GM Hall
Fish Processing – Sustainability and New Opportunities
Sustainability and New Opportunities
Gebonden Engels 2010 9781405190473
Verwachte levertijd ongeveer 9 werkdagen
Samenvatting
This book seeks to address the challenges facing the international seafood industry via a two pronged approach: by offering the latest information on established technologies and introducing new ideas and technologies. An introductory chapter sets the tone for the book by presenting the background against which fish processing will exist in the near future. Chapter two looks at the environmental and sustainability issues relating to conventional fish processing, including processing efficiency and better use of the outputs currently considered wastes. The impact of mechanisation and computerisation on environmental sustainability is also addressed. Subsequent chapters examine the latest developments in established fish processing technologies such as canning, curing, freezing and chilling, with an emphasis on the environmental aspects of packaging and the process itself. In addition, quality and processing parameters for specific species, including new species, are described.
The second part of the book gives authors the opportunity to introduce the potential technologies and applications of the future to a wider audience. These include fermented products and their acceptance by a wider audience; the utilisation of fish processing by–products as aquaculture feeds; and the use of by–products for bioactive compounds in biomedical, nutraceutical, cosmetic and other applications.
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Inhoudsopgave
Preface
<p>Contributors</p>
<p>1 Introduction: Challenges to the Fish–Processing</p>
<p>Industry in a Resource–Starved World</p>
<p>George M. Hall</p>
<p>1.1 Introduction</p>
<p>1.1.1 Defining sustainability</p>
<p>1.1.2 Sustainable development concepts for FPI</p>
<p>1.2 Sustainability tools</p>
<p>1.2.1 Carbon footprinting</p>
<p>1.2.2 Carbon labelling</p>
<p>1.2.3 Life cycle assessment</p>
<p>1.2.4 The supply chain</p>
<p>1.3 Climate change</p>
<p>1.4 The capture fishery</p>
<p>1.4.1 Current production levels</p>
<p>1.4.2 Future trends and fisheries management</p>
<p>1.5 Contribution of aquaculture</p>
<p>1.5.1 Current production levels</p>
<p>1.5.2 Future trends</p>
<p>1.5.3 Barriers to increased production</p>
<p>1.6 Industrial fish production</p>
<p>1.6.1 Current levels</p>
<p>1.6.2 Future trends</p>
<p>1.6.3 Redefining industrial species </p>
<p>1.7 Implications for the processing industry</p>
<p>1.7.1 Efficiency in processing</p>
<p>1.7.2 Food security and trade</p>
<p>1.7.3 Introducing new food species</p>
<p>1.7.4 Post–harvest losses</p>
<p>1.7.5 Environmental impact of fish processing</p>
<p>1.8 Conclusion: sustainability in the fish–processing industry</p>
<p>References</p>
<p>2 Canning Fish and Fish Products</p>
<p>George M. Hall</p>
<p>2.1 Principles of canning</p>
<p>2.1.1 Thermal destruction of fish–borne bacteria</p>
<p>2.1.2 Quality criteria for thermally processed fish</p>
<p>2.2 Packaging materials</p>
<p>2.2.1 Glass jars</p>
<p>2.2.2 Rigid metal containers</p>
<p>2.2.3 Rigid plastic containers</p>
<p>2.2.4 Flexible containers (pouches)</p>
<p>2.2.5 Environmental issues related to packaging materials</p>
<p>2.3 Processing operations</p>
<p>2.3.1 Pre–processing operations</p>
