This book aims to aid decision-makers in planning, siting, designing, and operating composting facilities. It is also useful to citizens, regulators, consultants, and vendors interested in the composting of yard trimmings and municipal solid waste.

This book explores state-of-art techniques based on methodological and modeling aspects of solid and hazardous waste management, specifically focusing on the recent trends in data acquisition and robust modeling of the results obtained. In addition to an in-depth description of the recent regulatory paradigm for solid waste disposal and revealing insights into solid waste management models, the book also addresses significant case history and remediation methodologies for sustainable development in emerging economies like India, China and Brazil. The main emphasis is on a suitable regulatory framework with site-specific baseline calibration and aimed at the robust modeling of contaminant transport and its remediation. This is based on instructive case history in various locations/regions worldwide. The focus on recent modeling and quantification methods is the backbone of the book. One of the major aspects discussed is the application of non-invasive methods for studies related to the Earth's interior, which are increasingly preferred over invasive techniques thanks to their economic utility, as well as robust techniques for the interpretation of geophysical data. The increasing demand for groundwater and energy resources, especially for rapidly emerging countries with large populations like India and China, has made it vital to derive safe utilization approaches for our resources, including suitable waste disposal and remediation methodologies that can be adopted for 'contaminated sites.'

Although much information and experience in landfill design and operation has been obtained in recent years, only a few meet the current standards for an environmentally acceptable landfill. In view of the increasing public awareness and new scientific understanding of waste disposal problems, the standards for landfilling of waste may improve even further in the years to come. The first volume in this series dealt with leachate, the strongly contaminated wastewater developing in landfills. Aspects such as landfill hydrology, leachate characterization and composition, factors controlling leachate quality, principles of leachate treatment and effects of leachate in groundwater are discussed in great detail. This book, the second in the series, deals with lining and leachate collection. After an introductory chapter presenting the various issues of lining and drainage, aspects such as design and construction of lining systems, properties and quality control of clay and synthetic materials, geotextiles and geogrids, and finally drainage and collection systems are discussed in detail. Scientists working in the fields of environmental engineering, civil/geotechnical engineering, sanitar

Principles, methods, and calculations for evaluating, designing and operating anaerobic systems

Resource Recovery in Industrial Waste Waters provides a holistic approach for discovering and harnessing valuable resources from industrial wastewaters, the cutting-edge technologies required, and a discussion on the new findings. In three volumes, the books stress the importance of contaminated waters' remediation, including surface waters, municipal or industrial wastewaters and treating these waters as a new source of nutrients, minerals and energy. It introduces polluted waters as new and sustainable sources, rather than seeing wastewaters as only a source of hazardous organic and inorganic matters. Sections discuss wastewater treatment and recovery and contribute to generate a sustainable approach of wastewater by providing the main advantages and disadvantages of both wastewater/polluted water treatment and recovery.

Resource Recovery in Drinking Water Treatment concentrates on techniques and methods for water purification. The book develops a new approach—resource recovery—toward drinking water, including the role of methods (adsorption, membrane, ion – exchange, biosorption, coagulation, etc.) and nanocomposites (such as biochar, sludge-based composites, chitosan, polymer, magnetic particles, etc.) in water resource recovery. It provides an in-depth overview on emerging water treatment techniques and the resource recovery of materials during the treatment process. Finally, the book aims to introduce polluted waters as new and sustainable sources rather than seeing wastewaters only a source of hazardous organic and inorganic matters. This book is part of a three-volume set that stresses the importance of contaminated water remediation, including surface waters, municipal or industrial wastewaters, and waters as a new source of nutrients, minerals and energy.

Resource Recovery in Municipal Waste Waters provides various municipal wastewater remediation methods and techniques to recover materials from such wastewaters. Sections cover the basic principles of resource recovery, along with the recovery of methane, phosphorous, electricity and metals. The volume covers comprehensive cutting-edge techniques for resource recovery and municipal wastewater treatment and reports on new findings in these areas. It also introduces polluted waters as new and sustainable sources rather than seeing wastewaters as a source of hazardous organic and inorganic matters. The main advantages and disadvantages of both wastewater/polluted water treatment and recovery are also discussed. This three-volume set stresses the importance of contaminated waters remediation, including surface waters, municipal or industrial wastewaters, treating these waters as a new source of nutrients, minerals and energy.

