Waste is a quintessentially ecological economic issue. The generation of waste is rooted in the very laws of nature, but waste is also a social construct, and what we understand to be waste has evolved with human societies. Therefore, a crucial issue in modern waste management is the understanding of attitudes towards waste. This book examines the ecological economics approach to waste, its conceptualisation and management. In order to provide a comprehensive understanding of the issue of waste, the authors utilise an array of disciplinary approaches from both natural and social sciences. They begin by considering waste through the thermodynamics of production processes, and through an assessment of the history of waste. Building on this physical-social background, they concentrate on specific aspects of waste policy. These include the public's attitude towards waste, the economics of waste, and the laws and regulations surrounding waste disposal. Further chapters look in detail at the three main types of waste being generated by modern societies: municipal, toxic and nuclear waste. This path-breaking book seeks to lay the basis for a general conceptualisation of waste in ecological economics and to elucidate the main issues relating to waste generation and management. This is a comprehensive analysis of waste as a concept, and as an issue for humans as both producers and consumers. It will be of great value to ecological economists, waste managers and environmental policy analysts.

This revised edition of the bestselling "Practice of Reservoir Engineering" has been written for those in the oil industry requiring a working knowledge of how the complex subject of hydrocarbon reservoir engineering can be applied in the field in a practical manner. Containing additions and corrections to the first edition, the book is a simple statement of how to do the job and is particularly suitable for reservoir/production engineers as well as those associated with hydrocarbon recovery.

This practical book approaches the basic limitations of reservoir engineering with the basic tenet of science: Occam's Razor, which applies to reservoir engineering to a greater extent than for most physical sciences - if there are two ways to account for a physical phenomenon, it is the simpler that is the more useful. Therefore, simplicity is the theme of this volume.
Reservoir and production engineers, geoscientists, petrophysicists, and those involved in the management of oil and gas fields will want this edition.

Siting Noxious Facilities explains and illustrates processes and criteria used to site noxious manufacturing and waste management facilities. It proposes a framework that integrates economic location analysis and risk analysis, emphasizing the reduction of uncertainty. This book begins by defining noxious facilities and considers the important role of manufacturing in the world economy, before going on to describe the historical practices used in locating these facilities for much of the twentieth century. It then shifts focus to analyze the complex set of considerations in the twenty-first century that mean that any facility that produces annoying smells and sounds, is unsightly and emits hazardous substances has had the bar of acceptability markedly raised for economic, environmental, social and political acceptability. Drawing on case study examples that highlight pollution prevention, choosing locations at major plants (CLAMP), negotiations, and surrendering control of an activity, Greenberg presents a hybrid framework that advocates the amalgamation of industrial location processes with human health and environmental-oriented risk analysis. This book will be of great interest to students and scholars of location economics, environmental science, risk analysis and land-use planning. It will also be of great relevance to decision-makers and their major advisers who must make choices about siting noxious facilities.

The safe management of radioactive wastes is of paramount importance in gaining both governmental and societal support for nuclear energy. The scope of this new textbook is to provide a comprehensive perspective on all types of radioactive wastes as to how they are created, classified, characterized, and disposed.Written to emphasize how geology and radionuclide chemistry impact waste management, this book is primarily designed for engineers who have little background in geology with low-level wastes, decommissioning wastes, high-level wastes and spent nuclear fuel.This textbook provides the most up-to-date information available on waste management in several countries. The content of this work includes transporting radioactive materials to disposal facilities. The textbook cites numerous case studies to illustrate past practices, current methodologies and to provide insights on how radioactive wastes may be managed in the future. An international perspective on waste management is also provided to help the readers better understand the diversity in approaches while highlighting what many countries have in common. Review questions for classroom use are provided at the end of each chapter.Related Link(s)

Presents technical perspectives on emerging wastes in developing economies. Discusses the issues of e-waste which is growing three times faster than general municipal waste globally. Covers the spectrum of nanowaste to upcycling in the market. Discusses management of marine plastic debris and microplastics. Diverse audience including those in solid waste management, electrical and electronic technology, and the medical industry

Describes the state-of-the-art techniques and the application of omics tools in wastewater treatment reactors (WWTRs) Includes both the theoretical and practical knowledge on the fundamental roles of microorganisms in WWTRs Discusses environmental microbial community proteomics Covers relating function and community structure of complex microbial systems using neural networks Reviews the economics of wastewater treatment and the development of suitable alternatives in terms of performance and cost effectiveness