<p>2.3.2 Heat–processing operations</p>
<p>2.3.3 Post–processing operations</p>
<p>2.3.4 Environmental issues and process optimization</p>
<p>2.4 Canning of specific species</p>
<p>2.4.1 Small pelagics</p>
<p>2.4.2 Tuna and mackerel</p>
<p>2.4.3 Crustacea</p>
<p>2.5 Conclusions</p>
<p>References</p>
<p>3 Preservation by Curing (Drying, Salting and Smoking)</p>
<p>George M. Hall</p>
<p>3.1 Basic relationships</p>
<p>3.1.1 Water activity and spoilage</p>
<p>3.1.2 Product quality</p>
<p>3.2 Drying</p>
<p>3.2.1 Air– or contact drying</p>
<p>3.2.2 Improving the efficiency of drying</p>
<p>3.3 Salting</p>
<p>3.3.1 Wet and dry salting</p>
<p>3.3.2 Quality aspects</p>
<p>3.4 Smoking</p>
<p>3.4.1 The preservative effect</p>
<p>3.4.2 Quality aspects</p>
<p>3.4.3 Smoking systems and equipment</p>
<p>3.4.4 Traditional systems</p>
<p>3.4.5 Fuel wood for traditional fish smoking</p>
<p>3.5 Post–harvest losses in fish smoking</p>
<p>3.5.1 Sustainable livelihoods approach</p>
<p>3.5.2 Assessing post–harvest fisheries losses</p>
<p>3.6 Sustainability issues</p>
<p>References</p>
<p>4 Freezing and Chilling of Fish and Fish Products</p>
<p>George M. Hall</p>
<p>4.1 Introduction</p>
<p>4.1.1 Freezing time calculations</p>
<p>4.1.2 Effect of freezing on micro–organisms and parasites</p>
<p>4.1.3 Physico–chemical effects during freezing</p>
<p>4.1.4 Temperature modelling in fish transportation</p>
<p>4.2 Freezing systems</p>
<p>4.2.1 The refrigeration cycle</p>
<p>4.2.2 Classification of freezers</p>
<p>4.2.3 Air–blast freezers</p>
<p>4.2.4 Immersion freezers</p>
<p>4.2.5 Plate freezers</p>
<p>4.2.6 Cryogenic freezers</p>
<p>4.3 Environmental impact of freezing operations</p>
<p>4.3.1 Energy efficiency of freezing systems</p>
<p>4.3.2 Cold storage systems</p>
<p>4.3.3 Refrigerants and cryogens</p>
<p>4.3.4 New refrigeration techniques</p>
<p>4.3.5 Environmental impact of freezer/cold storage buildings</p>
<p>4.4 Life cycle assessment and the supply chain</p>
<p>References</p>
<p>5 Surimi and Fish Mince Products</p>
<p>George M. Hall</p>
<p>5.1 Introduction</p>
<p>5.1.1 Fish muscle proteins</p>
<p>5.1.2 Important protein properties in surimi processing</p>
<p>5.1.3 Appropriate species for surimi production</p>
<p>5.1.4 Surimi quality and sustainability</p>
<p>5.2 The surimi process</p>
<p>5.2.1 Basic process elements</p>
<p>5.2.2 Energy consumption</p>
<p>5.2.3 Water consumption</p>
<p>5.2.4 By–product development</p>
<p>5.3 Fish mince processing</p>
<p>References</p>
<p>6 Sustainability Impacts of Fish–Processing Operations</p>
<p>George M. Hall</p>
<p>6.1 Introduction</p>
<p>6.2 Sustainability issues</p>
<p>6.2.1 Sustainability and legislation</p>
<p>6.2.2 Energy</p>
<p>6.2.3 Water</p>
<p>6.2.4 Effluents</p>
<p>6.2.5 By–product development</p>
<p>6.3 Individual processes</p>
<p>6.4 Life cycle assessment</p>
<p>6.4.1 Background</p>
<p>6.4.2 Application to fish–processing operations</p>
<p>6.4.3 Development of LCA for fishing activity</p>
<p>6.5 Supply chain analysis</p>
<p>6.6 Cleaner production</p>
<p>6.7 Processing in a changing world</p>
<p>References</p>
<p>7 Sustainability of Fermented Fish Products</p>
<p>S. Kose and George M. Hall</p>
<p>7.1 Introduction</p>
<p>7.2 Principles of the fermentation process</p>
<p>7.2.1 Metabolic activity of LAB</p>
<p>7.2.2 The genera of LAB</p>
