A rapidly growing population, industrialization, modernization, luxury life style, and overall urbanization are associated with the generation of enhanced wastes. The inadequate management of the ever-growing amount of waste has degraded the quality of the natural resources on a regional, state, and country basis, and consequently threatens public health as well as global environmental security. Therefore, there is an existent demand for the improvement of sustainable, efficient, and low-cost technologies to monitor and properly manage the huge quantities of waste and convert these wastes into energy sources. Innovative Waste Management Technologies for Sustainable Development is an essential reference source that discusses management of different types of wastes and provides relevant theoretical frameworks about new waste management technologies for the control of air, water, and soil pollution. This publication also explores the innovative concept of waste-to-energy and its application in safeguarding the environment. Featuring research on topics such as pollution management, vermicomposting, and crude dumping, this book is ideally designed for environmentalists, policymakers, professionals, researchers, scientists, industrialists, and environmental agencies.

This book addresses the developing area of biomass for technological applications. Written by leading researchers in the field, the book differs from other literature available by providing a detailed, in-depth discussion of the characteristics of these materials. The use of biomass for technological applications is a rapidly growing area in materials engineering and green bioprocesses. In this approach, pre-treatments focus on the bioavailability of nutrients and facilitate the use of biomass for delivering byproducts (e.g. enzymes) and for bioenergy production, both of which are discussed at length in this book. In this regard, it explores various aspects of the structural complexity of residual biomass produced by agricultural, industrial and livestock activities for biotechnological purposes, and assesses both conventional and emerging pre-treatments (e.g. biological, enzymatic and physical-chemical). This book reveals the advantages of these techniques, both individually and in combination, making it an excellent resource for all readers interested in cutting-edge applications of biomass.

This book reviews the consequences of improper disposal of greywater into the environment and the most appropriate treatment technologies for developing countries, focusing on the potential to reuse greywater as a production medium for biomass and bio-products. It also describes the quantities and qualitative characteristics, as well as the common practice of discharging greywater in developing countries, and highlights the associated health risks. Further, it compares the management of greywater in developed and developing countries and explores the advantages and disadvantages of various treatment technologies, discussing the reuse of greywater for irrigation purposes in arid and sub-arid countries, especially in the Middle East. The book shows the benefits of greywater and introduces low-cost technologies based on the available local facilities can be used to discharge, reuse, and recycle it.

This book aims to identify the challenges presented by current urban environmental governance practices in fast growing Indian cities, to propose changes to the current governance implementation strategies, and to explore the best practices to achieve sustainable urban models through Indian and global perspectives. With a focus on the city of Bengaluru, the book draws on extensive reviews of literature and data to present current trends and statuses of environmental resource use in growing urban centres of India.The book analyzes the situations that impact urban environmental governance decisions and outcomes and proposes solutions to address these issues for long-term sustainability. Policy makers, researchers, academics and development practitioners in environmental politics and urban governance will find this work of great interest. The book starts by examining different urban environmental threats on global and domestic levels, and provides evidence for the effectiveness of sustainable efforts to curb the impact of crisis-like scenarios. Then the book discusses the role of institutional regimes in influencing urban environmental outcomes through policies, and analyzes the role of various actors in the evolution of urban environmental governance from a legal perspective at global and local scales. In the final chapters, the book explores the trends and status of environmental resource management in Bangalore Metropolitan Area (BMA), and examines the dynamics of local institutions and governance structures for regulating environmental governance for promoting effective sustainable environmental governance in Bengaluru.

This book comprehensively introduces fundamentals and applications of fermentative hydrogen production from organic wastes, consisting of eight chapters, covering the microbiology, biochemistry and enzymology of hydrogen production, the enrichment of hydrogen-producing microorganisms, the pretreatment of various organic wastes for hydrogen production, the influence of different physicochemical factors on hydrogen production, the kinetic models and simulation of biological process of fermentative hydrogen production, the optimization of biological hydrogen production process and the fermentative hydrogen production from sewage sludge. The book summarizes the most recent advances that have been made in this field and discusses bottlenecks of further development. This book gives a holistic picture of this technology and details the knowledge through illustrative diagrams, flow charts, and comprehensive tables. It is intended for undergraduate and graduate students who are interested in bioenergy and wastes management, researchers exploring microbial fermentation process, and engineers working on system optimization or other bioenergy applications.

