Management Principles of Sustainable Industrial Chemistry

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Opis: Management Principles of Sustainable Industrial Chemistry

Approaching sustainability from the perspectives of engineering and multiple scientific disciplines, this book incorporates the concepts of intergenerational equity and ecological capabilities, while promoting scientific rigor for the analysis of sustainability and the use of appropriate metrics to determine the comparative merits of alternatives. The chapters are organized around the key non-technological themes of sustainable industrial chemistry and provide an overview of the managerial principles to enhance sustainability in the chemicals sector. The book strives to provide an intellectual forum and stimulus for defining the roles chemical engineers can play in achieving sustainable development. Suitable for industry and graduate education, this is the one-stop guide to greener, cleaner, economically viable and more efficient chemical industries.Preface XIII List of Contributors XV Part I Introductory Section 1 1 Editorial Introduction 3 Genserik L.L. Reniers, Kenneth S¨orensen, and Karl Vrancken 1.1 From Industrial to Sustainable Chemistry, a Policy Perspective 4 1.2 Managing Intraorganizational Sustainability 5 1.3 Managing Horizontal Interorganizational Sustainability 5 1.4 Managing Vertical Interorganizational Sustainability 6 1.5 Sustainable Chemistry in a Societal Context 6 2 History and Drivers of Sustainability in the Chemical Industry 7 Dicksen Tanzil and Darlene Schuster 2.1 The Rise of Public Pressure 7 2.1.1 The Environmental Movement 8 2.1.2 A Problem of Public Trust 9 2.2 Industry Responded 10 2.2.1 The Responsible Care Program 10 2.2.2 Technology Development 12 2.2.3 Corporate Sustainability Strategies 14 2.3 An Evolving Framework 15 2.3.1 New Issues and Regulations 15 2.3.2 Sustainability as an Opportunity 16 2.3.3 Recent Industry Trends 16 2.4 Conclusions: the Sustainability Drivers 18 References 18 3 From Industrial to Sustainable Chemistry, a Policy Perspective 21 Karl Vrancken and Frank Nevens 3.1 Introduction 21 3.2 Integrated Pollution Prevention and Control 22 3.2.1 Environmental Policy for Industrial Emissions 22 3.2.2 Best Available Techniques and BREFs 23 3.2.3 Integrated Pollution Prevention and Control in the Chemical Sector 24 3.3 From IED to Voluntary Systems 25 3.4 Sustainability Challenges for Industry 26 3.4.1 Introduction 26 3.4.2 Policy Drivers for Sustainable Chemistry 27 3.4.3 Transition Concept 28 3.5 Conclusion 30 References 31 4 Sustainable Industrial Chemistry from a Nontechnological Viewpoint 33 Genserik L.L. Reniers, Kenneth S¨orensen, and Karl Vrancken 4.1 Introduction 33 4.2 Intraorganizational Management for Enhancing Sustainability 36 4.3 Horizontal Interorganizational Management for Enhancing Sustainability 37 4.4 Vertical Interorganizational Management for Enhancing Sustainability 38 4.5 Sustainable Chemistry in a Societal Context 39 4.6 Conclusions 40 References 41 Part II Managing Intra-Organizational Sustainability 43 5 Building Corporate Social Responsibility -- Developing a Sustainability Management System Framework 45 Stefan Maas, Genserik L.L. Reniers, and Marijke De Prins 5.1 Introduction 45 5.2 Development of a CSR Management System Framework 47 5.2.1 Management Knowledge and Commitment (Soft Factor) 49 5.2.2 Stakeholder Knowledge and Commitment (Soft Factor) 49 5.2.3 Strategic Planning -- the Choice of Sustainable Strategic Pillars (Hard Factor) 50 5.2.4 Knowledge and Commitment from the Workforce (Soft Factor) 50 5.2.5 Operational Planning, Execution, and