<p>7.2.3 Other issues relating to fermentation process</p>
<p>7.2.4 Inhibitory effects of LAB</p>
<p>7.3 Definition and classification of fermented fish products</p>
<p>7.3.1 Definition</p>
<p>7.3.2 Classification</p>
<p>7.4 Types of fermented fish products</p>
<p>7.4.1 European products</p>
<p>7.4.2 South–East Asian products</p>
<p>7.4.3 Fermented fish products of Africa</p>
<p>7.5 Quality and standards of fermented fish products</p>
<p>7.5.1 Salting procedures</p>
<p>7.5.2 Micro–organisms</p>
<p>7.5.3 Fish enzymes</p>
<p>7.5.4 Temperature during fermentation</p>
<p>7.5.5 Nutritional issues</p>
<p>7.5.6 Flavour</p>
<p>7.5.7 Presence of lipids</p>
<p>7.5.8 Colour</p>
<p>7.5.9 Other characteristics</p>
<p>7.6 Safety issues related to fermented fish products</p>
<p>7.6.1 Pathogenic bacteria</p>
<p>7.6.2 Parasites</p>
<p>7.6.3 Histamine and other biogenic amines</p>
<p>7.7 Conclusions</p>
<p>Acknowledgements</p>
<p>References</p>
<p>8 On–board Fish Processing</p>
<p>S. Kose</p>
<p>8.1 Introduction</p>
<p>8.2 On–board processing</p>
<p>8.2.1 Types of plants processing at sea</p>
<p>8.2.2 Tenders</p>
<p>8.2.3 History of on–board processing</p>
<p>8.2.4 Species and products processed at sea</p>
<p>8.3 Advantages of on–board processing</p>
<p>8.4 Quality issues related to on–board processing</p>
<p>8.4.1 Introduction to quality issues for fisheries products</p>
<p>8.4.2 Receiving and handling raw materials</p>
<p>8.4.3 Quality issues during processing</p>
<p>8.4.4 Quality issues during storage and transport</p>
<p>8.5 Sustainable issues</p>
<p>Acknowledgements</p>
<p>References</p>
<p>9 Fishmeal Production and Sustainability</p>
<p>George M. Hall</p>
<p>9.1 Introduction</p>
<p>9.1.1 Fishmeal production</p>
<p>9.1.2 Conversion efficiency of fishmeal and fish oil</p>
<p>9.1.3 Nutritional value of fishmeal and fish oil</p>
<p>9.2 The fishmeal process</p>
<p>9.2.1 Raw material unloading</p>
<p>9.2.2 The cooker</p>
<p>9.2.3 The press</p>
<p>9.2.4 The decanter</p>
<p>9.2.5 Separators and purifiers</p>
<p>9.2.6 Evaporators</p>
<p>9.2.7 The drier</p>
<p>9.2.8 Post–production operations</p>
<p>9.2.9 Conclusions</p>
<p>9.3 Sustainability issues</p>
<p>9.3.1 Energy</p>
<p>9.3.2 Water</p>
<p>9.3.3 Effluents</p>
<p>9.3.4 By–products</p>
<p>9.3.5 Cleaner production</p>
<p>9.3.6 Life cycle assessment of the fishmeal and fish oil process</p>
<p>9.4 Alternatives to fishmeal</p>
<p>9.4.1 Fish silage</p>
<p>9.4.2 Fish protein hydrolysates</p>
<p>9.4.3 Plant–based alternatives to fishmeal</p>
<p>9.5 Conclusions</p>
<p>References</p>
<p>10 Utilization of Fish Processing By–products for Bioactive Compounds</p>
<p>K. Shirai and J. C. Ramirez–Ramirez</p>
<p>10.1 Introduction</p>
<p>10.2 Raw material chemical composition</p>
<p>10.3 Protein hydrolysates and peptides</p>
<p>10.3.1 General aspects and production</p>
<p>10.3.2 FPH composition and use as food ingredient</p>
<p>10.3.3 FPH and peptide applications</p>
<p>10.3.4 Therapeutic and health–promoting properties</p>
<p>10.4 Collagen and gelatin</p>
<p>10.4.1 Extraction conditions of fish collagens and gelatins</p>
<p>10.4.2 Functional properties</p>
<p>10.4.3 Therapeutic properties</p>
<p>10.5 Omega–3 polyunsaturated fatty acid in fish</p>
<p>10.5.1 Composition</p>
<p>10.5.2 Extraction</p>
<p>10.5.3 Therapeutic properties</p>
<p>10.6 Concluding remarks</p>
<p>Acknowledgements</p>
<p>References</p>
