Sustainable Value Creation in the Fine and Speciality Chemicals Industry:
Gespeichert in:
1. Verfasser: | |
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Format: | Buch |
Sprache: | English |
Veröffentlicht: |
New York, NY
Wiley
2014
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Ausgabe: | 1. publ. |
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Beschreibung: | XIX, 281 S. graph. Darst. |
ISBN: | 9781118539675 1118539672 |
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245 | 1 | 0 | |a Sustainable Value Creation in the Fine and Speciality Chemicals Industry |c R. Rajagopal |
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Contents
Foreword
Preface
Acknowledgement
About the Author
1
Transformations in the Fine and Speciality Chemicals Business
1.1
Fine and Speciality Chemicals Industry Structure
1.1.1
Global Chemical Industry Trends
1.1.1.1
Macro Trends Shaping the Fine and Speciality
Chemicals Industry
1.1.1.2
Consolidation Continues
1.1.2
Managing Transitions in the Fine and Speciality
Chemicals Industry
1.2
1.3
1
1
1.
1.
.2.1
.2.2
.2.3
.2.4
.2.5
.2.6
Manage Commoditi/.ation Threats
Restructure Portfolios through Mergers
and Acquisitions
Investing in Innovative R&D Platforms
Leveraging Emerging Technologies
Tapping the Promise of Renewables
Rationalization of Cost Structures
1.1.3
Industry Shifts, Competitiveness and Markets
.3.1
.3.2
Understanding Fine and Speciality Chemicals
Shift of Manufacturing and Markets to Emerging
Economies
1.1.3.3
Market Focus on Sustainable Products
Regulations and Fine and Speciality Chemicals Industry
1.2.1
New Directions in Regulatory Regimes
1.2.1.1
GHG and Water Footprint Mapping
1.2.1.2
Impact of REACH on Fine and Speciality
Chemicals Industry
Fine and Speciality Chemicals Industry and Sustainable Practices
1.3.1
Sustainable Value Creation in the Fine and Speciality
Chemicals Industry
1.3.1.1
New Growth Models Driven by Sustainability Forces
1.3.1.2
Customer Drives Industrial Sustainability
References
XV
xvii
xxi
xxiii
1
1
2
3
3
5
6
К
10
11
12
12
13
13
15
16
18
18
20
20
21
21
23
24
viii Contents
2
Sustainable Management: Evolution, Transitions and Tools
29
2.1
Chemical Industry: Aligning with Sustainable Development
Mandates
29
2.1.1
Developing a Sustainable Strategy
30
2.1.1.1
Defining Sustainability
31
2.1.1.2
New Green Chemistry and Technology Strategies
32
2.1.1.3
Sustainability Moves Beyond Manufacturing
33
2.1.1.4
Managing Sustainability Initiatives
33
2.2
Sustainability Performance Assessment
34
2.2.1
Evolution of Tools and Metrics
35
2.2.1.1
Sustainable Value Creation Tools
36
2.2.1.2
Sustainable Reporting
37
2.2.1.3
Role of Sustainability Exchanges and Indices
39
2.2.1.4
Sustainability Certifications
40
2.2.2
Carbon Footprint Analysis
40
2.2.2.1
Trends in
CFA
41
2.2.2.2
Industrial Initiatives in Lowering Carbon Footprints
41
2.3
Sustainability Trends in the Chemical Industry
43
2.3.1
Sustainability Strategies
43
2.3.1.1
Industry Strategy for Sustainable Management
44
2.3.2
Innovation and Sustainability
45
2.3.2.1
Innovations: Commercial Developments
45
2.3.2.2
Regulation Drives Innovation
46
2.3.2.3
Drivers and
Limiters
for Innovation
47
2.3.3
Sustainable Technologies: Reflections
48
2.3.3.1
Contemporary Trends
48
2.3.3.2
Promotional Barriers in Developing Countries
49
2.3.3.3
Future Directions
50
References
51
3
Research and Technology Directions
57
3.1
Shifts in Fine and Speciality Chemicals Technologies
57
3.1.1
Evolution of Green Chemistry and Engineering
58
3.1.1.1
Emergence of a Novel Technology Pool
61
3.1.1.2
GCT as a Sustainability Tool: Evolving Perceptions
63
3.1.1.3
Developing Green Chemistry Tools and Metrics
64
3.1.2
Strategies for Commercializing GCT Models
67
3.1.2.1
Trends in Design of Greener Processes
67
ЗА,
2.2
Advances in Novel Reaction Media
72
3.1.2.3
Nonconventional Process
73
3.1.2.4
New Activations
74
3.1.2.5
Leveraging Green Engineering Principles
75
3.1.3
Future Directions in GCT
77
3.1.3.1
Policy Initiatives
77
3.1.3.2
Emerging Perspectives and Future Challenges
78
3.1.3.3
The Road Ahead: What Has Been Learnt?