In the current international situation, the ability to deal effectively with water contamination emergencies is of rapidly increasing importance. The third in a series of conference proceedings, this book brings together contributions from leading scientists and experts in industry and academia. It offers an international perspective and develops the themes of the previous volumes entitled Water Contamination Emergencies: Can we cope? and Water Contamination Emergencies: Enhancing our response. The full range of potential chemical, microbiological and radiological contamination scenarios are addressed from the perspective of medical and health professionals, water companies and regulators, environmental protection professionals, risk and business continuity managers, emergency planners, local authorities, service and support providers, detection and equipment suppliers, disaster recovery specialists, water security experts, water distribution modellers and laboratories involved in round the clock emergency response. Emphasis is placed on the considerable effort required to prepare for and respond to an emergency. It is not sufficient for Individuals to simply identify their own responsibilities, they must also take action to establish effective and efficient working relationships with the other parties involved. In other words, they must take "Collective Responsibility". In summary, this book will provide readers with an up-to-date view of current strategies and the collaboration essential for an appropriate and timely response to water contamination emergencies.

Explores role of hydrolysing enzymes in breakdown and transformation of biomass hydrolysis Discusses potential of auxiliary enzyme (LPMO's) for enhancing hydrolysis potential Covers recent development in the field of enzymatic-assisted hydrolysis of waste for conversion of waste to value-added products Deliberates all possible products that can be generated from enzymatic hydrolysis of waste and their possible utilization Elucidate the limitations and advantages of enzyme-based hydrolysis and possible strategies for moving from laboratory to the large-scale industries

"Enzymes in Valorization of waste: Enzymatic pre-treatment of waste for development of enzyme based biorefinery" focusses on the role of key delignifying enzymes (Laccase, MnP, LiP and LPMO's) involved in biomass pre-treatment. The role of these enzymes such as hemicellulose, chitinases, and pectinases are discussed exhaustively including enzyme assisted recovery of high value phenolic compounds and value-added compounds generated during the pre-treatment process. All chapters cover broad topics and thematic areas associated with the pre-treatment step of biorefinery including enzyme mediated water treatment and its associated applications in biofuels, biorefineries and bioconversion. Features: Highlights mechanistic approach how the enzyme being able to regulate the delignification. Discusses advantages of the enzymatic delignification over other physical and chemical methods. Illustrates role of enzymes such as pectinase and chitinases and breaking down of biomass recalcitrance due to presence of pectin and chitin. Consolidates details on de-lignifying enzymes ((Laccase, MnP, LiP and LPMO's) suitable in biomass pretreatment. Explores role of delignifying enzymes in high value phenolic compounds recovery during the enzymatic delignification. This book aims at Graduate students, Researchers and related Industry Professionals in Biochemical Engineering, Environmental Science, Wastewater Treatment, Biotechnology, Applied Microbiology, Biomass Based Biorefinery, Biochemistry, Green Chemistry, Sustainable Development, Waste Treatment, Enzymology, Microbial Biotechnology, and Waste Valorization.

Explores all the modern-day technologies that can be potentially used in enzyme-based biorefinery conversion of wastes to value- added products. Covers technological, economic and environmental assessments of enzyme-based biorefinery prospects Deliberates all possible products that can be generated from wastes including biofuel and essential chemicals Illustrates techniques for enhanced yield and properties to be used in various industrial applications Reviews advanced information of relevant sources and mechanism of enzymes

New techniques, improved understanding and changes in regulations relating to environmental analysis means that students, technicians and lecturers alike need an up-to-date guide to practical environmental analysis. This unique book provides detailed instructions for practical experiments in environmental analysis. The comprehensive coverage includes the chemical analysis of important pollutants in air, water, soil and plant tissue, and the experiments generally require only basic laboratory equipment and instrumentation. The content is supported by theoretical material explaining, amongst other concepts, the principles behind each method and the importance of various pollutants. Also included are suggestions for projects and worked examples. Appendices cover environmental standards, practical safety and laboratory practice. Building on the foundations laid by the highly acclaimed first edition, this new edition has been revised and updated to include information on new monitoring techniques, the Air Quality Index, internet resources and professional ethics. Like its predecessor, this informative text is certain to be valued as an indispensable guide to practical environmental analysis by students on a variety of science courses and their lecturers. Reviews of the first edition: "I strongly urge academics in chemistry, biology, botany, soil science, geography and environmental science departments to give [this book] serious consideration as a course text." Malcolm Cresser, Environment Department, University of York, UK "Destined to become a course text for many university courses ... a high quality, informative introductory text ... there should be multiple copies on most university's library shelves." Environmental Conservation

