Composting and Recycling Municipal Solid Waste is a comprehensive guide that identifies, describes, explains, and evaluates the options available when composting and recycling municipal solid waste (MSW). The book begins with an introductory chapter on the nature of MSW and the importance of solid waste management programs and resource recovery. Chapter 2 discusses MSW storage and collection, with emphasis on recyclables. Chapter 3 examines issues involved in determining the quantity, composition, and key physical characteristics of the MSW to be managed and processed. The book's other chapters cover topics such as the steps required for processing MSW for material recovery, the use of uncomposted organic matter as a soil amendment, composting and use of compost product, the marketing of recyclables, biogasification, and integrated waste management. Composting and Recycling Municipal Solid Waste provides essential information needed by solid waste professionals, consultants, regulators, and planners to arrive at rational decisions regarding available economic and technological resources for MSW composting and recycling.

The question of what to do with radioactive waste has dogged political administrations of nuclear-powered electricity-producing nations since the inception of the technology in the 1950s. As the issue rises to the forefront of current energy and environmental policy debates, a critical policy analysis of radioactive waste management in the UK provides important insights for the future. Nuclear Waste Politics sets out a detailed historical and social scientific analysis of radioactive waste management and disposal in the UK from the 1950s up to the present day; drawing international comparisons with Sweden, Finland, Canada and the US. A theoretical framework is presented for analysing nuclear politics: blending literatures on technology policy, environmental ethics and the geography and politics of scale. The book proffers a new theory of "ethical incrementalism" and practical policy suggestions to facilitate a fair and efficient siting process for radioactive waste management facilities. The book argues that a move away from centralised, high capital investment national siting towards a regional approach using deep borehole disposal, could resolve many of the problems that the high stakes, inflexible "megaproject" approach has caused across the world. This book is an important resource for academics and researchers in the areas of environmental management, energy policy, and science and technology studies.

The growth in the world's nuclear industry, motivated by peaking world oil supplies, concerns about the greenhouse effect, and domestic needs for energy independence, has resulted in a heightened focus on the need for next-generation nuclear fuel-cycle technologies. Ion Exchange and Solvent Extraction: A Series of Advances, Volume 19 provides a comprehensive look at the state of the science underlying solvent extraction in its role as the most powerful separation technique for the reprocessing of commercial spent nuclear fuel. Capturing the current technology and scientific progress as it exists today and looking ahead to potential developments, the book examines the overall state of solvent extraction in reprocessing, new molecules for increased selectivity and performance, methods for predicting extractant properties, and actinide-lanthanide group separation. The contributors also explore the simultaneous extraction of radionuclides by mixing extractants, the cause and nature of third-phase formation, the effects of radiation on the solvent and its performance, analytical techniques for measuring process concentrations, new centrifugal contactors for more efficient processing, and new chemistry using novel media. The long-term vision of many professionals in the field entails a proliferation-free nuclear energy economy in which little or no waste is stored or released into the environment and all potential energy values in spent nuclear fuel are recycled. This text opens a window on that possibility, offering insight from world leaders on the cutting edge of nuclear research.

How does mercury get out of the ground and into our food? Is tuna safe to eat? What was the Minamata Disaster? Mercury Pollution: A Transdisciplinary Treatment addresses these questions and more. The editors weave interdisciplinary threads into a tapestry that presents a more complete picture of the effects of mercury pollution and provides new ways to think about the environment. The remarkable features that make mercury so useful-and poisonous-have given rise to many stories laid out in rich objective detail, carefully detailing medical, epidemiological, or historical insight, but sidestepping the human experience. A technically rich book that only touches on the human consequences of mercury poisoning cannot fully portray the anguish, confusion, and painful deaths that are the consequence of mercury pollution. Therefore, the editors purposely step out of the conventional scientific framework for discussing mercury pollution to explore the wider human experience. This book clarifies how we are all connected to mercury, how we absorb it through the food we eat and the air we breathe, and how we release it as a consequence of our new technologies. It tackles interesting environmental issues without being overly technical and uses mercury as a case study and model for studying environmental problems. The book uses discussions of the issues surrounding mercury pollution to illustrate how an interdisciplinary vantage is necessary to solve environmental problems. Read an article in the SETAC Globe by Michael C. Newman and Sharon L. Zuber at http://www.setac.org/globe/2011/november/mercury-pollution.html