Generating waste is a human condition. There is, however, very little real knowledge about this important issue, as the mishandling of wastes threatens lives and the environment. Therefore, I strongly recommend Professor Gillespie's book, as it is an in-depth, extremely competent holistic overview of waste which covers both its management, and its economic impact. The language is accessible to all interested in these issues, and the book gives a unique insight into waste policy, with great attention to detail that showcases Gillespie's vast knowledge in all environmental matters.' - Malgosia Fitzmaurice, Queen Mary University of London, UK'Nature knows no waste, only humans do. The modern industrial world seems to have forgotten that natural and human systems are inextricably linked. Waste has been externalized causing huge environmental, economic and social costs. This book aims for reversing the trend. Taking a comparative and contextual perspective, Gillespie shows how smart policies can lead to minimizing waste and to creating material flows consistent with ecological flows. An important book, rich in detail, very accessible and with a powerful message.' - Klaus Bosselmann, University of Auckland, New Zealand From human waste to nuclear waste, the question of how we must manage what we no longer want, in terms of either recycling or disposal, is one of the most pressing issues in environmental law. Alexander Gillespie addresses the gaps in previous literature by incorporating economics, philosophy and the ideal of sustainable development in order to provide context to the surrounding legal and policy considerations for the management of waste. The book's premise is that all forms of waste are expanding exponentially, and are often of a hazardous nature. The author examines the size of the problem, considers how it is evolving, and assesses the legal and political implications. He then shows that existing solutions to reducing consumption and recycling are limited, and concludes by discussing potential ways forward. Students and scholars with an interest in environmental law at the national, regional and international level will find this book to be of use. The book will also be of interest to practitioners looking to solve the issues surrounding waste and recycling.

The socio-economic activities due to world development are promoting increasing pressures on land, creating competition and conflicts, resulting in suboptimal use of resources. Integrated planning and management of land resources is a top subject of Agenda 21 (managed by FAO), which deals with the cross-sectoral aspects of decision-making for the sustainable use and development of natural resources. This is essential for life-support systems and its productive capacity. In this context, there is a need to find new strategies for sustainable development that links social and economic progress with environmental protection and enhancement. Electrokinetic transport processes (EK) uses a low-level direct current as the "cleaning agent". EK has been applied to the remediation of polluted soils and other contaminated matrices. It also shows a great potential to be used in different fields, as in saline soil restoration, nutrients recovery from wastes or repair and maintenance of building structures. EK may be an integrated approach for new strategies aiming at sustainable development and to support waste strategies, with worldwide interest. EK can also be coupled with phytoremediation and integrated with nanotechnology, enlarging the scope of its application. The conciliation of the EK in the recovery of secondary resources, remediation and conservation is a multidisciplinary novel approach that opens new technical possibilities for waste minimization, through upgrading of particulate waste products and the recovery of secondary resources for industrial, agricultural or social use.

This book focuses on an important technology for mineralizing and utilizing CO2 instead of releasing it into the atmosphere. CO2 mineralization and utilization demonstrated in the waste-to-resource supply chain can "reduce carbon dependency, promote resource and energy efficiency, and lessen environmental quality degradation," thereby reducing environmental risks and increasing economic benefits towards Sustainable Development Goals (SDG). In this book, comprehensive information on CO2 mineralization and utilization via accelerated carbonation technology from theoretical and practical considerations was presented in 20 Chapters. It first introduces the concept of the carbon cycle from the thermodynamic point of view and then discusses principles and applications regarding environmental impact assessment of carbon capture, storage and utilization technologies. After that, it describes the theoretical and practical considerations for "Accelerated Carbonation (Mineralization)" including analytical methods, and systematically presents the carbonation mechanism and modeling (process chemistry, reaction kinetics and mass transfer) and system analysis (design and analysis of experiments, life cycle assessment and cost benefit analysis). It then provides physico-chemical properties of different types of feedstock for CO2 mineralization and then explores the valorization of carbonated products as green materials. Lastly, an integral approach for waste treatment and resource recovery is introduced, and the carbonation system is critically assessed and optimized based on engineering, environmental, and economic (3E) analysis. The book is a valuable resource for readers who take scientific and practical interests in the current and future Accelerated Carbonation Technology for CO2 Mineralization and Utilization.

