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This new Handbook provides a series of reference guides to cleaner production methods, technologies, and practices for key industry sectors. Each volume covers, for each industry sector: * the manufacturing technologies * waste management * pollution * methods for estimating and reporting emissions * treatment and control technologies * worker and community health risk exposures * cost data for pollution management * cleaner production and prevention alternatives Best Practices in the Wood and Paper Industries provides an overview of the forestry, wood preserving, pulp and paper industries and identifies the key environmental aspects, supported by case studies of major incidents. It provides general explanations of the major unit operations and processes in pulp and paper mills and wood treating plants, covering new trends alongside traditional methods. The environmental issues regarding air, water and solid waste are all addressed, identifying all US plants and their TRI data, and the authors provide calculation methods for properly accounting for air emissions and P2 practices to reduce them. - Provides guidelines on cleaner production and pollution prevention practices for improving overall environmental performance - Discusses emerging technologies and processes for cleaner air - Contains an Inventory of Chemical Toxicity Properties
This book features in-depth and thorough coverage of Minimum Impact Mill Technologies which can meet the environmental challenges of the pulp and paper industry and also discusses Mills and Fiberlines that encompass “State-of-the-Art” technology and management practices. The minimum impact mill does not mean "zero effluent", nor is it exclusive to one bleaching concept. It is a much bigger concept which means that significant progress must be made in the following areas: Water Management, Internal Chemical Management, Energy Management, Control and Discharge of Non-Process Elements and Removal of Hazardous Pollutants. At the moment, there is no bleached kraft pulp mill operating with zero effluent. With the rise in environmental awareness due to the lobbying by environmental organizations and with increased government regulation there is now a trend towards sustainability in the pulp and paper industry. Sustainable pulp and paper manufacturing requires a holistic view of the manufacturing process. During the last decade, there have been revolutionary technical developments in pulping, bleaching and chemical recovery technology. These developments have made it possible to further reduce loads in effluents and airborne emissions. Thus, there has been a strong progress towards minimum impact mills in the pulp and paper industry. The minimum-impact mill is a holistic manufacturing concept that encompasses environmental management systems, compliance with environmental laws and regulations and manufacturing technologies.
Pulp and Paper Industry: Energy Conservation presents a number of energy-efficient technologies and practices that are cost-effective and available for implementation today. Emerging energy-efficient technologies and future prospects in this field are also dealt with. Qualitative and quantitative results/data on energy savings for various steps of pulp and paper making process are presented. There is no specific book on this topic. This will be a comprehensive reference in the field. - Thorough and in-depth coverage of energy-efficient technologies and practices in paper and pulp industry - Presents cost-effective and available for implementation today technologies - Discusses Biotechnological processes, especially enzymatic processes in the pulp and paper industry to reduce the energy consumption and improve the product quality - Presents qualitative and quantitative results/data on energy savings for various steps of pulp and paper making process
The Handbook of Cleaner Production comprises a series of reference guides to cleaner production methods, technologies, and practices for key industry sectors. Each volume covers, for each industry sector: - Manufacturing technologies - Waste management - Pollution control and remediation - Methods for estimating and reporting emissions - Treatment and control technologies - Health risk exposures for workers and the wider community - Cost data for pollution management - Cleaner production and prevention options - Safe chemical handling practices Best Practices in the Agrochemical Industry includes coverage of pollution of drinking water (atrazine, trichloropropane and DBCP and the risks associated with them, such as miscarriages and infertility), pesticide residues in food, a case study of worker pesticide exposure and cancer, contaminants in organic food, etc. Extensive data is provided regarding regulatory limits for exposure to pesticides according to EPA, NIOSH, OSHA, WHO and ACGIH. - Coverage of agrochemical residues and their health impacts, and mitigation strategies - Includes extensive data tables covering USA and international regulatory requirements (EPA, NIOSH, OSHA, WHO and ACGIH) - Details safer manufacturing processes and procedures to limit pollution
Processing Technology for Bio-Based Polymers: Advanced Strategies and Practical Aspects brings together the latest advances and novel technologies surrounding the synthesis and manufacture of biopolymers, ranging from bio-based polymers to synthetic polymers from bio-derived monomers. Sections examine bio-based polymer chemistry, discuss polymerization process and emerging design technologies, cover manufacturing and processing approaches, explain cutting-edge approaches and innovative applications, and focus on biomedicals and other key application areas. Final chapters provide detailed discussion and an analysis of economic and environmental concerns, practical considerations, challenges, opportunities and future trends. This is a valuable resource for researchers, scientists and advanced students in polymer science, bio-based materials, nanomaterials, plastics engineering, biomaterials, chemistry, biotechnology, and materials science and engineering, as well as R&D professionals, engineers and industrialists interested in the development of biopolymers for advanced products and applications. - Focuses on the processing of bio-based polymers, covering both traditional methods and innovative new approaches - Offers novel opportunities and ideas for developing or improving technologies for biopolymer research, preparation and application - Examines other key considerations, including reliability and end product, economic concerns, and environmental and lifecycle aspects