A successful modern heavy metal control program for any industry will include not only traditional water pollution control, but also air pollution control, soil conservation, site remediation, groundwater protection, public health management, solid waste disposal, and combined industrial-municipal heavy metal waste management. In fact, it should be a total environmental control program. Comprehensive in scope, Heavy Metals in the Environment provides technical and economical information on the development of a feasible total heavy metal control program that can benefit industry and local municipalities. The book discusses the importance and contamination of metals such as lead, chromium, cadmium, zinc, copper, nickel, iron, and mercury. It covers important research of metals in the environment, the processes and mechanisms for metals control and removal, the environmental behavior and effects of engineered metal and metal oxide nanoparticles, environmental geochemistry of high arsenic aquifer systems, nano-technology applications in metal ion adsorption, biosorption of metals, and heavy metal removal by expopolysaccharide-producing cyanobacteria. The authors delineate technologies for metals treatment and management, metal bearing effluents, metal-contaminated solid wastes, metal finishing industry wastes and brownfield sites, and arsenic-contaminated groundwater streams. They also discuss control, treatment, and management of metal emissions from motor vehicles. The authors reflect the breadth of the field and draw on personal experiences to provide an in-depth presentation of environmental pollution sources, waste characteristics, control technologies, management strategies, facility innovations, process alternatives, costs, case histories, effluent standards, and future trends for each industrial or commercial operation. The methodologies and technologies discussed are directly applicable to the waste management problems that must be met in all industries.

This book provides an authoritative overview of emerging pollutants in sewage sludge and soils. It traces the latest research and new trends on the characterization, removal and treatment of such pollutants in urban and industrial sewage sludge and soils. The book covers topics such as antibiotic resistance, fate and environmental impact of contaminants of emerging concern, environmental transmission of human pathogenic viruses and their effect on soil, and the repercussion of various emerging pollutants on biodiversity. It also offers a case study of the epidemiology-based surveillance of SARS-CoV-2 in wastewater and sludge. The book appeals not only to researchers and professionals working with emerging contaminants, but also to policy makers and a broader audience interested in learning more about the effects of these contaminants in human and environmental health.

The only step-by-step guide to an exciting new chemical management and waste minimization methodology

Over the past decade, a revolutionary new approach to chemical supply has emerged that dramatically reduces chemical waste and chemical costs while improving company performance. Known as Shared Savings Chemical Management, it has already yielded astonishing results for several major North American manufacturing firms and numerous other companies. The first complete guide to this innovative chemical management methodology, Chemical Management acquaints you with Shared Savings principles and shows you how to put them to work in your company.

Thomas Bierma and Francis Waterstraat Jr. explore the environmental, health and safety, purchasing, inventory, tracking, waste disposal, and other major problems inherent to traditional chemical supply programs, and clearly explain how and why a Shared Savings Chemical Management program helps minimize or completely eliminate those problems. With the help of fascinating case studies, they demonstrate how Shared Savings techniques are currently being applied in five extremely successful plants belonging to GM, Ford, Chrysler, and Navistar International. What’s more, they provide you with a complete, step-by-step blueprint for designing and implementing a Shared Savings program tailored to your company.

Chemical Management is an indispensable resource for manufacturing managers, purchasing managers, environmental managers, health and safety managers, and others charged with developing more effective chemical waste minimization strategies for their companies.

Decades of U.S. nuclear weapons production have exacted a heavy environmental toll. The Department of Energy estimates that cleaning up waste and contamination resulting from production activities will cost over $150 billion. Yet even once that money is spent, these sites will need long-term attention to assure protection of human health and the environment. In the authors' words, stewardship refers to 'institutions, information, and strategies needed to ensure protection of people and the environment, both in the short and the long term.' Probst and McGovern make a compelling case for establishing a formal program of long-term stewardship for contaminated sites. Their report details the requirements of a successful stewardship program and discusses the daunting technical and political challenges facing such efforts, including the designation of an institutional home for key stewardship functions. The legacy of environmental damage is considerable; hazardous waste disposal, radioactive waste, and contaminated facilities are among the problems that will remain after DOE cleanup efforts are complete. Stewardship planning, according to Probst and McGovern, must start now.