78
Contents ix
3.2
Catalytic
Technologies 79
3.2.3 New
Catalytic
Technologies
Shape the Fine Chemicals Industry
79
3.2.1.1
Homogeneous and Heterogeneous Catalysis
80
3.2.1.2
Phase Transfer Catalysis
84
3.2.1.3
Asymmetric Catalysis
86
3.2.2
Biocatalysis
88
3.2.2.1
Advances in
Biotransformations
through Biocatalysis
89
3.2.2.2
Advances in Biocatalysis for Fine Chemicals
Synthesis
91
3.2.2.3
Biotransformations
Driven by Microbial Cells
94
3.2.2.4
Future Directions in Biocatalysis
95
3.2.3
Advances in Catalysis
96
3.2.3.1
Novel Catalysis
96
3.2.3.2
Future Directions in Catalytic Technologies for
Fine Chemicals
98
3.3
Enabling Technologies
99
3.3.1
Process Intensification: Concepts and Evolution
99
3.3.1.1
Process Intensification: PI Equipment and PI
Methodology
100
3.3.1.2
Enabling New Process Options
101
3.3.1.3
Micro Reactor Technologies (MRTs) for Fine
Chemical Synthesis
J
03
3.3.2
Tools for
Eco-Eťticient
Process Development
108
3.3.2.1
Reaction and Process Design
108
3.3.2.2
Computational Tools
109
3.3.2.3
Combinatorial Chemistry Tools
110
3.3.3
Nanotechnology
110
3.3.3.1
Nanotechnology: Emerging Areas 111
3.3.3.2
Future Directions
112
3.4
Product Engineering: A Key
Sustai
nability Tool
112
3.4.1
Product Engineering: A Multidisciplinary Approach
1 13
3.4.1.1
Product Design in Formulated Products
114
3.4.1.2
New Directions in Product Engineering
114
3.5
Emerging Trends in Chemical Sciences and Engineering Education
115
3.5.1
New Directions
115
3.5.1.1
Context-Based Model
116
References
117
Resource Optimization Strategies
135
4.1
Resource Optimization: A Systems Approach
135
4.1.1
Process Integration
135
4.1.1.1
Heat and Mass Resource Optimization
136
4.1.1.2
Water Networks
137
4.1.2
Solvent Optimization Approaches
137
4.1.2.1
Solvent Optimization Tools
138
4.1.2.2
Advances in Solvent Recovery Systems
139
Contents
4.1.3
Water Optimization Strategies
139
4.1.3.1
Closed Loop Wastewater Recycling
139
4.1.3.2
Complexities in Wastewater Minimization
141
4.2
Waste Valorization to High Value Chemicals
141
4.2.1
Chemical Waste Recovery and Valorization
142
4.2.1.1
Waste By-products to High Value Chemicals
143
4.2.1.2
Waste Exchanges as a Route to Pollution Prevention
143
4.2.2
Valorization of Bio-Based Organic Wastes
144
4.2.2.1
Bio Wastes to High Value Specialities: Prospects
and Challenges
144
4.2.2.2
Biosurfactants from Wastes
145
4.2.3
Valorization of Carbon Dioxide and Carbon Monoxide
145
4.2.3.1
High Value Chemicals from Carbon Dioxide
146
4.2.3.2
Novel Developments Based on Carbon Dioxide
146
References
148
Bio-Based Chemicals, Specialities and Polymers
153
5.1
Towards a Bio-Based Economy
153
5.1.1
Bio-Based Industry: Evolution and Structure
155
5.1.1.1
Bio-Based Industry Attracts Investments
156
5.1.1.2
Bio-Based Industry Adopts Diverse Strategies
157
5.1.1.3
Bio-Based Markets and Trends
159
5.2
В
iorefinery and Biofeedstocks
160
5.2.!