<p>11 Life Cycle Assessment of Bulk Packaging Used to Transport</p>
<p>Fresh Fish Products: Case Study</p>
<p>K. S. Williams</p>
<p>11.1 Introduction</p>
<p>11.1.1 Background to UK waste and sustainability</p>
<p>11.2 UK fishing industry</p>
<p>11.2.1 Transportation of fish products</p>
<p>11.2.2 Packaging of fish</p>
<p>11.2.3 Types of packaging</p>
<p>11.3 Life cycle assessment</p>
<p>11.3.1 Methodology</p>
<p>11.4 Case study: Rainbow Seafood EPS and PP fish boxes</p>
<p>11.4.1 Company profile</p>
<p>11.4.2 Context of the study</p>
<p>11.4.3 Methodology</p>
<p>11.5 System design</p>
<p>11.6 Data acquisition</p>
<p>11.7 Life cycle inventory</p>
<p>11.8 Life cycle impact assessment</p>
<p>11.9 Results and recommendations</p>
<p>11.10 Conclusions</p>
<p>Acknowledgement</p>
<p>References</p>
<p>Index</p>
<p>Contributors</p>
<p>1 Introduction: Challenges to the Fish–Processing</p>
<p>Industry in a Resource–Starved World</p>
<p>George M. Hall</p>
<p>1.1 Introduction</p>
<p>1.1.1 Defining sustainability</p>
<p>1.1.2 Sustainable development concepts for FPI</p>
<p>1.2 Sustainability tools</p>
<p>1.2.1 Carbon footprinting</p>
<p>1.2.2 Carbon labelling</p>
<p>1.2.3 Life cycle assessment</p>
<p>1.2.4 The supply chain</p>
<p>1.3 Climate change</p>
<p>1.4 The capture fishery</p>
<p>1.4.1 Current production levels</p>
<p>1.4.2 Future trends and fisheries management</p>
<p>1.5 Contribution of aquaculture</p>
<p>1.5.1 Current production levels</p>
<p>1.5.2 Future trends</p>
<p>1.5.3 Barriers to increased production</p>
<p>1.6 Industrial fish production</p>
<p>1.6.1 Current levels</p>
<p>1.6.2 Future trends</p>
<p>1.6.3 Redefining industrial species </p>
<p>1.7 Implications for the processing industry</p>
<p>1.7.1 Efficiency in processing</p>
<p>1.7.2 Food security and trade</p>
<p>1.7.3 Introducing new food species</p>
<p>1.7.4 Post–harvest losses</p>
<p>1.7.5 Environmental impact of fish processing</p>
<p>1.8 Conclusion: sustainability in the fish–processing industry</p>
<p>References</p>
<p>2 Canning Fish and Fish Products</p>
<p>George M. Hall</p>
<p>2.1 Principles of canning</p>
<p>2.1.1 Thermal destruction of fish–borne bacteria</p>
<p>2.1.2 Quality criteria for thermally processed fish</p>
<p>2.2 Packaging materials</p>
<p>2.2.1 Glass jars</p>
<p>2.2.2 Rigid metal containers</p>
<p>2.2.3 Rigid plastic containers</p>
<p>2.2.4 Flexible containers (pouches)</p>
<p>2.2.5 Environmental issues related to packaging materials</p>
<p>2.3 Processing operations</p>
<p>2.3.1 Pre–processing operations</p>
<p>2.3.2 Heat–processing operations</p>
<p>2.3.3 Post–processing operations</p>
<p>2.3.4 Environmental issues and process optimization</p>
<p>2.4 Canning of specific species</p>
<p>2.4.1 Small pelagics</p>
<p>2.4.2 Tuna and mackerel</p>
<p>2.4.3 Crustacea</p>
<p>2.5 Conclusions</p>
<p>References</p>
<p>3 Preservation by Curing (Drying, Salting and Smoking)</p>
<p>George M. Hall</p>
<p>3.1 Basic relationships</p>
<p>3.1.1 Water activity and spoilage</p>
<p>3.1.2 Product quality</p>
<p>3.2 Drying</p>
<p>3.2.1 Air– or contact drying</p>
<p>3.2.2 Improving the efficiency of drying</p>
<p>3.3 Salting</p>
<p>3.3.1 Wet and dry salting</p>
<p>3.3.2 Quality aspects</p>
<p>3.4 Smoking</p>
<p>3.4.1 The preservative effect</p>
<p>3.4.2 Quality aspects</p>
<p>3.4.3 Smoking systems and equipment</p>
<p>3.4.4 Traditional systems</p>