What makes this book unique is a specific focus on aluminum recovery, rather than just recycling in general. It also offers an integrated discussion of scrap recovery and re-melting operations and includes economic as well as technical elements of recycling. Important topics include a discussion of the scrap aluminum marketplace and how secondary aluminum is collected and sorted, the design and operation of furnaces for melting scrap, the refining of molten aluminum, and the recovery and processing of dross from re-melting operations. This second edition features more information on aluminum scrap pricing and the economics of recycling, the analysis of dross processing methods currently in use by the industry, and drosses produced. The book has been updated throughout to include the most up-to-date information.

Immersed tunnels have been around for more than a century but remain a relatively unknown form of tunnel construction. For waterway crossings they are an effective alternative to bored tunnels and bridges, particularly in shallower waters, soft alluvial soils, and earthquake-prone areas. Successful implementation requires a thorough understanding of a wide variety of civil engineering disciplines and construction techniques. Immersed Tunnels brings together in one volume all aspects of immersed tunnels from initial feasibility and planning, through design and construction, to operation and maintenance. Get Valuable Insights into Immersed Tunnel Engineering from Expert Practitioners The book presents design and construction principles to give a full appreciation not only of what is involved in an immersed tunnel scheme but also how potential problems are dealt with and overcome. It examines important factors that have to be considered, particularly environmental implications and mechanical and electrical systems. It also gives practical examples of how specific techniques have been used in various projects and highlights issues that designers and constructors should be aware of. In addition, the book discusses operation and maintenance and reviews contractual matters. These aspects are described from the viewpoint of two experienced practitioners in the field who have a wealth of experience on immersed tunnel projects worldwide. As tunnels are increasingly being adopted as engineering solutions around the world, this unique and extensively illustrated reference explores the wide variety of immersed tunnel techniques available to designers and constructors. It provides essential insight for anyone involved, or seeking to be involved, with immersed tunnel projects.

Unlike similar titles providing general information on ground improvement, Jet Grouting: Technology, Design and Control is entirely devoted to the role of jet grouting - its methods and equipment, as well as its applications. It discusses the possible effects of jet grouting on different soils and examines common drawbacks, failures and disadvantages, recent advances, critical reviews, and the range of applications, illustrated with relevant case studies. The book addresses several topics involving this popular worldwide practice including technology issues, the interpretation of the mechanisms taking place during the grouting, the quantitative prediction of their effects, the design of jet-grouted structures, and procedures for controlling jet grouting results. Discusses the design criteria for jet grouting projects and reviews existing design rules and codes of practice of different countries Provides practical methods for design calculations of the most important jet-grouted structures such as foundations, earth retaining walls, water cut-offs, bottom plugs, and provisional tunnel supports Includes the current standard control methods and most innovative techniques reported for the implementation of quality control and quality assurance procedures Jet Grouting: Technology, Design and Control analyzes the typical jet-grouted structures, such as foundations, earth retaining walls, water cut-offs, bottom plugs and tunnel supports, and serves as a practical manual for the correct use of jet grouting technology.

Geotechnical instrumentation is used for installation, monitoring and assessment on any sizeable project, particularly in urban areas, and is used for recording, controlled remedial work, and safety. This unique and up-to-date book deals with the conceptual philosophy behind the use of instruments, and then systematically covers their practical use. It is divided into displacement dominated systems and stress recording systems. The limitations are discussed and the theoretical background for data assessment and presentation are covered in some detail, with some relevant background material in theoretical soil mechanics. Relevant advanced electronic techniques such as laser scanning in surveying and fibre-optics are also included and communication and data recovery systems are discussed. This book is written for senior designers, consulting engineers, and major contractors who need a major introduction to the general purpose, availability, and analysis of field instruments before details of their own project can be progressed, and it serves as a textbook to any specialist geotechnical MSc or professional seminar course in which instrumentation forms a major part.

