| LEADER : 00000nam 2200000uu 4500 |
| 008 200312s2007||||th 000 0 eng d |
| 020 ^a9780123736239 (hd.bd.) |
| 050 00 ^aTD793.9^b.H34 2007 |
| 099 ^aDBTM |
| 100 1 ^aHaggar, Salah el- |
| 245 10 ^aSustainable industrial design and waste management :^bcradle-to-cradle for sustainable development /^cSalah M.El-Haggar |
| 260 ^aAmsterdam ;^aBoston :^bElsevier Academic Press,^cc2007 |
| 300 ^axvii, 401 p. :^bill. ;^c24 cm |
| 504 ^aIncludes bibliographical references (p. 371-386) and index |
| 505 0 ^aChapter 1. Current practice and future sustainability --1.1. Introduction -- 1.2. Waste management -- 1.3. Treatment -- 1.4. Incineration -- 1.5 Landfill. -- 1.6. Zero pollution and 7Rs rule -- 1.7. Life cycle analysis and extended producer responsibility -- 1.8. Cradle-to-cradle concept -- Chapter 2. Cleaner production -- 2.1. Introduction -- 2.2. Promoting cleaner production -- 2.3. Benefits of cleaner production -- 2.4. Obstacles to cleaner production and solutions -- 2.5. Cleaner production techniques -- 2.6. Cleaner production opportunity assessment -- 2.7. Cleaner production case studies -- Chapter 3. Sustainable development and industrial ecology -- 3.1. Introduction -- 3.2. Industrialecology -- 3.3. Industrial ecology barriers -- 3.4. Eco-industrial parks -- 3.5. Recycling economy/circular economy initiatives -- 3.6. Eco-industrial parks case studies -- Chapter 4. Sustainable development and environmental reform -- 4.1. Introduction -- 4.2. Sustainable development proposed framework -- 4.3. Sustainable development tools, indicator, and formula -- 4.4. Sustainable development facilitators -- 4.5. Environmental reform -- 4.6. Environmental reform proposedstructure -- 4.7. Mechanisms for environmental impact assessment -- 4.8. Sustainable development road map -- Chapter 5. Sustainability of municipal solid waste management -- 5.1. Introduction -- 5.2. Transfer stations -- 5.3. Recycling of waste paper -- 5.4. Recycling of plastic waste -- 5.5. Recycling of bones -- 5.6. Recyclingof glass -- 5.7. Foam glass -- 5.8. Recycling of aluminum and tin cans -- 5.9. Recycling of textiles -- 5.10. Recycling of composite packaging materials -- 5.11. Recycling of laminated plastics -- 5.12. Recycling of foodwaste -- 5.13. Rejects -- Chapter 6. Recycling of municipal solid waste rejects -- 6.1. Introduction -- 6.2.Reject technologies -- 6.3. Product development from rejects -- 6.4. Construction materials and their properties -- 6.5. Manhole -- 6.6. Breakwater -- 6.7. Other products -- Chapter 7. Sustainability of agricultural and rural waste management -- 7.1. Introduction -- 7.2. Main technologies for rural communities -- 7.3. Animal fodder -- 7.4. Briquetting -- 7.5. Biogas -- 7.6. Composting -- 7.7. Other applications/technologies -- 7.8. Integrated complex -- 7.9. Agricultural and rural waste management case studies -- Chapter 8. Sustainability of construction and demolition waste management -- 8.1. Introduction -- 8.2. Constructionwaste -- 8.3. Construction waste management guidelines -- 8.4. Demolition waste -- 8.5. Demolition waste management guidelines -- 8.6. Final remarks -- 8.7. Construction waste case studies -- Chapter 9. Sustainability of clinical solid waste management -- 9.1. Introduction -- 9.2. Methodology -- 9.3. Clinical waste management -- 9.4.Disinfection of clinical wastes -- 9.5. Current experienceof clinical wastes -- 9.6. Electron beam technology -- 9.7. Electron beam for sterilization of clinical wastes --Chapter 10. Sustainability of industrial waste management -- 10.1. Introduction -- 10.2. Cement industry -- 10.3. Iron and steel industry case study -- 10.4. Aluminum foundries case study -- 10.5. Drill cuttings, petroleum sector case study -- 10.6. Marble and granite industry case study -- 10.7. Sugarcane industry case study -- 10.8.Tourist industry case study |
| 520 1 ^aSustainable Industrial Design and Waste Management wasinspired by the need to have a text that enveloped awareness and solutions to the ongoing issues and concernsof waste generated from industry. The development of science and technology has increased human capacity to extract resources from nature and it is only recently thatindustries are being held accountable for the detrimental effects the waste they produce has on the environment. Increased governmental research, regulation and corporate accountability are digging up issues pertaining to pollution control and waste treatment and environmental protection.^"--BOOK JACKET |
| 650 0 ^aWaste minimization |
| 650 0 ^aSource reduction (Waste management) |
| 650 0 ^aFactory and trade waste |
| 650 0 ^aIndustrial ecology |
| 999 ^aปวีนา ภู่ทอง |
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