Monitoring (Hard Factor) 51 5.3 Conclusions 52 References 52 6 Sustainability Assessment Methods and Tools 55 Steven De Meester, Geert Van der Vorst, Herman Van Langenhove, and Jo Dewulf 6.1 Introduction 55 6.2 Sustainability Assessment Framework 56 6.3 Impact Indicators and Assessment Methodologies 59 6.3.1 Environmental Impact Assessment 62 6.3.1.1 Emission Impact Indicators 62 6.3.1.2 Resource Impact Indicators 68 6.3.1.3 Technology Indicators 71 6.3.1.4 Assessment Methodologies 72 6.3.2 Economic Impact Assessment 75 6.3.2.1 Economic Impact Indicators 76 6.3.2.2 Assessment Methodologies 76 6.3.3 Social Impact Assessment 77 6.3.3.1 Social Impact Indicators 78 6.3.3.2 Assessment Methodologies 79 6.3.4 Multidimensional Assessment 79 6.3.5 Interpretation 81 6.4 Conclusions 81 References 82 7 Integrated Business and SHESE Management Systems 89 Kathleen Van Heuverswyn and Genserik L.L. Reniers 7.1 Introduction 89 7.2 Requirements for Integrating Management Systems 90 7.3 Integrating Management Systems: Obstacles and Advantages 92 7.4 Integrated Risk Management Models 95 7.4.1 FERMA Risk Management Standard 2003 95 7.4.2 Australian/New Zealand Norm AS/NZS 4360:2004 96 7.4.3 ISO 31000:2009 97 7.4.4 The Canadian Integrated Risk Management Framework (IRM Framework) 98 7.5 Characteristics and Added Value of an Integrated Model; Integrated Management in Practice 100 7.6 Conclusions 103 References 103 8 Supporting Process Design by a Sustainability KPIs Methodology 105 Alessandro Tugnoli, Valerio Cozzani, and Francesco Santarelli 8.1 Introduction 105 8.2 Quantitative Assessment of Sustainability KPIs in Process Design Activities 107 8.3 Identification of Relevant KPIs: the "Tree of Impacts" 111 8.4 Criteria for Normalization and Aggregation of the KPIs 121 8.5 Customization and Sensitivity Analysis in Early KPI Assessment 123 8.6 Conclusions 128 References 128 Part III Managing Horizontal Interorganizational Sustainability 131 9 Industrial Symbiosis and the Chemical Industry: between Exploration and Exploitation 133 Frank Boons 9.1 Introduction 133 9.2 Understanding Industrial Symbiosis 134 9.2.1 Industrial Symbiosis Leads to Decreased Ecological Impact 135 9.2.2 Industrial Symbiosis Requires a Highly Developed Social Network 136 9.2.3 The Regional Cluster Is the Preferred Boundary for Optimizing Ecological Impact 136 9.3 Resourcefulness 137 9.4 Putting Resourcefulness to the Test 138 9.4.1 Petrochemical Cluster in the Rotterdam Harbor Area 138 9.4.2 Terneuzen 139 9.4.3 Moerdijk 141 9.5 Conclusions 142 References 144 10 Cluster Management for Improving Safety and Security in Chemical Industrial Areas 147 Genserik L.L. Reniers 10.1 Introduction 147 10.2 Cluster Management 148 10.3 Cross-Organizational Learning on Safety and Security 150 10.3.1 Knowledge Transfer 150 10.3.2 Overcoming Confidentiality Hurdles: the Multi-Plant Council (MPC) 151 10.3.3 A Cluster Management Model for Safety and Security 152 10.4 Discussion 157 10.5 Conclusions 158 References 159 Part IV Managing Vertical Inter-Organizational Sustainability 161 11 Sustainable Chemical Logistics 163 Kenneth S¨orensen and Christine Vanovermeire 11.1 Introduction 163 11.2 Sustainability of Logistics and Transportation 165 11.3 Improving Sustainability of Logistics in the Chemical Sector 166 11.3.1 Optimization 167 11.3.2 Coordinated Supply Chain Management 170 11.3.3 Horizontal Collaboration 171 11.3.4 Multimodal, Intermodal and Co-Modal Transportation 174 11.4 Conclusions 178 References 179 12 Implementing Service-Based Chemical Supply Relationship -- Chemical Leasing(R) -- Potential in EU 181 Bart P.A. Van der Velpen and Marianne J.J. Hoppenbrouwers 