The siting or development of risky facilities, such as nuclear power plants or waste repositories, remains an intractable policy problem for all democratic nations. In this valuable new book, the authors present a comparative study of various siting controversies in North America, Asia, Europe and Australia. They argue that devising effective policies for dealing with siting conflicts will require social learning and changes in both institutional design and policy process. This volume studies the issue of siting in the context of a transactions cost framework. It analyses the extent to which the institutional and policy environment can assist in managing siting conflicts, as well as considering the effect of other important factors such as equity, incentive structures, social pressures, alliances, the nature of decision processes and information strategies. By adopting a broad comparative perspective and using international case studies, the authors are able to identify the similarities and differences in siting problems between nations, and the approaches and policies adopted. As well as extending the theoretical and comparative knowledge of siting conflicts, they also help to develop more robust and effective policies for managing and resolving future disputes. This book addresses a growing policy problem confronting all democratic nations. By exploring the lessons to be learned from international siting experiences, it will prove invaluable reading for academics, policymakers, government agencies, NGOs, and other societal interests involved in environmental and siting issues.

Technology has long been an essential consideration in public discussions of the environment, with the focus overwhelmingly on creating new tools and techniques. In more recent years, however, activists, researchers, and policymakers have increasingly turned to mobilizing older technologies in their pursuit of sustainability. In fascinating case studies ranging from the Early Modern secondhand trade to utopian visions of human-powered vehicles, the contributions gathered here explore the historical fortunes of two such technologies-bicycling and waste recycling-tracing their development over time and providing valuable context for the policy successes and failures of today.

This book presents a comprehensive approach to address the need to improve the design of tailings dams, their management and the regulation of tailings management facilities to reduce, and eventually eliminate, the risk of such facilities failing. The scope of the challenge is well documented in the report by the United Nations Environment Program (UNEP) and GRID Arendal entitled "Mine Tailings Storage: Safety Is No Accident," which was released in October 2017. The report recommends that "Regulators, industry and communities should adopt a shared, zero-failure objective to tailings storage facilities..." and identifies several areas where further improvements are required. In this context, the application of cutting-edge risk-assessment methodologies and risk-management practices can contribute to a significant reduction and eventual elimination of dam failures through Risk Informed Decision Making. As such, the book focuses on identifying and describing the risk-assessment approaches and risk-management practices that need to be implemented in order to develop a way forward to achieve socially acceptable levels of tailings dam risk.

Reviews of Environmental Contamination and Toxicology attempts to provide concise, critical reviews of timely advances, philosophy and significant areas of accomplished or needed endeavor in the total field of xenobiotics, in any segment of the environment, as well as toxicological implications.

This book examines the public policy challenge presented by government regulation of small generators of hazardous waste. The author includes both small quantity generators, typically regulated by the federal government, and conditionally exempt small quantity generators, generally exempt from federal requirements, in his discussion. . . . While its focus is on hazardous waste regulations, this book may be of interest to all those involved in the regulation of small business. "The Hazardous Waste Consultant"

Small businesses that generate hazardous wastes present a significant public policy challenge--and one that is fundamentally different from that presented by their larger corporate counterparts at whom most regulation is aimed. This volume examines policy questions posed by the special situation of small businesses based on both recent studies of hazardous waste management and compliance behavior of smaller generators and evaluations of smaller generator assistance programs. Deyle explores such key issues as the ways in which small businesses do and do not handle their hazardous wastes, the costs involved in instigating waste management programs, the proper role of government in regulating small businesses, and the extent to which education and assistance programs can help alleviate the problem.