Septic Systems Handbook, Second Edition covers all aspects of such topics as septic tanks, perk tests, leachlines, and onsite disposal technologies. This handy reference is filled with numerous practical tips for troubleshooting and creative problem solving. The many appendices offer valuable information, including dealing effectively with bureaucracy and the legal system, as well as presenting various technical aspects of septic systems.

This book is the third volume in a three-volume set on Solid Waste Engineering and Management. It focuses on tourism industry waste, rubber tire recycling, electrical and electronic wastes, health-care waste, landfill leachate, bioreactor landfill, energy recovery, innovative composting, biodrying, and health and safety considerations pertaining to solid waste management.. The volumes comprehensively discuss various contemporary issues associated with solid waste pollution management, impacts on theenvironmental and vulnerable human populations, and solutions to these problems.

The Treatment of Pharmaceutical Wastewater: Innovative Technologies and the Adaptation of Treatment Systems covers the various aspects of pharmaceutical sources, treatment technologies, their harmful effects on the natural environment, and new technological developments and upgrading of existing treatment systems. This book highlights the 3Rs (reduce, reuse, recycle) applied to treatment and resource recovery systems for pharmaceutical treatment. Case studies are included to enable fuller understanding of the practical aspects of treatment and modeling. This helpful guide is for civil and environmental engineers and researchers who want to understand the complex nature and treatment schemes for pharmaceutical wastewaters.

This fascinating reference offers a unique take on recycling and trash, tracing the role of waste in public health, climate change, and sustainability around the world. As the popularity of sustainability grows and climate change becomes an accepted reality, experts point to trash and waste as the link between environmental and public health. This detailed reference-one of the most comprehensive resources available on the subject-examines garbage disposal on a global level, from the history of waste management, to the rise of green movements and recycling programs, to the environmental problems caused by incineration and overflowing landfills. According to urban planning scholar Robert William Collin, accounting for waste will improve the chances for environmental protection, public health, and sustainability. This country-by-country guide studies waste management practices and related topics from around the world, including garbage strikes in Italy, successful recycling programs in Switzerland, trash in the streets of India, and the garbage patch floating in the Pacific Ocean. Country entries cover a brief history of garbage disposal, current methods of removal, recycling, and waste management problems specific to the region. Additional content addresses air and water pollution, greenhouse gas emissions, E-waste, and hazardous and nuclear wastes. Includes comparisons of the waste, public health, and emissions profile for many countries Provides a general introduction to the issue of global waste management Reveals the various methods of disposal across the world Features charts, graphs, and tables that present facts and figures to illustrate key statistics Shares interesting facts and accounts of garbage disposal problems

Bio-Based Materials and Wastes for Energy Generation and Resource Management is the fifth and final volume in the series, Advanced Zero Waste Tools: Present and Emerging Waste Management Practices. It addresses processes and practices for utilizing bio-based materials and wastes to support efforts to promote a more sustainable society and provide readers with a better understanding of the major mechanisms required to achieve zero waste in different fields. This book covers numerous mechanisms supported by scientific evidence and case studies, as well as in-depth flowcharts and process diagrams to allow for readers to adopt these processes. Summarizing present and emerging zero waste tools on the scale of both experimental and theoretical models, Advanced Zero Waste Tools is the first step toward understanding the state-of-the-art practices in making the zero waste goal a reality. In addition to environmental and engineering principles, it also covers economic, toxicologic, and regulatory issues, making it an important resource for researchers, engineers, and policymakers working toward environmental sustainability.

This book highlights novel materials for dye-containing wastewater treatment and presents an up-to-date information on dye degradation/adsorption using new promising materials such as nanocomposites. Development of various industrial sectors, including textile, food, paper, leather, rubber, cosmetic and printing has led to generation of wastewater which contain dye molecules as well as other inorganic and organic compounds. Considering serious health hazards and environmental damage associated with dyes in the environment, researchers and professionals have been attempting to find the most effective methods of treatment. Of late, various composites have received wide attention due to their outstanding properties in wastewater treatment, that are presented in this book.