12.1 Introduction 181 12.2 Basic Principles of Chemical Leasing (ChL) 182 12.3 Differences between Chemical Leasing and Other Alternative Business Models for Chemicals 186 12.3.1 Classical Leasing 186 12.3.2 Chemical Management Services 186 12.3.3 Outsourcing 187 12.4 Practical Implications of Chemical Leasing 187 12.4.1 Strengths and Opportunities for the Supplier 189 12.4.2 Strengths and Opportunities for the Customer 190 12.5 Economic, Technical, and Juridical Aspects of Chemical Leasing 191 12.5.1 An Example 191 12.5.2 Barriers to the Model 191 12.5.3 Analysis of the Legal Requirements Impacting Chemical Leasing Projects 193 12.5.3.1 The Importance of Contracts 193 12.5.3.2 Competition Law and Chemical Leasing 194 12.5.3.3 REACH and Chemical Leasing 195 12.5.3.4 Legal Aspects, a Bottleneck? 196 12.6 Conclusions and Recommendations 197 References 198 13 Sustainable Chemical Warehousing 199 Kenneth S¨orensen, Gerrit K. Janssens, Mohamed Lasgaa, and Frank Witlox 13.1 Introduction 199 13.2 Risk Management in the Chemical Warehouse 200 13.2.1 Hazard Identification 200 13.2.2 Quantifying Risk: Probabilities and Consequences 205 13.2.3 Mitigation Strategies 209 13.2.3.1 Minimize Risk 209 13.2.3.2 Transfer Risk 211 13.2.3.3 Accept Risk 213 13.2.4 Control and Documentation 213 13.3 Conclusions 214 References 214 Part V Sustainable Chemistry in a Societal Context 215 14 A Transition Perspective on Sustainable Chemistry: the Need for Smart Governance? 217 Derk A. Loorbach 14.1 Introduction 217 14.2 A Transitions Perspective on Chemical Industry 219 14.3 A Tale of Two Pathways 223 14.4 Critical Issues in the Transition Management to Sustainable Chemistry 225 14.5 Governance Strategies for a Transition to a Sustainable Chemistry 227 14.6 Conclusions and Reflections 230 References 231 15 The Flemish Chemical Industry Transition toward Sustainability: the "FISCH" Experience 233 Luc Van Ginneken and Frans Dieryck 15.1 Introduction 233 15.1.1 Societal Chemistry 233 15.1.2 The Belgian and Flemish Chemical and Life Sciences Industry in a Global Context 233 15.1.3 The Challenge of Sustainable Development for the Chemical Industry in Flanders 234 15.2 Transition of the Chemical Industry in Flanders: the "FISCH" Initiative 236 15.2.1 Setting the Scene: the "FISCH" Feasibility Study 236 15.2.2 Outcome of the Study -- Goals and Overall Setup of "FISCH" 237 15.2.2.1 Vision, Mission, and Setup of FISCH 237 15.2.2.2 FISCH in a Flemish and European Context 241 15.2.2.3 Added Value of "FISCH" and Spillover Effects 242 15.2.3 Putting It All into Practice: Implementing "FISCH" 243 15.3 Concluding Remarks and Lessons Learned 244 Acknowledgments 245 References 245 16 The Transition to a Bio-Based Chemical Industry: Transition Management from a Geographical Point of View 247 Nele D'Haese 16.1 Introduction 247 16.2 Composition of the Chemical Clusters in Antwerp, Ghent, Rotterdam, and Terneuzen 249 16.2.1 The Rhine--Scheldt Delta 249 16.2.2 Past and Present of the Petrochemical Industry in the Ports of Antwerp, Ghent, Rotterdam, and Terneuzen 250 16.3 Regional Innovation Projects to Strengthen the Transition to a Bio-Based Chemical Industry 254 16.3.1 First Step: Substitution of Fossil Resources by Bio-Based Feedstocks Making Use of Vested Technologies 254 16.3.2 Second Step: Development of a New Technological Paradigm for the Production of Second-Generation Bio-Based Products 257 16.3.3 Third Step: Closing Material Loops 258 16.4 Conclusions 259 References 262 Part VI Conclusions and Recommendations 265 17 Conclusions and Recommendations 267 Genserik L.L. Reniers, Kenneth S¨orensen, and Karl Vrancken Index 269


