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Front cover; Sustainable Industrial Design and Waste Management; Copyright page; Contents; Acknowledgments; About the author; Introduction; 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; Questions; 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 techniques2.6 Cleaner production opportunity assessment; 2.7 Cleaner production case studies; Questions; 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; Questions; 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 facilitators4.5 Environmental reform; 4.6 Environmental reform proposed structure; 4.7 Mechanisms for environmental impact assessment; 4.8 Sustainable development road map; Questions; 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 waste5.13 Rejects; Questions; 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; Questions; 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 studiesQuestions; 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; Questions; 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 |