Deyle begins with important background information that sets the context for the discussion that follows. He goes on to assess the options available to government for influencing private-sector environmental management and presents a detailed examination of small business compliance in theory and practice. A chapter contributed by Rosemary O'Leary discusses the liability exposure of small businesses who generate hazardous wastes and the implications of liability for smaller generator waste management practices. Finally, Deyle reviews the findings of several studies on compliance and presents the results of his own case study of smaller generator compliance in New Jersey. The volume concludes with an evaluation of federal and state programs that have been undertaken to enhance hazardous waste management by smaller generators. An important contribution to the public policy literature, this book will be of significant interest to both students and practitioners in the field.

Technology has long been an essential consideration in public discussions of the environment, with the focus overwhelmingly on creating new tools and techniques. In more recent years, however, activists, researchers, and policymakers have increasingly turned to mobilizing older technologies in their pursuit of sustainability. In fascinating case studies ranging from the Early Modern secondhand trade to utopian visions of human-powered vehicles, the contributions gathered here explore the historical fortunes of two such technologies-bicycling and waste recycling-tracing their development over time and providing valuable context for the policy successes and failures of today.

This book provides a comprehensive description of alkaline hydrometallurgy of amphoteric metal hazardous wastes. Topics focus on leaching of zinc and lead hazardous wastes, purification of leach solution of zinc and lead, electrowinning of zinc and lead from purified alkaline solutions, chemical reactions taking place in the production flowsheets, thermodynamic and spent electrolyte regeneration, alkaline hydrometallurgy of low-grade smithsonite ores, recovery of molybdenum and tungsten using ion flotation and solvent extraction processes and their application in chemical synthesis of Nb and Ta inorganic compounds, and industrial scale production of 1500-2000 t/a zinc powder using alkaline leaching-electrowinning processes. Processes described are cost-effective, generate lesser secondary pollutants, and have been applied widely in China. Readers that will find the book appealing include solid waste engineers, environmental managers, technicians, recycling coordinators, government officials, undergraduates and graduate students, and researchers.

Unlike existing books of nuclear reactor physics, nuclear engineering and nuclear chemical engineering this book covers a complete description and evaluation of nuclear fission power generation. It covers the whole nuclear fuel cycle, from the extraction of natural uranium from ore mines, uranium conversion and enrichment up to the fabrication of fuel elements for the cores of various types of fission reactors. This is followed by the description of the different fuel cycle options and the final storage in nuclear waste repositories. In addition the release of radioactivity under normal and possible accidental conditions is given for all parts of the nuclear fuel cycle and especially for the different fission reactor types.

This book describes various aspects of modern microbiology including microbial enzymes, secondary metabolites, next-generation sequencing, microbial-based biopesticides, microbial-based cancer therapies, biodiesel, and microbial products from fermentation, biodegradation, bioremediation and wastewater treatment. Further, it explains how and why microbes play an important role in preserving the welfare of living beings and the environment. Many bacteria play a significant part in cleaning our environment by detoxifying various xenobiotic compounds, while several microbes produce secondary metabolites that are useful to human beings. The book is divided into 15 chapters that cover various aspects of microorganism-based biotechnology, including recent methodologies such as advanced molecular techniques, as well developments in classical microbiological techniques. The authors also explain how the latest and classical techniques are being used in modern-day microbial biotechnology. All chapters were written by experts from prominent universities, research laboratories, and institutes around the globe. Above all, they focus on recent advances in microbial technology that promote the welfare of living beings and the environment.

This book introduces a new technology for environmental protection, namely plasma cleaning. It brings together technological advances and research on plasma generators and their application in environmental science and engineering, including contaminated soil remediation, waste water degradation, metal recovery from waste solution, sterilization and polluted air remediation. It provides a balanced and comprehensive discussion of the core principles, novel plasma reactors and diagnostics, and state-of-the-art environmental applications of plasma. As such, it represents a valuable reference guide for scientists, engineers and graduate students in the fields of environmental science and plasma physics.