Szczegóły: Management Principles of Sustainable Industrial Chemistry

Tytuł: Management Principles of Sustainable Industrial Chemistry
Producent: VCH
ISBN: 9783527330997
Rok produkcji: 2013
Ilość stron: 280
Oprawa: Twarda
Waga: 0.78 kg


Recenzje: Management Principles of Sustainable Industrial Chemistry

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Management Principles of Sustainable Industrial Chemistry

  • Producent: VCH
  • Oprawa: Twarda

Approaching sustainability from the perspectives of engineering and multiple scientific disciplines, this book incorporates the concepts of intergenerational equity and ecological capabilities, while promoting scientific rigor for the analysis of sustainability and the use of appropriate metrics to determine the comparative merits of alternatives. The chapters are organized around the key non-technological themes of sustainable industrial chemistry and provide an overview of the managerial principles to enhance sustainability in the chemicals sector. The book strives to provide an intellectual forum and stimulus for defining the roles chemical engineers can play in achieving sustainable development. Suitable for industry and graduate education, this is the one-stop guide to greener, cleaner, economically viable and more efficient chemical industries.Preface XIII List of Contributors XV Part I Introductory Section 1 1 Editorial Introduction 3 Genserik L.L. Reniers, Kenneth S¨orensen, and Karl Vrancken 1.1 From Industrial to Sustainable Chemistry, a Policy Perspective 4 1.2 Managing Intraorganizational Sustainability 5 1.3 Managing Horizontal Interorganizational Sustainability 5 1.4 Managing Vertical Interorganizational Sustainability 6 1.5 Sustainable Chemistry in a Societal Context 6 2 History and Drivers of Sustainability in the Chemical Industry 7 Dicksen Tanzil and Darlene Schuster 2.1 The Rise of Public Pressure 7 2.1.1 The Environmental Movement 8 2.1.2 A Problem of Public Trust 9 2.2 Industry Responded 10 2.2.1 The Responsible Care Program 10 2.2.2 Technology Development 12 2.2.3 Corporate Sustainability Strategies 14 2.3 An Evolving Framework 15 2.3.1 New Issues and Regulations 15 2.3.2 Sustainability as an Opportunity 16 2.3.3 Recent Industry Trends 16 2.4 Conclusions: the Sustainability Drivers 18 References 18 3 From Industrial to Sustainable Chemistry, a Policy Perspective 21 Karl Vrancken and Frank Nevens 3.1 Introduction 21 3.2 Integrated Pollution Prevention and Control 22 3.2.1 Environmental Policy for Industrial Emissions 22 3.2.2 Best Available Techniques and BREFs 23 3.2.3 Integrated Pollution Prevention and Control in the Chemical Sector 24 3.3 From IED to Voluntary Systems 25 3.4 Sustainability Challenges for Industry 26 3.4.1 Introduction 26 3.4.2 Policy Drivers for Sustainable Chemistry 27 3.4.3 Transition Concept 28 3.5 Conclusion 30 References 31 4 Sustainable Industrial Chemistry from a Nontechnological Viewpoint 33 Genserik L.L. Reniers, Kenneth S¨orensen, and Karl Vrancken 4.1 Introduction 33 4.2 Intraorganizational Management for Enhancing Sustainability 36 4.3 Horizontal Interorganizational Management for Enhancing Sustainability 37 4.4 Vertical Interorganizational Management for Enhancing Sustainability 38 4.5 Sustainable Chemistry in a Societal Context 39 4.6 Conclusions 40 References 41 Part II Managing Intra-Organizational Sustainability 43 5 Building Corporate Social Responsibility -- Developing a Sustainability Management System Framework 45 Stefan Maas, Genserik L.L. Reniers, and Marijke De Prins 5.1 Introduction 45 5.2 Development of a CSR Management System Framework 47 5.2.1 Management Knowledge and Commitment (Soft Factor) 49 5.2.2 Stakeholder Knowledge and Commitment (Soft Factor) 49 5.2.3 Strategic Planning -- the Choice of Sustainable Strategic Pillars (Hard Factor) 50 5.2.4 Knowledge and Commitment from the Workforce (Soft