In the contemporary West, pressures to more effectively reallocate water to meet growing urban and environmental demands are increasing as environmental awareness grows and climate change threatens existing water supplies.
The legacy of Owens Valley raises concerns about how reallocation can occur. Although it took place over seventy years ago, the water transfer from Owens Valley to Los Angeles still plays an important role in perceptions of how water markets work. The memory of Owens Valley transfer is one of theft and environmental destruction at the hands of Los Angeles. In reassessing the infamous transfer, one could say that there was no "theft." Owens Valley landowners fared well in their land and water sales, earning more than if they had stayed in agriculture. In another sense, however, "theft" did occur. The water was not literally stolen, but there was a sharp imbalance in gains from the trade--with most of the benefits going to Los Angeles. Owens Valley, then, demonstrates the importance of distributional issues in water trades when the stakes are large.
Los Angeles water rights in the Owens Valley and Mono Basin have again been a front-page issue since 1970. New environmental and recreational values and air pollution concerns have ushered in demands to curtail the shipment of water from source regions for urban use.
Owen's Valley Revisited: A Reassesment of the West's First Great Water Transfer carefully explores how these sagas were addressed, considering the costs involved, and alternative approaches that might have resulted in more rapid and less contentious remedies. This analysis offers insights to guide the ongoing conversation about water politics and thefuture thereof.
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1. Gives a thorough account of recent advancement in nanomaterials-based water remedial methods 2. Useful for people doing research in Environmental chemistry, Electrochemistry and Nanotechnology 3. Explores the combined possibilities of nanomaterials and electrochemical methods and their synergistic improvement for remedial purpose

The authors of this in-depth study describe the theory and techniques that can be applied to the specific case of valuing potable water provided by groundwater supplies. The theory and techniques can be extended to valuing drinking water provided by surface water supplies, and also to valuing alternative levels of water quality. The theory and case studies discussed in the book suggest that important determinants of the economic value of water quality include: the probability of contamination measured objectively and subjectively, information on actual levels of contamination in household water supplies, socioeconomic characteristics of households, and the extent to which the values of water quality people hold include non-use components. The case study results also suggest that empirical valuation results are sensitive to study design effects such as the particular statistical technique used to estimate mean or median values. These results suggest that estimating water quality values using benefits transfer techniques is problematic, but perhaps feasible with improved data and valuation models. Government agencies, private consulting firms and NGOs involved in water quality policy as well as academic researchers, professors and students will find this volume of theory, application and technique an invaluable reference.

Solid waste management issues are a highly emotive topic. Disposal costs need to be balanced against environmental impact, which often results in heated public debate. Disposal options such as incineration and landfill, whilst unpopular with both the public and environmental pressure groups, do not pose the same environmental and health risks as, for example, recycling plants. This book, written by international experts, discusses the various waste disposal options that are available (landfill, incineration, composting, recycling) and then reviews their impact on the environment, and particularly on human health. Comprehensive and highly topical, Environmental and Health Impact of Solid Waste Management Activities will make a strong contribution to scientific knowledge in the area, and will be of value to scientists and policy-makers in particular.

Gasification of Waste Materials: Technologies for Generating Energy, Gas and Chemicals from MSW, Biomass, Non-recycled Plastics, Sludges and Wet Solid Wastes explores the most recent gasification technologies developing worldwide to convert waste solids to energy and synthesis gas and chemical products. The authors examine the thermodynamic aspects, accepted reaction mechanisms and kinetic constraints of using municipal solid waste (MSW), biomass, non-recycled plastics (NRP), sludges and wet solid wastes as feedstock. They identify the distinctions between pyrolysis, gasification, plasma, hydrothermal gasification, and supercritical systems. A comprehensive summary of laboratory and demonstration activities is presented, as well as field scale systems that have been in operation using solid waste streams as input, highlighting their areas of disconnect and alignment. The book also provides a summary of information on emissions from the stack, comparing them with other thermal conversion systems using similar feedstock. It then goes on to assess the areas that must be improved to ensure gasification systems become as successful as combustion systems operating on waste streams, ranging from feedstock processing to gasifier output gas clean-up, downstream system requirements and corrosion. The economics and future projections for waste gasification systems are also discussed. For its consolidation of the current technical knowledge, this text is recommended for engineering researchers, graduate students, industry professionals, municipal engineers and decision makers when planning, designing and deploying waste to energy projects, especially those using MSW as feedstock.