Energy from Toxic Organic Waste for Heat and Power Generation presents a detailed analysis on using scientific methods to recover and reuse energy from Toxic waste. Dr. Barik and his team of expert authors recognize that there has been a growing rise in the quantum and diversity of toxic waste materials produced by human activity, and as such there is an increasing need to adopt new methods for the safe regeneration and minimization of waste produce around the world. It is predominately broken down into 5 sections: - The first section provides and overview on the Toxic waste generation addressing the main components for the imbalance in ecosystem derived from human activity - The second section sets out ways in which toxic waste can be managed through various methods such as chemical treatment, cracking and Electro-beam treatment - The final 3 sections deliver an insight in to how energy can be extracted and recycled into power from waste energy and the challenges that these may offer This book is essential reference for engineering industry workers and students seeking to adopt new techniques for reducing toxic waste and in turn extracting energy from it whilst complying with pollution control standards from across the world. - Presents techniques which can be adopted to reduce toxic organic waste while complying with regulations and extract useable energy it - Includes case studies of various global industries such as nuclear, medical and research laboratories to further enhance the readers understanding of efficient planning, toxic organic waste reduction methods and energy conversion techniques - Analyses methods of extracting and recycling energy from toxic organic waste products
Innovative Energy Conversion from Biomass Waste offers a new approach to optimizing energy recovery from waste using thermochemical conversion. Instead of conventional pinch technology, the book proposes integrated systems employing exergy recovery and process integration technologies to minimize exergy loss due to entropy generation. This innovative approach is demonstrated in three case studies using high-potential low-rank fuels from industrial waste products with high moisture content, high volatile matter, and high hemicellulose content. From these case studies, readers are provided with three different examples of biomass type, pre-treatment route, and conversion, from fruit bunch cofired within existing coal power plants, black liquor in a stand-alone system, and rice waste processing integrated into existing agricultural systems. Innovative Energy Conversion from Biomass Waste is a valuable resource for researchers and practitioners alike, and will be of interest to environmental scientists, biotechnologists, and chemical engineers working in waste-to-energy and renewable energy. - Provides a new approach to developing systems based on exergy recovery and process integration technologies - Discusses the possible routes of energy recovery in different scenarios from selected low-rank fuels from industrial waste biomass - Includes a replicable and applicable efficiency improvement method for different process developments
Smart Product-Service Systems draws on innovative practice and academic research to demonstrate the unique benefits of Smart PSS and help facilitate its effective implementation. This comprehensive guide explains how Smart PSS reshapes product-service design in several unique aspects, including a closed-loop product design and redesign manner, value co-creation with integrated human-machine intelligence, and solution design context-awareness. Readers in industry as well as academia will find this to be an invaluable guide to the current body of technical knowledge on Smart Product-Service Systems (Smart PSS), future research trajectories, and experiences of implementation. Rapid development of information and communication technologies, artificial intelligence, and digital technologies have driven today's industries towards the so-called digital servitization era. As a result, a promising IT-driven business paradigm, known as Smart Product-Service Systems (Smart PSS) has emerged, where a large amount of low cost, high performance smart, connected products are leveraged, together with their generated on-demand services, as a single solution bundle to meet individual customer needs. - Explains what factors a company needs to consider in their transition towards digital servitization and its advantages - Describes how this field relates to the sustainability movement, and how Smart PSS can be implemented in a sustainable way - Includes detailed case studies from different industries, including DELTA Electronics Inc. Singapore (smart commercialization), COMAC aviation industry (smart manufacturing servitization), and Van High Tech (smart building services)
This new Handbook provides a series of reference guides to cleaner production methods, technologies, and practices for key industry sectors. Each volume covers, for each industry sector: the manufacturing technologies, waste management, pollution, methods for estimating and reporting emissions, treatment and control technologies, worker and community health risk exposures, cost data for pollution management, cleaner production and prevention alternatives Best Practices in the Wood and Paper Industries provides an overview of the forestry, wood preserving, pulp and paper industries and identifies the key environmental aspects, supported by case studies of major incidents. It provides general explanations of the major unit operations and processes in pulp and paper mills and wood treating plants, covering new trends alongside traditional methods. The environmental issues regarding air, water and solid waste are all addressed, identifying all US plants and their TRI data, and the authors provide calculation methods for properly accounting for air emissions and P2 practices to reduce them.