOW DO WE DEFINE BIO-BASED MATERIALS? ----- 22 RECYCLED MATERIALS AND METHODS -----26 TYPES OF MATERIALS CURRENTLY RECYCLED IN AUTOMOTIVE ----- 26 METHODS USED TO RECYCLE -----26 TESTING CONSIDERATIONS FOR BIO-BASED OR RECYCLED MATERIALS ----- 31 PROPERTY VARIATION POTENTIAL ----- 31 AUTOMOTIVE SPECIFICATIONS ----- 31 VOLATILE ORGANIC COMPOUNDS/FOGGING/MILDEW/ODOR ----- 31 CAE DATA ----- 32 HISTORICAL USE OF SUSTAINABLE MATERIALS IN AUTOMOTIVE APPLICATIONS ----- 32 3.6.1 3.6.2 3.7 ARE SUSTAINABLE MATERIALS NEW TO AUTOMOTIVE? * 32 EVOLUTION ----- 32 BIO-BASED OR RECYCLED MATERIALS: ANALYSIS OF OPPORTUNITIES & CONCERN ----- 34 3.7.1 3.8 CONCERNS WITH BIO-BASED MATERIALS * 35 FUTURE GROWTH AND MARKET DIRECTION ----- 35 REFERENCES * 36 CHRISTINA BRITTON AND ERIK PETROVSKIS 4 4.1 4.2 4.3 4.3.1 4.3.2 4.3.3 4.4 4.4.1 4.4.2 4.5 4.5.1 4.5.2 4.6 MEIJER AND CARBON MANAGEMENT * 39 INTRODUCTION ----- 39 MEIJER CARBON EMISSIONS * 40 ENERGY EFFICIENCY * 41 KEY ENERGY EFFICIENCY TACTICS * 42 AWARDS AND RECOGNITION * 43 ENERGY EFFICIENCY PROJECT EXAMPLES * 43 REFRIGERATION -----44 REFRIGERANT MANAGEMENT PERFORMANCE * 44 KEY REFRIGERANT MANAGEMENT TACTICS * 46 DISTRIBUTION * 47 LOGISTICS * 47 DISTRIBUTION CENTER EFFICIENCY * 48 WHERE DO WE GO FROM HERE? * 48 SUSAN C. WALKINSHAW 5 APPLYING GREEN CHEMISTRY APPROACHES TO EPA STANDARD METHOD OF ANALYSIS FOR DIOXINS * 51 5.1 5.2 5.3 5.4 OVERVIEW ----- 51 METHOD SELECTION ----- 52 SAMPLE PRE-PREPARATION * 53 SOLVENT CONSIDERATIONS ----- 54 CONTENTS * IX 5.5 FUME HOOD SPACE * 57 5.6 EXTRACTION TIME * 58 5.7 CONCLUSIONS ----- 61 REFERENCES * 62 JOSEPH C. FURGAL AND CHAMIKA U. LENORA 6 GREEN ROUTES TO SILICON-BASED MATERIALS AND THEIR ENVIRONMENTAL IMPLICATIONS * 65 6.1 INTRODUCTION ----- 65 6.2 SYNTHESIS OF SILICON-BASED MATERIALS ----- 67 6.2.1 COMMERCIAL METHODS TO SILICON-BASED MATERIALS * 67 6.2.2 SILICON-BASED MATERIALS FROM BIO-DERIVED SOURCES: RICE HULL(HUSK) ASH (RHA) ----- 68 6.2.3 RHA AS A SILICA SOURCE * 69 6.2.4 RHA AS A SOURCE FOR SILICON AND SILICON CARBIDE ----- 70 6.2.5 APPLICATIONS OF RHA DERIVED MATERIALS * 72 6.3 BEYOND CARBOTHERMAL REDUCTION: OTHER ROUTES TO ALKOXYSILANE BUILDING BLOCKS * 75 6.3.1 ALKOXYSILANES DIRECTLY FROM SILICA ----- 75 6.3.2 R-ALKOXYSILANES FROM DIALATO SILICATES AND SPIROSILOXANES ----- 80 6.3.3 ALKOXYSILANES AND STRUCTURED SILICATES FROM RHA * 83 6.3.4 FROM RHA TO SILSESQUIOXANE DERIVATIVES ----- 84 6.4 BIO-DERIVED SILOXANES, COMPOSITES AND OTHER FUNCTIONAL SILICON- BASED MATERIALS * 85 6.4.1 LIGNIN AND GELATIN BASED SILOXANE COPOLYMERS * 86 6.4.2 OTHER ORGANIC-SILOXANE COPOLYMERS * 88 6.4.3 INORGANIC COPOLYMERS AND COMPOSITES * 88 6.5 DEGRADATION PATHWAYS AND ENVIRONMENTAL IMPLICATIONS * 89 6.5.1 SILOXANES IN BIOLOGICAL SYSTEMS * 89 6.5.2 SILOXANES IN NATURE * 90 6.6 CONCLUSIONS * 91 REFERENCES * 92 ROBY WONG 7 GREEN POSSIBILITIES IN A GREEN INDUSTRIAL SECTOR: THE LUMBER INDUSTRY * 101 7.1 INTRODUCTION * 101 7.2 HOW DOES THE INDUSTRY WORK? * 103 7.3 ENVIRONMENTAL IMPACT * 106 7.4 DECAY AND DEGRADATION * 108 7.5 COATINGS AND PRESERVATIVES * 114 7.6 