Biorefining Technologies
162
5.2.1.1
Conversion Technologies
162
5.2.1.2
Biorefineries go Commercial
163
5.2.1.3
Future of Biorefining Technologies
164
5.2.2
Biofeedstocks
164
5.2.2.1
Emerging Trends in Biofeedstocks
165
5.2.3
Platform Chemicals: Technologies at a Nascent Stage
166
5.2.3.1
Bio-Based Products Value Chain
167
5.2.3.2
Platform Chemicals to High End Specialities
169
5.2.3.3
Future Research Directions
172
5.3
Bioproducts: Moving from Laboratory to Markets
173
5.3.1
Bio-Based Commodities
173
174
174
174
174
175
175
175
175
5.3.2
Bio-Based Fine Chemicals
176
176
176
5.3.
.1
1,3-Propanediol (l^-PDO)
5.3.
.2
Epichlorohydrin
5.3.
.3
Propylene and Derivatives
5.3.
.4
Butanol
5.3.
.5
Glycerine
5.3.
.6
Cellulosic
Ethanol
5.3.
t
.7
Methyl Methacrylate
5.3.
.8
Isoprene
Bio-Based Fine Chemicals
5.3.:
Ï.1
Biosuccinic Acid
5.3.:
1.2
Acrylic Acid
Contents xi
5.3.2.3
AdipicAcid
177
5.3.2.4
Furfural
177
5.3.2.5
Sorbitol
178
5.3.2.6
Levulinic Acid
178
5.3.2.7
Glucaric Acid
178
5.3.3
Biospecialities
178
5.3.3.1
Biolubricants
179
5.3.3.2
Biosolvents
179
5.3.3.3
Biosurfactants
180
5.3.3.4
Bioadhesives
180
5.3.3.5
Miscellaneous Specialities
180
5.3.4 Biopolymers 180
5.3.4.1
Evolution of
Biopolymers 181
5.3.4.2
Driving Innovations in
Bioplastics
181
5.3.4.3 Biopolymers
Going to the Market Place
182
5.3.4.4
Polymeric Resins from Plant Oils
183
5.3.4.5
Algal
Bioplastics
184
5.3.4.6
Bio-Based Natural Polymers
184
5.3.4.7
Bio-Based Polymers: Commercial Challenges
184
5.4
Lab to Markets: Challenges of Commercialization
185
5.4.1
Strategies for Growth: Diverse Perspectives
185
5.4.1.1
Commercialization Barriers
186
5.4.1.2
Sustainability Strategies in Bio-Based Chain
188
5.4.1.3
Future Directions for a Bio-Based Economy
189
References
191
Sustainable Practices in the Fine and Speciality Chemicals Industry
199
6.1
Shifts Towards Sustainable Practices
199
6.1.1
Investing in Innovative Models
199
6.1.1.1
Moving to the Next Level in Sustainability
Management
200
6.2
Sustainable Practices in the Pharmaceutical Industry
201
6.2.1
Sustainabile Transitions
202
6.2.1.1
Sustainable Initiatives
202
6.3
Sustainable Practices in the Crop Protection Chemicals Industry
203
6.3.1
Evolving Sustainability Trends in Crop Protection Chemicals
204
6.3.1.1
Diverse Strategies
204
6.3.1.2
Biopesticides
205
6.4
Sustainable Practices in the Oleochemicals and Surfactants Industry
205
6.4.1
Shifts Towards Sustainable Models
205
6.4.1.1
Newer Approaches to Novel and Safer Surfactants
207
6.4.1.2
Biosurfactants
210
6.4.1.3
New Technologies Redefine Oleochemicals
211
6.4.1.4
Sustainability Trends
212
6.5