<p>3.4.5 Fuel wood for traditional fish smoking</p>
<p>3.5 Post–harvest losses in fish smoking</p>
<p>3.5.1 Sustainable livelihoods approach</p>
<p>3.5.2 Assessing post–harvest fisheries losses</p>
<p>3.6 Sustainability issues</p>
<p>References</p>
<p>4 Freezing and Chilling of Fish and Fish Products</p>
<p>George M. Hall</p>
<p>4.1 Introduction</p>
<p>4.1.1 Freezing time calculations</p>
<p>4.1.2 Effect of freezing on micro–organisms and parasites</p>
<p>4.1.3 Physico–chemical effects during freezing</p>
<p>4.1.4 Temperature modelling in fish transportation</p>
<p>4.2 Freezing systems</p>
<p>4.2.1 The refrigeration cycle</p>
<p>4.2.2 Classification of freezers</p>
<p>4.2.3 Air–blast freezers</p>
<p>4.2.4 Immersion freezers</p>
<p>4.2.5 Plate freezers</p>
<p>4.2.6 Cryogenic freezers</p>
<p>4.3 Environmental impact of freezing operations</p>
<p>4.3.1 Energy efficiency of freezing systems</p>
<p>4.3.2 Cold storage systems</p>
<p>4.3.3 Refrigerants and cryogens</p>
<p>4.3.4 New refrigeration techniques</p>
<p>4.3.5 Environmental impact of freezer/cold storage buildings</p>
<p>4.4 Life cycle assessment and the supply chain</p>
<p>References</p>
<p>5 Surimi and Fish Mince Products</p>
<p>George M. Hall</p>
<p>5.1 Introduction</p>
<p>5.1.1 Fish muscle proteins</p>
<p>5.1.2 Important protein properties in surimi processing</p>
<p>5.1.3 Appropriate species for surimi production</p>
<p>5.1.4 Surimi quality and sustainability</p>
<p>5.2 The surimi process</p>
<p>5.2.1 Basic process elements</p>
<p>5.2.2 Energy consumption</p>
<p>5.2.3 Water consumption</p>
<p>5.2.4 By–product development</p>
<p>5.3 Fish mince processing</p>
<p>References</p>
<p>6 Sustainability Impacts of Fish–Processing Operations</p>
<p>George M. Hall</p>
<p>6.1 Introduction</p>
<p>6.2 Sustainability issues</p>
<p>6.2.1 Sustainability and legislation</p>
<p>6.2.2 Energy</p>
<p>6.2.3 Water</p>
<p>6.2.4 Effluents</p>
<p>6.2.5 By–product development</p>
<p>6.3 Individual processes</p>
<p>6.4 Life cycle assessment</p>
<p>6.4.1 Background</p>
<p>6.4.2 Application to fish–processing operations</p>
<p>6.4.3 Development of LCA for fishing activity</p>
<p>6.5 Supply chain analysis</p>
<p>6.6 Cleaner production</p>
<p>6.7 Processing in a changing world</p>
<p>References</p>
<p>7 Sustainability of Fermented Fish Products</p>
<p>S. Kose and George M. Hall</p>
<p>7.1 Introduction</p>
<p>7.2 Principles of the fermentation process</p>
<p>7.2.1 Metabolic activity of LAB</p>
<p>7.2.2 The genera of LAB</p>
<p>7.2.3 Other issues relating to fermentation process</p>
<p>7.2.4 Inhibitory effects of LAB</p>
<p>7.3 Definition and classification of fermented fish products</p>
<p>7.3.1 Definition</p>
<p>7.3.2 Classification</p>
<p>7.4 Types of fermented fish products</p>
<p>7.4.1 European products</p>
<p>7.4.2 South–East Asian products</p>
<p>7.4.3 Fermented fish products of Africa</p>
<p>7.5 Quality and standards of fermented fish products</p>
<p>7.5.1 Salting procedures</p>
<p>7.5.2 Micro–organisms</p>
<p>7.5.3 Fish enzymes</p>
<p>7.5.4 Temperature during fermentation</p>
<p>7.5.5 Nutritional issues</p>
<p>7.5.6 Flavour</p>
<p>7.5.7 Presence of lipids</p>
<p>7.5.8 Colour</p>
<p>7.5.9 Other characteristics</p>
<p>7.6 Safety issues related to fermented fish products</p>
<p>7.6.1 Pathogenic bacteria</p>
<p>7.6.2 Parasites</p>
<p>7.6.3 Histamine and other biogenic amines</p>
