Towards Life Cycle Sustainability Management

<p>PART I: LCSM Approaches</p><p> </p><p>1. Integrating Sustainability Considerations into Product Development: A Practical Tool For Prioritising Social Sustainability Indicators and Experiences From Real Case Application<br><br></p><p>2. A Life Cycle Stakeholder Management Framework For Enhanced Collaboration Between Stakeholders with Competing Interests<br><br></p><p>3. Stakeholder Consultation: What Do Decision Makers in Public Policy and Industry Want To Know Regarding Abiotic Resource Use?<br><br></p><p>4. Life Cycle Management Capability: An Alternative Approach To Sustainability Assessment<br><br></p><p>5. The Sustainability Consortium: A Stakeholder Approach To Improve Consumer Product Sustainability<br><br></p><p>6. A Social Hotspot Database For Acquiring Greater Visibility in Product Supply Chains: Overview and Application To Orange Juice<br><br></p><p>PART II: LCM Methods and Tools</p><p> </p><p>7. A Novel Weighting Method in LCIA and Its Application in Chinese Policy Context<br><br></p><p>8. The Usefulness of an Actor’s Perspective in LCA<br><br></p><p>9. Review on Land Use Considerations in Life Cycle Assessment (LCA): Methodological Perspectives For Marine Ecosystems<br><br></p><p>10. Visual Accounting</p><p> </p><p>11. International Reference Life Cycle Data System(ILCD) Handbook: Review Schemes For Life Cycle Assessment<br><br></p><p>12. Time and Life Cycle Assessment: How To Take Time Into Account in the Inventory Step?<br><br></p><p>13. A Method of Prospective Technological Assessment of Nanotechnological Techniques<br><br></p><p>14. State of the Art Study - How Is Environmental Performance Measured For Buildings/Construction?<br><br></p><p>PART III: Water Footprinting</p><p> </p><p>15. Comparison of Water Footprint For Industrial Products In Japan, China and USA<br><br></p><p>16. Assessment of the Water Footprint of Wheat in México<br><br></p><p>17. Water Footprints in Four Selected Breweries in Nigeria<br><br></p><p>18. Development and Application of a Water Footprint Metric For Agricultural Products and the Food Industry<br><br></p><p>19. LCA Characterisation of Freshwater Use on Human Health and Through Compensation<br><br></p><p>PART IV: LCM Of Processes and Organisations</p><p> </p><p>20. How To Measure and Manage the Life Cycle Greenhouse Gas Impact of a Global Multinational Company<br><br></p><p>21. Best Practice Application of LCM By Retailers To Improve Product Supply Chain Sustainability<br><br></p><p>22. Life Cycle Management Approach To the Design of Large-Scale Resorts<br><br></p><p>23. Greening Events: WasteReduction Through The Integration of Life Cycle Management Into Event Organisation at Esci<br><br></p><p>24. Challenges For Lcas of Complex Systems: The Case of a Large-Scale Precious Metal Refinery Plant</p><p><br>25. Life Cycle Inventory of Pine and Eucalyptus Cellulose Production in Chile: Effect of Process Modifications<br><br></p><p>26. Life Cycle Assessment of the Integrated Solid Waste Management System of Delhi<br><br></p><p>27. LCM of Rainwater Harvesting Systems in Emerging Neighborhoods in Colombia<br><br></p><p>PART V: LCM in the Agriculture and Food Sectors</p><p> </p><p>28. Environmental Profiles of Farm Types in Switzerland Based on LCA<br><br></p><p>29. The Use of Models to Account For the Variability of Agricultural Data<br><br></p><p>30. Modular Extrapolation Approach For Crop LCA - MEXALCA: Global Warming Potential of Different Crops and Its Relationship to the Yield<br><br></p><p>31. Regional Assessment of Waste Flow Eco-Synergy in Food Production: Using Compost and Polluted Ground Water in Mediterranean Horticulture Crops<br><br></p><p>32. Assessing Management Influence on Environmental Impacts Under Uncertainty: A Case Study of Paddy Rice Production in Japan<br><br></p><p>33. Assessing Environmental Sustainability of Different Apple Supply Chains in Northern Italy<br><br></p><p>34. An Effect of CO2 Information Labeling For the Pork Produced With Feed Made From Food Residuals<br></p><p>PART VI: LCM In the Packaging Sector</p><p> </p><p>35. Role of Packaging in LCA of Food Products<br><br></p><p>36. Packaging Legislation and Unintended Consequences: A Case Study on The Necessity of Life Cycle Management<br><br></p><p>37. Carbon Footprint of Beverage Packaging in the United Kingdom<br><br></p><p>38. Enhanced Resource Efficiency With Packaging Steel<br><br></p><p>39. Damage Assessment Model For Freshwater Consumption and a Case Study on PET Bottle Production Applied New Technology For Water Footprint Reduction.-<br><br></p><p>PART VII: LCM in the Energy Sector.-</p><p> </p><p>40. Sustainability Assessment of Biomass Utilisation in East Asian Countries<br><br></p><p>41. Life Cycle Inventory of Physic Nut Biodiesel: Comparison Between the Manual and Mechanized Agricultural Production Systems Practiced in Brazil<br><br></p><p>42. Life Cycle Assessment of Biodiesel Production From Microalgae Oil: Effect of Algae Species and Cultivation System<br><br></p><p>43. Modeling the Inventory of Hydropower Plants Prioritising Social Sustainability Indicators and Experiences From Real Case Application<br><br></p><p>44. Lifecycle Carbon Dioxide Emission and Stock of Domestic Wood Resources Using Material Flow Analysis and Life Cycle Assessment<br><br></p><p>45. Analysis On Correlation Relationship BetweenLife Cycle Greenhouse Gas Emission and Life Cycle Cost of Electricity Generation System For Energy Resources<br><br></p><p>46. Development and Application of a LCA Model For Coal Conversion Products (Coal To Y)<br><br></p><p>PART VIII: LCM in The Electronics and ICT Sectors</p><p> </p><p>47. European LCA Standardization of ICT: Equipment, Networks And Services<br><br></p><p>48. Product Carbon Footprint (PCF) Assessment of a Dell Optiplex 780 Desktop – Results and Recommendations<br><br></p><p>49. State of the Art in Life Cycle Assessment of Laptops and Remaining Challenges On The Component Level: The Case of Integrated Circuits<br><br></p><p>50. The Concept of Monitoring of LCM Results Based on a Refrigerator Case Study<br><br></p><p>51. Life Cycle Management of F-Gas-Free Refrigeration Technology: The Case of F-Gases Free Frozen Dessert Equipments<br><br></p><p>PART IX: LCM in the Mobility Sector</p><p> </p><p>52. Assessment of the Environmental Impacts cf Electric Vehicle Concepts<br><br></p><p>53. A Consistency Analysis of LCA Based Communication and Stakeholders Needs To Improve the Dialogue On New Electric Vehicles<br><br></p><p>54. Design For Environment and Environmental Certificate at Mercedes-Benz Cars<br><br></p><p>55. Implementing Life Cycle Engineering Efficiently Into Automotive Industry Processes<br><br></p>56. Environmental Product Declaration of a Commuter Train</p><p> </p><p>Index</p>