This book provides insights into the current status of waste management in India and research approaches to minimize waste and convert useful waste into energy alternatives towards achieving environmental sustainability. It also discusses the implications of waste on human health and approaches to minimize the burden. Waste disposal, especially municipal solid waste (MSW), is one of the major environmental problems facing Indian cities. Inadequate management of MSW poses risks to inhabitants and is also a breeding ground for various diseases. Environmental health and the impact of waste on health is another major topic that has to be addressed. In India, non-governmental organizations (NGOs) and social welfare groups play a major role in collecting and managing waste. However, waste management is still a huge problem and has also expanded into rural areas. Contributed research papers from academic studies and industry focus on applied waste-management methods currently being practiced, waste strategies and ecofriendly approaches such as bioremediation. The outcomes of the research contributions in the book will be useful in implementing and developing a task force to combat the waste-management and energy-demand crises.

This title, first published in 1987, examines the topic of nuclear waste management, and the way in which the public reacts to this issue. Part 1 explores the sources of public unease, such as the way in which nuclear waste had failed to be properly contained in the past. Part 2 looks at the search for a waste policy and the introduction of The Nuclear Waste Policy Act. Part 3 examines the waste problem from the standpoint of it being an international issue, and finally, Part 4 looks to the future and the lessons that we can learn from past nuclear waste management failures. This book will be of interest to students of environmental management.

Concern about the fate of waste products produced by a wide range of industrial processes has led to the realization that they may have potential uses and, therefore, value. In an effort to develop more sustainable processes and reduce waste storage, the use of waste as a resource has been gaining attention worldwide. Consequently, there have been a large number of studies aimed at utilizing such wastes. Conversion of Large Scale Wastes into Value-added Products discusses various selected classes of large-scale waste and their current applications and potential future applications. This book provides a snapshot of a continually evolving field, which includes both well-established processes and a drive toward developing strategies for new applications of wastes. The first chapter provides a general introduction to the area of large-scale waste utilization, including drivers for waste recovery, and secondary processes and products for waste reuse. Subsequent chapters discuss applications and potential applications in specific classes of large-scale waste: Various types of waste generated from different metal processing operations Waste generated by coal combustion, a major source of power generation that produces enormous quantities of waste Waste electrical and electronic equipment, important for recycling finite resources and reducing health and environmental risks Food waste, a significant and diverse waste stream with economic and environmental impacts The final chapter presents a general conclusion to the broad subject of waste utilization, summarizing the topics and addressing future trends in waste research.

This book presents an integrated and holistic discussion on cadmium, lead and mercury toxicity in aquatic environments, expanding general concepts on chemical speciation effects and exploring specific environmental toxicological issues, exposure routes, and bioanalytical approaches for their determination and assessments on their intracellular deleterious effects. It contains worldwide and regional aspects on cadmium, lead and mercury occurrence, fate, and toxicity, addressing key environmental exposure and health risk concerns to both humans and aquatic organisms. Our book is of interest to anyone conducting research in the broad fields of oceanography, geochemistry, ecotoxicology, and environmental and public health.

This title includes a number of Open Access chapters. Intended for a wide audience ranging from engineers and academics to decision-makers in both the public and private sectors, Biological Treatment of Solid Waste: Enhancing Sustainability reviews several technologies that help communities manage solid waste sustainably, while at the same time generating energy, revenue, and other resources. The book is divided into three topics: Microbial technologies for solid waste treatment Composting Biodrying Included within these larger topics are case studies and investigations into particular aspects of each, with attention paid to food waste, animal waste, municipal waste, and certain forms of industrial waste. The editor is an environmental engineer with an international reputation, and she has included her own research studies as well as that of her colleagues, many of which have been presented at international waste management conferences. She concludes that our world can no longer afford to consider waste as something that can be discarded with no regard for future use. Instead, if addressed correctly through policy and practice, solid waste can become a valuable resource.

How do those pushed to the margins survive in contemporary cities? What role do they play in today's increasingly complex urban ecosystems? Faced with stark disparities in human and environmental wellbeing, what form might more equitable cities take? Waste Matters argues that contemporary literature and film offer an insightful and timely response to these questions through their formal and thematic revaluation of urban waste. In their creation of a new urban imaginary which centres on discarded things, degraded places and devalued people, authors and artists such as Patrick Chamoiseau, Chris Abani, Dinaw Mengestu, Suketu Mehta and Vik Muniz suggest opportunities for an inclusive urban politics that demands systematic analysis. Waste Matters assesses the utopian promise and pragmatic limitations of their as yet under-examined work in light of today's pressing urban challenges. This book will be of great interest to scholars and students of English Literature, Postcolonial Studies, Urban Studies, Environmental Humanities and Film Studies.