Factor) 50 5.2.5 Operational Planning, Execution, and Monitoring (Hard Factor) 51 5.3 Conclusions 52 References 52 6 Sustainability Assessment Methods and Tools 55 Steven De Meester, Geert Van der Vorst, Herman Van Langenhove, and Jo Dewulf 6.1 Introduction 55 6.2 Sustainability Assessment Framework 56 6.3 Impact Indicators and Assessment Methodologies 59 6.3.1 Environmental Impact Assessment 62 6.3.1.1 Emission Impact Indicators 62 6.3.1.2 Resource Impact Indicators 68 6.3.1.3 Technology Indicators 71 6.3.1.4 Assessment Methodologies 72 6.3.2 Economic Impact Assessment 75 6.3.2.1 Economic Impact Indicators 76 6.3.2.2 Assessment Methodologies 76 6.3.3 Social Impact Assessment 77 6.3.3.1 Social Impact Indicators 78 6.3.3.2 Assessment Methodologies 79 6.3.4 Multidimensional Assessment 79 6.3.5 Interpretation 81 6.4 Conclusions 81 References 82 7 Integrated Business and SHESE Management Systems 89 Kathleen Van Heuverswyn and Genserik L.L. Reniers 7.1 Introduction 89 7.2 Requirements for Integrating Management Systems 90 7.3 Integrating Management Systems: Obstacles and Advantages 92 7.4 Integrated Risk Management Models 95 7.4.1 FERMA Risk Management Standard 2003 95 7.4.2 Australian/New Zealand Norm AS/NZS 4360:2004 96 7.4.3 ISO 31000:2009 97 7.4.4 The Canadian Integrated Risk Management Framework (IRM Framework) 98 7.5 Characteristics and Added Value of an Integrated Model; Integrated Management in Practice 100 7.6 Conclusions 103 References 103 8 Supporting Process Design by a Sustainability KPIs Methodology 105 Alessandro Tugnoli, Valerio Cozzani, and Francesco Santarelli 8.1 Introduction 105 8.2 Quantitative Assessment of Sustainability KPIs in Process Design Activities 107 8.3 Identification of Relevant KPIs: the "Tree of Impacts" 111 8.4 Criteria for Normalization and Aggregation of the KPIs 121 8.5 Customization and Sensitivity Analysis in Early KPI Assessment 123 8.6 Conclusions 128 References 128 Part III Managing Horizontal Interorganizational Sustainability 131 9 Industrial Symbiosis and the Chemical Industry: between Exploration and Exploitation 133 Frank Boons 9.1 Introduction 133 9.2 Understanding Industrial Symbiosis 134 9.2.1 Industrial Symbiosis Leads to Decreased Ecological Impact 135 9.2.2 Industrial Symbiosis Requires a Highly Developed Social Network 136 9.2.3 The Regional Cluster Is the Preferred Boundary for Optimizing Ecological Impact 136 9.3 Resourcefulness 137 9.4 Putting Resourcefulness to the Test 138 9.4.1 Petrochemical Cluster in the Rotterdam Harbor Area 138 9.4.2 Terneuzen 139 9.4.3 Moerdijk 141 9.5 Conclusions 142 References 144 10 Cluster Management for Improving Safety and Security in Chemical Industrial Areas 147 Genserik L.L. Reniers 10.1 Introduction 147 10.2 Cluster Management 148 10.3 Cross-Organizational Learning on Safety and Security 150 10.3.1 Knowledge Transfer 150 10.3.2 Overcoming Confidentiality Hurdles: the Multi-Plant Council (MPC) 151 10.3.3 A Cluster Management Model for Safety and Security 152 10.4 Discussion 157 10.5 Conclusions 158 References 159 Part IV Managing Vertical Inter-Organizational Sustainability 161 11 Sustainable Chemical Logistics 163 Kenneth S¨orensen and Christine Vanovermeire 11.1 Introduction 163 11.2 Sustainability of Logistics and Transportation 165 11.3 Improving Sustainability of Logistics in the Chemical Sector 166 11.3.1 Optimization 167 11.3.2 Coordinated Supply Chain Management 170 11.3.3 Horizontal Collaboration 171 11.3.4 Multimodal, Intermodal and Co-Modal Transportation 174 11.4 Conclusions 178 References 179 12 Implementing Service-Based Chemical Supply Relationship -- Chemical Leasing(R) -- Potential in EU 181 Bart P.A. Van der Velpen and Marianne J.J. Hoppenbrouwers 12.1 Introduction 181 12.2 Basic Principles of Chemical Leasing (ChL) 182 12.3 Differences between Chemical Leasing and Other Alternative Business Models for Chemicals 186 