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Environmental Sustainability and Industries
Technologies for Solid Waste, Wastewater, and Air Treatment
Detailed discussion on the current trends in environmental sustainability techniques, including discussion on the different types of strategies, the various methods of their analysis, and the myriad aspects of environmental sustainability techniques
Pardeep Singh (Edited by), João Paulo Bassin (Edited by), Sanchayita Rajkhowa (Edited by), Chaudhery Mustansar Hussain (Edited by), Ramesh Oraon (Edited by)
9780323900348, Elsevier Science
Paperback / softback, published 9 June 2022
580 pages
23.5 x 19 x 3.6 cm, 1.18 kg
Environmental Sustainability and Industries identifies and discusses critical areas related to environmentally conscious industrial development of products and services that may support more sustainable and equitable societies. This book addresses pollution prevention by referring to the use of processes, practices, and materials that reduce or eliminate the generation of pollutants at the source of production, more efficient use of raw materials, energy, water or other resources, or by conserving natural resources by maintaining clean production. It explains industrial energy efficiency as the most cost-effective use of energy in manufacturing processes, reducing its wastage as well as the total consumption of primary energy resources. Life cycle assessment is used as an analytical method to quantify environmental impacts, focusing on environmental considerations concerning process design and optimization, and including various sustainable manufacturing parameters in the context of industrial processes and proposes a classification of identified parameters to evaluate and optimize the manufacturing performances. The book also dives into industrial ecology, investigating how, where, and why environmental improvements can be made to develop a sustainable industry, meeting the needs of current generations without sacrificing the needs of the future ones. This book analyzes a company’s environmental, social, and economic performance and their interrelationships, emphasizing the importance of identifying and understanding causal relationships between alternative approaches to action and their impact on financial and nonfinancial performance. It concludes with a view on the future of sustainable industrial systems stressing change as a joint effort of scientists, governments, people in business, and academicians.
Part 1. Pollution Prevention and Cleaner Production 1. Processes and Technologies for Water Reuse in the Industry 2. Municipal Water Treatment with Special Emphasis on Biosorption and Nanoparticles 3. Clearing the Air: Technologies for Monitoring and Control of Air Pollution 4. Nanotechnology: An Emerging Strategy for Combating Air Pollution 5. Biochar Based Composting for Sustainable and Eco-friendly Agriculture 6. Sustainable Bio-based Technologies for Waste and Wastewater Treatment Integrated with Value-Added Products 7. Recent Trends in the Application of Biowaste for Hazardous Radioactive Waste Treatment 8. Bio-degradable Plastics as a Substitute to Traditional Polythenes: A Step Towards a Safer Environment 9. Two Dimensional Nanomaterial Based Chemosensors for the Detection of Contaminants in Air and Water Part 2. Industrial Energy Efficiency 10. Nanomaterials in Sustainable Industrial Applications 11. Metal-Organic Framework Based Membranes in Energy Application Part 3. Life Cycle Assessment (LCA) of Industrial Processes 12. Industry and Environmental Life Cycle Assessment: Background and Perspective 13. Process System Engineering and the Development of Tools for Environmental Considerations in the Perspective of Industrial Ecology 14. Life Cycle Assessment of Biorefinery Part 4. Sustainability Assessments of Industry 15. Avoiding Waste and Generating Environmental, Social and Economic Gains Through Industrial Social Ecology Networks 16. Sustainability and Process Intensification in Wastewater Treatment Part 5. Industrial Ecology 17. Industrial Symbiosis and Eco-industrial Parks 18. Process Intensification and Green Engineering in Process Industry 19. Economic Development, Economic Complexity and Environmental Performance: In Search of Common Ground Part 6. Education for Industrial Sustainability 20. Design of Sustainable and Environmentally Friendly Processes for Industries 21. Fruitful Controversies in Sustainable Livestock Production: Beyond the Intensive vs. Extensive Livestock Polarization in Non-Forest Ecosystems Part 7. Corporate Sustainability 22. Sustainable Technologies and Corporate Sustainability
Subject Areas: Waste treatment & disposal [TQSR], Pollution control [TQK], Chemical engineering [TDCB], The environment [RN]