This text provides an in-depth appraisal of the key environmental issues for packaging and how these considerations are increasingly affecting trends and developments in the packaging industry. It is aimed at all those concerned with the manufacture, use and distribution of packaging, including raw materials suppliers, packaging convertors, fillers, packers and retailers. In particular, it should be helpful to all management - commerical, technical or those concerned with human resources. It will also be of interest to those involved in the management of waste - local governments, waste management organizations and materials recyclers.

1. Discusses the properties, mechanisms, advantages, limitations and promising solutions of different types of membrane technologies 2. Addresses the optimization of process parameters 3. Describes the performance of different membranes 4. Presents the potential of Nanotechnology to improve the treatment efficiency of wastewater treatment plants (WWTPs) 5. Covers the application of membrane and membrane-based hybrid treatment technologies for wastewater treatment

Since the emergence of climate and global warming onto the international agenda, research in sustainability has been underpinned by the development in energy and environmental science. Highlighted 30 years ago by the Brundtland Commission, 'sustainable development' was defined as: meeting the needs of the present without compromising the ability of future generations to meet their own needs. This has very much defined the scope and aims of this conference.This conference proceedings book contains the selected papers presented in the 2015 International Conference on Sustainable Development (ICSD2015) held in September 25-27, 2015, in Wuhan, Hubei, China. The conference positions itself as an international forum for researchers all over the world to come together to share and discuss their findings and contributions in all aspects of sustainability; including theory, methodology and applications covering a wide spectrum of topics and issues. The conference proceedings put together a total of 119 papers in sustainable development, covering issues in environmental, energy, and economical aspects of the subjects.

It is generally accepted that excreta disposal is given less priority in emergencies than other humanitarian interventions such as health care, food and water supply. This is despite the fact that many of the most common diseases occuring in emergency situations are caused by inadequate sanitation facilities and poor hygeine practice. Many aid agencies are aware of these facts and wish to give greater emphasis to excreta disposal. In the past, however, they have often been hampered by a lack of experience and resources to support their field staff. This manual is designed for use by field-based technicians, engineers and non-technical staff responsible for sanitation planning, management and intervention in emergencies. This may include international personnel sent to an emergency, local, national and regional staff.

The legacies of a century of fossil-fuel based development and overconsumption, of treating the environment as a waste sink for industry and agriculture, have left devastating impacts on the earth's air, water and land, and these are directly implicated in Climate Change. In response, a number of global institutions and nations, including the European Union and China, have committed themselves to the development of a 'circular economy'. This will require a transformation of today's 'linear economy' of 'make, use and dispose' as the market dictates, into a Circular Economy. The aim of the Circular Economy is to decouple economic growth from resource and energy use through iterative, systemic social, economic and technological reform. This book presents new theoretical and practical insights into this concept, based on case studies from both the developing and developed world, with an emphasis on economic and material transformation, design for reuse and waste reduction, industrial 'symbiosis' (the planned circulation of resources and energy within an industrial setting), and social innovation and entrepreneurship. Four central themes emerge through the essays presented here: the importance of 'restorative design' in transforming resource flows through both production and consumption, the value of understanding and enumerating wastes in more detail to enable their reuse, the central role of advancing technology and applied science to further this transformation of materials for reuse, and finally, a reconfiguration of design, consumption and retail, so that the present 'linear' economy of 'make, use and trash' can be replaced with a more 'circular' model.

This book reports on the treatment of waters and wastewaters with contaminants of emerging concern such as pharmaceutically active compounds. It shows how to prevent the contamination of the environment with such pollutants in the content of effluents. This book reviews various physico-chemical and biological methods that have been developed in order to deal with the polluted effluents. It also evaluates the already developed technologies regarding the sustainability criteria. The chapters discuss technical aspects and put the spotlight on the sustainability aspects of the water and wastewater treatment technologies.