This book contains the results of a three-year research programme by a joint team of experts from four different EU countries. The main focus of this research was on investigating the possibility of using abandoned underground mines for the disposal of hazardous chemical waste with negligible pollution of the environment. The research work was focused on: the possibility of using abandoned underground mines for disposal of hazardous chemical waste with negligible pollution of the environment; the properties and behaviour of waste-isolating clay materials and practical ways of preparing and applying them; development of software tools to assess the stability, performance and risks associated with different repository concepts, considering the long-term safety of the biosphere; the isolating capacity of reference repositories; the different approaches for handling hazardous chemical waste. The project has demonstrated that hazardous waste can be safely disposed in underground mines provided that adequate assessment, planning and design procedures are employed.Information is also included on the selection of site location, design and construction of repositories, predicting degrees of contamination of groundwater in the surroundings, estimation of isolating capacity of reference repositories, cost estimation of this approach in comparison with some other approaches, and many other relevant issues. Invaluable to researchers and engineers working in the field of hazardous (chemical) waste disposal, this title will also significantly aid experts dealing with nuclear waste.

The present customers' consumption models result in an increasing number of used products that need to be collected and reused or disposed. Remanufacturing is a favourable scenario in order to recover the end-of-use products. It allows to capture substantial part of the resources which were used in the primary production at lower cost, providing economic, environmental and social benefits. The book presents the methods, models, case studies for improvement of sustainability in remanufacturing facilities. The focus is on small- and medium-sized enterprises and their challenges to meet resource-efficiency goal.

The construction industry is the largest single waste producing industry in the UK. Ensuring a supply chain of recycled materials affords many potential gains, achieved through: reducing the material volume transported to already over-burdened landfill sites, possible cost reductions to the contractor/client when considering the landfill tax saved and the potential for lower cost material replacements, a reduction in the environmental impact of quarrying and the saving of depleting natural material resources. Reuse of Materials and Byproducts in Construction: Waste Minimization and Recycling addresses use of waste and by products in the construction industry. An over view of new "green" design guides to encourage best practice will be examined and current legislation that channels on site practices, such as site waste management plans. Fundamental individual construction materials are discussed and the process of reforming by products and waste products into new construction materials is investigated, examining the material performance, energy required to convert waste into new products and viability of recycling. The main range of constructional materials will be examined. Aimed at postgraduate students, lecturers and researchers in construction and civil engineering, the book will also be of interest to professional design practices.

This book provides high-quality research results and proposes future priorities for more sustainable development and energy security. It covers a broad range of topics on atmospheric changes, climate change impacts, climate change modeling and simulations, energy and environment policies, energy resources and conversion technologies, renewables, emission reduction and abatement, waste management, ecosystems and biodiversity, and sustainable development. Gathering selected papers from the 7th Global Conference on Global Warming (GCGW2018), held in Izmir, Turkey on June 24-28, 2018, it: Offers comprehensive coverage of the development of systems taking into account climate change, renewables, waste management, chemical aspects, energy and environmental issues, along with recent developments and cutting-edge information Highlights recent advances in the area of energy and environment, and the debate on and shaping of future directions and priorities for a better environment, sustainable development and energy security Provides a number of practical applications and case studies Is written in an easy-to-follow style, moving from the basics to advanced systems. Given its scope, the book offers a valuable resource for readers in academia and industry alike, and can be used at the graduate level or as a reference text for professors, researchers and engineers.

This book provides a comprehensive overview on mechanochemistry including its history, high-energy ball milling process, equipment used and fundamentals behind the observed scientific phenomena. It also shows that mechanochemistry is highly applicable in the field of waste treatment. The text reviews 1017 studies utilizing mostly high-energy ball milling for the treatment of various types of consumer, technogenic and agricultural waste. The text is divided into chapters based on individual waste types. The book presents an Appendix compiling all studies arranged according to the application that the recycled waste is meant for. In this way, readers from both academia and companies interested either in the treatment of a particular waste, or particular application might easily locate sections of interest.