WOOD-POLYMER COMPOSITES ----- 119 X * CONTENTS 7.7 CONCLUSION ----- 122 REFERENCES ----- 122 M. KATIE MARTIN, DALE J. LECAPTAIN AND ALICE DELIA 8 DETERMINING WILDLAND FIRE MARKERS IN RESIDENTIAL STRUCTURES USING THERMAL DESORPTION GAS CHROMATOGRAPHY MASS SPECTROMETRY * 125 8.1 INTRODUCTION ----- 125 8.2 MATERIALS AND METHODS ----- 126 8.2.1 CHEMICALS AND MATERIALS * 126 8.2.2 PREPARATION OF STANDARDS ----- 127 8.2.3 SMOKE CHAMBER SETUP ----- 127 8.2.4 BULK MATERIALS OFF-GASSING * 128 8.2.5 INSTRUMENTATION AND CHROMATOGRAPHIC CONDITIONS * 128 8.3 RESULTS AND DISCUSSION ----- 129 8.4 CONCLUSIONS ----- 131 REFERENCES ----- 131 INDEX ----- 133
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series	Green Chemical Processing
series2	Green Chemical Processing
spelling	Green chemistry in government and industry edited by Mark Anthony Benvenuto and Heinz Plaumann Berlin ; Boston De Gruyter [2020] © 2020 X, 134 Seiten Illustrationen, Diagramme (teilweise farbig) 24 cm x 17 cm txt rdacontent n rdamedia nc rdacarrier Green Chemical Processing volume 5 Grüne Chemie (DE-588)7563215-9 gnd rswk-swf Fachpublikum/ Wissenschaft SCI026000 PN: Chemistry RN: The environment RNU: Sustainability TDC: Industrial chemistry TDCB: Chemical engineering TGM: Materials science TQ: Environmental science, engineering & technology 1687: Hardcover, Softcover / Technik/Chemische Technik Grüne Chemie (DE-588)7563215-9 s DE-604 Benvenuto, Mark Anthony (DE-588)1047943697 edt Plaumann, Heinz edt Walter de Gruyter GmbH & Co. KG (DE-588)10095502-2 pbl Erscheint auch als Online-Ausgabe, PDF 978-3-11-059778-3 Erscheint auch als Online-Ausgabe, EPUB 978-3-11-059805-6 Green Chemical Processing volume 5 (DE-604)BV044781604 5 DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032180352&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Green chemistry in government and industry Green Chemical Processing Grüne Chemie (DE-588)7563215-9 gnd
subject_GND	(DE-588)7563215-9
title	Green chemistry in government and industry
title_auth	Green chemistry in government and industry
title_exact_search	Green chemistry in government and industry
title_exact_search_txtP	Green chemistry in government and industry
title_full	Green chemistry in government and industry edited by Mark Anthony Benvenuto and Heinz Plaumann
title_fullStr	Green chemistry in government and industry edited by Mark Anthony Benvenuto and Heinz Plaumann
title_full_unstemmed	Green chemistry in government and industry edited by Mark Anthony Benvenuto and Heinz Plaumann
title_short	Green chemistry in government and industry
title_sort	green chemistry in government and industry
topic	Grüne Chemie (DE-588)7563215-9 gnd
topic_facet	Grüne Chemie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032180352&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV044781604
work_keys_str_mv	AT benvenutomarkanthony greenchemistryingovernmentandindustry AT plaumannheinz greenchemistryingovernmentandindustry AT walterdegruytergmbhcokg greenchemistryingovernmentandindustry

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