Water and energy are inextricably linked as unsound management of either resource can have an impact on the cost, availability, and sustainability of the other. This book explores the "energy for water" component of the water-energy nexus. It offers diverse case studies from around the world including the deserts of Saudi Arabia, rural China, Pakistan's Indus Basin, arid Greek islands, and urban centers such as Los Angeles. The analyses show that while many regions face unique water scarcity challenges, they are all united by the fact that solutions require mobilizing energy. This book focuses on how different policies and technologies are changing the way societies use energy to extract, treat, and transport water. In terms of policy, chapters explore how initiatives aimed at reducing demand for water and improved integrated resource planning can lead to energy savings. Regarding technology, case studies highlight the pros and cons of different methods of meeting water demand. Through exploring both technology and policy across a wide range of diverse case studies, the book offers a robust explanation of the "energy for water" side of the water-energy nexus equation, making it valuable reading for academics and policymakers. This book was originally published as a special issue as International Journal of Water Resources Development.

Urban Water Distribution Networks: Assessing Systems Vulnerabilities and Risks provides a methodology for a system-wide assessment of water distribution networks (WDN) based on component analysis, network topology and, most importantly, the effects of a network's past performance on its seismic and/or non-seismic reliability. Water distribution networks engineers and system designers face multiple operational issues in delivering safe and clean potable water to their customers.

This book covers the fundamentals of environmental engineering and applications in water quality, air quality, and hazardous waste management. It begins by describing the fundamental principles that serve as the foundation of the entire field of environmental engineering. Readers are then systematically reintroduced to these fundamentals in a manner that is tailored to the needs of environmental engineers, and that is not too closely tied to any specific application.

Low Cost Wastewater Bioremediation Technology: Innovative Treatment of Sulphate and Metal Rich Wastewater provides users with an authoritative guide on the technologies, processes and considerations needed for the treatment of Sulphate and Metal rich wastewaters. In this book, the authors not only explain the associated technologies, but also provide suitable alternatives to commercial treatment in terms of performance and cost effectiveness. As enormous quantities of sulphates and metal-rich contaminates are released into the environment each year, the technologies noted in the book provide the most eco-friendly, low cost and efficient alternatives available.

1. Captures advanced technologies and applications for assimilation and implementation and addresses a wide spectrum of water issues. 2. Provides real world applications and case studies of advanced spectral and spatial sensors combined with geospatially driven water process modelling. 3. Details applications of the latest remote sensor systems including GRACE, SMAP, AVIRIS, Sentential, MODIS, Landsat 8, RapidEye, AirSWOT, and pays special attention to multidisciplinary cases studies. 4. It is global in coverage with applications demonstrated by more than 170 experts from around the world. 5. Edited by extremely qualified authors with lifelong expertise in water sciences and with an extensive record in books and journal publications.

Droughts, global warming and rising infrastructure costs have brought new attention to water as both an urban planning and an environmental issue. This volume presents many best-practice case studies to show how cities and towns throughout the United States are restoring their wetlands, watersheds, rivers, beaches, and harbors even as rapid urbanization has put more stress on water supplies. These collected accounts are designed to educate citizens and public officials about water-related issues and future concerns. Regional and national resource directories are included.

Water for the Environment: From Policy and Science to Implementation and Management provides a holistic view of environmental water management, offering clear links across disciplines that allow water managers to face mounting challenges. The book highlights current challenges and potential solutions, helping define the future direction for environmental water management. In addition, it includes a significant review of current literature and state of knowledge, providing a one-stop resource for environmental water managers.

This book describes the potential of ferrocement as a construction material; gives details of how septic tanks and aquaprivy waste treatment and soil disposal units are designed and constructed; and gives details of other low-cost sanitation options.