<p>7.7 Conclusions</p>
<p>Acknowledgements</p>
<p>References</p>
<p>8 On–board Fish Processing</p>
<p>S. Kose</p>
<p>8.1 Introduction</p>
<p>8.2 On–board processing</p>
<p>8.2.1 Types of plants processing at sea</p>
<p>8.2.2 Tenders</p>
<p>8.2.3 History of on–board processing</p>
<p>8.2.4 Species and products processed at sea</p>
<p>8.3 Advantages of on–board processing</p>
<p>8.4 Quality issues related to on–board processing</p>
<p>8.4.1 Introduction to quality issues for fisheries products</p>
<p>8.4.2 Receiving and handling raw materials</p>
<p>8.4.3 Quality issues during processing</p>
<p>8.4.4 Quality issues during storage and transport</p>
<p>8.5 Sustainable issues</p>
<p>Acknowledgements</p>
<p>References</p>
<p>9 Fishmeal Production and Sustainability</p>
<p>George M. Hall</p>
<p>9.1 Introduction</p>
<p>9.1.1 Fishmeal production</p>
<p>9.1.2 Conversion efficiency of fishmeal and fish oil</p>
<p>9.1.3 Nutritional value of fishmeal and fish oil</p>
<p>9.2 The fishmeal process</p>
<p>9.2.1 Raw material unloading</p>
<p>9.2.2 The cooker</p>
<p>9.2.3 The press</p>
<p>9.2.4 The decanter</p>
<p>9.2.5 Separators and purifiers</p>
<p>9.2.6 Evaporators</p>
<p>9.2.7 The drier</p>
<p>9.2.8 Post–production operations</p>
<p>9.2.9 Conclusions</p>
<p>9.3 Sustainability issues</p>
<p>9.3.1 Energy</p>
<p>9.3.2 Water</p>
<p>9.3.3 Effluents</p>
<p>9.3.4 By–products</p>
<p>9.3.5 Cleaner production</p>
<p>9.3.6 Life cycle assessment of the fishmeal and fish oil process</p>
<p>9.4 Alternatives to fishmeal</p>
<p>9.4.1 Fish silage</p>
<p>9.4.2 Fish protein hydrolysates</p>
<p>9.4.3 Plant–based alternatives to fishmeal</p>
<p>9.5 Conclusions</p>
<p>References</p>
<p>10 Utilization of Fish Processing By–products for Bioactive Compounds</p>
<p>K. Shirai and J. C. Ramirez–Ramirez</p>
<p>10.1 Introduction</p>
<p>10.2 Raw material chemical composition</p>
<p>10.3 Protein hydrolysates and peptides</p>
<p>10.3.1 General aspects and production</p>
<p>10.3.2 FPH composition and use as food ingredient</p>
<p>10.3.3 FPH and peptide applications</p>
<p>10.3.4 Therapeutic and health–promoting properties</p>
<p>10.4 Collagen and gelatin</p>
<p>10.4.1 Extraction conditions of fish collagens and gelatins</p>
<p>10.4.2 Functional properties</p>
<p>10.4.3 Therapeutic properties</p>
<p>10.5 Omega–3 polyunsaturated fatty acid in fish</p>
<p>10.5.1 Composition</p>
<p>10.5.2 Extraction</p>
<p>10.5.3 Therapeutic properties</p>
<p>10.6 Concluding remarks</p>
<p>Acknowledgements</p>
<p>References</p>
<p>11 Life Cycle Assessment of Bulk Packaging Used to Transport</p>
<p>Fresh Fish Products: Case Study</p>
<p>K. S. Williams</p>
<p>11.1 Introduction</p>
<p>11.1.1 Background to UK waste and sustainability</p>
<p>11.2 UK fishing industry</p>
<p>11.2.1 Transportation of fish products</p>
<p>11.2.2 Packaging of fish</p>
<p>11.2.3 Types of packaging</p>
<p>11.3 Life cycle assessment</p>
<p>11.3.1 Methodology</p>
<p>11.4 Case study: Rainbow Seafood EPS and PP fish boxes</p>
<p>11.4.1 Company profile</p>
<p>11.4.2 Context of the study</p>
<p>11.4.3 Methodology</p>
<p>11.5 System design</p>
<p>11.6 Data acquisition</p>
<p>11.7 Life cycle inventory</p>
<p>11.8 Life cycle impact assessment</p>
<p>11.9 Results and recommendations</p>
<p>11.10 Conclusions</p>
<p>Acknowledgement</p>
<p>References</p>
<p>Index</p>
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