Sustainable industrial design and waste management cradle-to-cradle for sustainable development

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Bibliographic Details
Main Author: Haggar, Salah El-
Format: Unknown
Published: Amsterdam Elsevier Academic Press 2007
Online Access:Click Here to View Status and Holdings.
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020 # # |a 9780123736239 (hd.bd.) 
020 # # |a 0123736234 (hd.bd.) 
040 # # |a OHX  |d ITMB 
090 0 0 |a TD793.9  |b .H34 2007 
100 1 # |a Haggar, Salah El- 
245 1 0 |a Sustainable industrial design and waste management  |b cradle-to-cradle for sustainable development  |c Salah M. El-Haggar 
260 # # |a Amsterdam  |b Elsevier Academic Press  |c 2007 
300 # # |a xvii, 401 p.  |b ill.  |c 24 cm 
504 # # |a Includes bibliographical references (p. 371-386) and index 
505 1 # |a Chapter 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. Industrial ecology -- 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 proposed structure -- 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. Recycling of 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 food waste -- 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. Construction waste -- 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 experience of 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 
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