Sustainability Practices in the Personal and Home Care
Chemicals Industry
214
xii Contents
6.5.1 Sustainability
Practices gain Momentum in the Personal and
Home Care Sector
215
6.5.1.1
Industry Developed Rating Standards and Indices
215
6.5.1.2
Greener Product Innovations
216
6.5.1.3
Shift to Natural Products
216
6.5.1.4
Future Directions
217
6.6
Sustainable Practices in the Coatings Industry
217
6.6.1
Transitions to Sustainable Models
217
6.6.1.1
Innovative and Sustainable Coating Technologies
219
6.6.1.2
Sustainable Practices at Industry Level
220
6.6.1.3
Developments in Sustainable Coating Additives
221
6.6.1.4
Future Directions
222
6.7
Sustainable Practices in the Adhesives and Sealants Industry
223
6.7.1
Transformations in the Adhesives and Sealants Industry
223
6.7.1.1
Development of Sustainable Adhesives and Sealants
223
6.7.1.2
Commercial Developments
224
6.7.1.3
Future Directions
225
6.8
Sustainable Practices in the Lubricant and Greases Industry
226
6.8.1
Emergence of New Generation Lubricants
227
6.8.1.1
В
iolubricants: Market Trends
227
6.8.1.2
Biodegradable Lubricants: Trends
228
6.8.1.3
Product Certifications
229
6.8.1.4
Future Directions
229
6.9
Sustainability Practices in the Colourants Industry
230
6.9.1
Evolution of the Colourants Industry
230
6.9.1.1
Emergence of Hi-Tech Colourants
231
6.9.1.2
Industry Initiatives Address
EHS
Concerns
232
6.9.1.3
Transitions to Sustainable Practices
232
6.9.1.4
Future Directions
237
References
238
7
Sustainable Value Creation Strategies
245
7.1
Why Sustainable Value Creation?
245
7.1.1
Evolving a Strategy for Sustainable Value Creation
245
7.1.1.1
Value Creation Initiatives
246
7.1.1.2
Approach to Create Sustainable Value
247
7.1.1.3
Strategic and Operational Approaches
248
7.2
Innovating for Sustainable Value Creation
249
7.2.1
Innovation in Practice
249
7.2.1.1
Capturing Value Through Innovations
251
7.2.1.2
New business models
253
7.2.1.3
Collaborative Innovation
254
7.2.2
Innovation in Technology, Feedstocks and Materials
255
7.2.2.1
Technology
255
7.2.2.2
Feedstocks
255
7.2.2.3
Materials
256
Contents xiii
7.2.3 Innovation in
Supply Chains
256
7.2.3.1 Chemical Management Systems 256
7.2.3.2 Chemical
Servicing
257
7.2.3.3 Chemical Leasing 257
7.3 Strategie
Cost
Management 257
7.3.1 Strategie
Cost
Management:
A
Key Tool 258
7.3.1.1 Green
Chemistry and
Technology Tools 259
7.3.1.2
Cluster
Models:
A Key to Sustainable Manufacturing
259
7.3.1.3 New
Operating
Models 260
7.3.1.4
Product Portfolio Rationalization
261
7.4
Prognosis for the Future
261
7.4.1
Moving up the Value Chain
261
7.4.1.1
Managing Sustainability Goals
262
ТАЛ.