12.3.1 Classical Leasing 186 12.3.2 Chemical Management Services 186 12.3.3 Outsourcing 187 12.4 Practical Implications of Chemical Leasing 187 12.4.1 Strengths and Opportunities for the Supplier 189 12.4.2 Strengths and Opportunities for the Customer 190 12.5 Economic, Technical, and Juridical Aspects of Chemical Leasing 191 12.5.1 An Example 191 12.5.2 Barriers to the Model 191 12.5.3 Analysis of the Legal Requirements Impacting Chemical Leasing Projects 193 12.5.3.1 The Importance of Contracts 193 12.5.3.2 Competition Law and Chemical Leasing 194 12.5.3.3 REACH and Chemical Leasing 195 12.5.3.4 Legal Aspects, a Bottleneck? 196 12.6 Conclusions and Recommendations 197 References 198 13 Sustainable Chemical Warehousing 199 Kenneth S¨orensen, Gerrit K. Janssens, Mohamed Lasgaa, and Frank Witlox 13.1 Introduction 199 13.2 Risk Management in the Chemical Warehouse 200 13.2.1 Hazard Identification 200 13.2.2 Quantifying Risk: Probabilities and Consequences 205 13.2.3 Mitigation Strategies 209 13.2.3.1 Minimize Risk 209 13.2.3.2 Transfer Risk 211 13.2.3.3 Accept Risk 213 13.2.4 Control and Documentation 213 13.3 Conclusions 214 References 214 Part V Sustainable Chemistry in a Societal Context 215 14 A Transition Perspective on Sustainable Chemistry: the Need for Smart Governance? 217 Derk A. Loorbach 14.1 Introduction 217 14.2 A Transitions Perspective on Chemical Industry 219 14.3 A Tale of Two Pathways 223 14.4 Critical Issues in the Transition Management to Sustainable Chemistry 225 14.5 Governance Strategies for a Transition to a Sustainable Chemistry 227 14.6 Conclusions and Reflections 230 References 231 15 The Flemish Chemical Industry Transition toward Sustainability: the "FISCH" Experience 233 Luc Van Ginneken and Frans Dieryck 15.1 Introduction 233 15.1.1 Societal Chemistry 233 15.1.2 The Belgian and Flemish Chemical and Life Sciences Industry in a Global Context 233 15.1.3 The Challenge of Sustainable Development for the Chemical Industry in Flanders 234 15.2 Transition of the Chemical Industry in Flanders: the "FISCH" Initiative 236 15.2.1 Setting the Scene: the "FISCH" Feasibility Study 236 15.2.2 Outcome of the Study -- Goals and Overall Setup of "FISCH" 237 15.2.2.1 Vision, Mission, and Setup of FISCH 237 15.2.2.2 FISCH in a Flemish and European Context 241 15.2.2.3 Added Value of "FISCH" and Spillover Effects 242 15.2.3 Putting It All into Practice: Implementing "FISCH" 243 15.3 Concluding Remarks and Lessons Learned 244 Acknowledgments 245 References 245 16 The Transition to a Bio-Based Chemical Industry: Transition Management from a Geographical Point of View 247 Nele D'Haese 16.1 Introduction 247 16.2 Composition of the Chemical Clusters in Antwerp, Ghent, Rotterdam, and Terneuzen 249 16.2.1 The Rhine--Scheldt Delta 249 16.2.2 Past and Present of the Petrochemical Industry in the Ports of Antwerp, Ghent, Rotterdam, and Terneuzen 250 16.3 Regional Innovation Projects to Strengthen the Transition to a Bio-Based Chemical Industry 254 16.3.1 First Step: Substitution of Fossil Resources by Bio-Based Feedstocks Making Use of Vested Technologies 254 16.3.2 Second Step: Development of a New Technological Paradigm for the Production of Second-Generation Bio-Based Products 257 16.3.3 Third Step: Closing Material Loops 258 16.4 Conclusions 259 References 262 Part VI Conclusions and Recommendations 265 17 Conclusions and Recommendations 267 Genserik L.L. Reniers, Kenneth S¨orensen, and Karl Vrancken Index 269

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Szczegóły: Management Principles of Sustainable Industrial Chemistry

Tytuł: Management Principles of Sustainable Industrial Chemistry
Producent: VCH
ISBN: 9783527330997
Rok produkcji: 2013
Ilość stron: 280
Oprawa: Twarda
Waga: 0.78 kg


Recenzje: Management Principles of Sustainable Industrial Chemistry

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