2
Innovation to Markets
263
7.4.2
Emerging Perspectives in Sustainable Technologies
264
7.4.2.1
Technology Transfer
264
7.4.2.2
Technology Strategy
265
7.4.2.3
Human Resources Development: Shifting Focus
266
7.4.3
Game Changers in the Industry
266
7.4.3.1
Game Changing Technologies
267
7.4.3.2
Power of the Consumer
268
References
270
Index
273 |
any_adam_object | 1 |
author | Rajagopal, R. |
author_facet | Rajagopal, R. |
author_role | aut |
author_sort | Rajagopal, R. |
author_variant | r r rr |
building | Verbundindex |
bvnumber | BV041848553 |
classification_rvk | VN 9200 |
ctrlnum | (OCoLC)881855986 (DE-599)DNB1045628409 |
discipline | Chemie / Pharmazie |
edition | 1. publ. |
format | Book |
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id | DE-604.BV041848553 |
illustrated | Illustrated |
indexdate | 2024-08-03T01:29:08Z |
institution | BVB |
isbn | 9781118539675 1118539672 |
language | English |
oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-027293062 |
oclc_num | 881855986 |
open_access_boolean | |
owner | DE-355 DE-BY-UBR |
owner_facet | DE-355 DE-BY-UBR |
physical | XIX, 281 S. graph. Darst. |
publishDate | 2014 |
publishDateSearch | 2014 |
publishDateSort | 2014 |
publisher | Wiley |
record_format | marc |
spelling | Rajagopal, R. Verfasser aut Sustainable Value Creation in the Fine and Speciality Chemicals Industry R. Rajagopal 1. publ. New York, NY Wiley 2014 XIX, 281 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Grüne Chemie (DE-588)7563215-9 gnd rswk-swf Suchmaschine (DE-588)4423007-2 gnd rswk-swf Chemische Industrie (DE-588)4009848-5 gnd rswk-swf Optimierung (DE-588)4043664-0 gnd rswk-swf Nachhaltigkeit (DE-588)4326464-5 gnd rswk-swf Chemische Industrie (DE-588)4009848-5 s Grüne Chemie (DE-588)7563215-9 s DE-604 Nachhaltigkeit (DE-588)4326464-5 s Suchmaschine (DE-588)4423007-2 s Optimierung (DE-588)4043664-0 s X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=4548776&prov=M&dok_var=1&dok_ext=htm Inhaltstext Digitalisierung UB Regensburg - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027293062&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
spellingShingle | Rajagopal, R. Sustainable Value Creation in the Fine and Speciality Chemicals Industry Grüne Chemie (DE-588)7563215-9 gnd Suchmaschine (DE-588)4423007-2 gnd Chemische Industrie (DE-588)4009848-5 gnd Optimierung (DE-588)4043664-0 gnd Nachhaltigkeit (DE-588)4326464-5 gnd |
subject_GND | (DE-588)7563215-9 (DE-588)4423007-2 (DE-588)4009848-5 (DE-588)4043664-0 (DE-588)4326464-5 |
title | Sustainable Value Creation in the Fine and Speciality Chemicals Industry |
title_auth | Sustainable Value Creation in the Fine and Speciality Chemicals Industry |
title_exact_search | Sustainable Value Creation in the Fine and Speciality Chemicals Industry |
title_full | Sustainable Value Creation in the Fine and Speciality Chemicals Industry R. Rajagopal |
title_fullStr | Sustainable Value Creation in the Fine and Speciality Chemicals Industry R. Rajagopal |
title_full_unstemmed | Sustainable Value Creation in the Fine and Speciality Chemicals Industry R. Rajagopal |
title_short | Sustainable Value Creation in the Fine and Speciality Chemicals Industry |
title_sort | sustainable value creation in the fine and speciality chemicals industry |
topic | Grüne Chemie (DE-588)7563215-9 gnd Suchmaschine (DE-588)4423007-2 gnd Chemische Industrie (DE-588)4009848-5 gnd Optimierung (DE-588)4043664-0 gnd Nachhaltigkeit (DE-588)4326464-5 gnd |
topic_facet | Grüne Chemie Suchmaschine Chemische Industrie Optimierung Nachhaltigkeit |
url | http://deposit.dnb.de/cgi-bin/dokserv?id=4548776&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=027293062&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
work_keys_str_mv | AT rajagopalr sustainablevaluecreationinthefineandspecialitychemicalsindustry |