This is the only book that covers containment, specifically for the process industries. This Guide covers the range of containment equipment from simple air-flow control devices to enclosures that restrict exposures to well below a microgram per cubic meter averaged over a working day. The selection of a particular containment system for a particular transfer operation can be difficult because of the wide choice available. This Guide provides a structured approach to the selection process.
Covers the legislation for containment guidelines in the US, UK, and Europe
Provides an exhaustive list of containment equipment, including chapters on maintenance and reliability
Shows the engineer how to develop a containment strategy for his/her plant

There are a growing number of new chemicals in the environment that represent an ascertained or potential risk. Many of them can be found in sewage sludge and are the subject of this volume. Experts in the field highlight their occurrence and fate, risks of biosolid use, advanced chemical analysis methods, and degradation techniques with a special focus on biodegradation using fungi. In the final chapter conclusions and trends are offered as a point of departure for future studies. The double-disciplinary approach combining environmental analysis and engineering makes the book a valuable and comprehensive source of information for a broad audience, such as environmental chemists and engineers, biotechnologists, ecotoxicologists and professionals responsible for waste and water management.

The annual cost of medical care in the U niled States is rapidly approaching a trillion dollars. Without doubt, much of the rise in costs is due to our health industry's concentration on high technology remediation and risk avoidance measures. From recent public discussions it is becoming in creasingly evident that to contain the costs and at the same time extend the benefits of health care without national bankruptcy will necessitate much greater attention to preventative medicine. The total cost of waste disposal by our health industry is well over a billion dollars. It is rising rapidly as we increasingly rely on high technol ogy remediation measures. Here, too, in the opinion of the authors of this work, it would be prudent to give much greater attention to preventative approaches. Incineration technology has largely been developed for disposing mu nicipal solid waste (MSW) and hazardous waste (HW). As a result of the multibillion dollar funding for the Resource Conservation and Recovery Act (RCRA), most experts believe that pollution control is the key to minimizing toxic emissions from incinerators. This view is now beginning to take hold in medical waste (MW) incineration as well. However, the authors contributing to this book have concluded that precombustion measures can be most effective in reducing the toxic products of medical waste incineration."

This book aims to structure, in a complete and sequential way, the mainstream technical knowledge which is related to eutrophication control. The book considers the development of innovative technologies for phosphate removal, while supporting the restoration of currently degraded lakes and reservoir systems. In addition, this book contains key-aspects of future benchmark interests being specially framed under the ongoing development of a circular economy. In particular, the book will contribute to a better understanding of the problem of internal P-loads and P-sources disposition towards a more effective control of nutrients' enrichment in lakes. The chemical routes and environmental fate of such lake nutrients will be viewed in the light of innovative technologies (engineering dimensions) and circular economy perspectives (economics dimensions). The main theme extends to an economic appreciation of environmental polluted aquifers. The book will appeal to an interdisciplinary audience, covering a wide spectrum of scientific fields, such as environment, physical chemistry, surface chemistry, interfacial phenomena, coastal engineering, bio-engineering, environmental policy makers, and economists.

Sustainable Biochar for Water and Wastewater Treatment addresses the worldwide water contamination and scarcity problem by presenting an innovative and cost-efficient solution. This book directly deals with the Sustainable Development Goal 6: Ensure availability and sustainable management of water and sanitation for all. Each chapter is authored by a respected expert in the field of water and wastewater treatment, with each chapter including case studies, worked examples, and exercises. As such, the book is the perfect introduction to the field and is multipurpose in that it can be used for teaching, learning, research, and practice. The book is invaluable for undergraduate level and above in water science, environmental sciences, soil science, material sciences and engineering, chemical sciences and engineering, and biological sciences. The book covers the various aspects of biochar requirements for use in adsorption science and technology. It includes vital information on this hot topic and provides a real solution to the global issues of water contamination and scarcity.

This book provides readers with the most current knowledge on hazardous waste management practices. It addresses the rapidly changing advances in waste stream characterization and the discovery of new chemicals - which have led to new hazardous wastes, technological innovation, stringent environmental regulations, changes in transport and dispersion modelling of hazardous pollutants, and new waste management techniques. Hazardous Waste Management: Advances in Chemical and Industrial Waste Treatment and Technologies is an invaluable reference for waste management and treatment professionals, chemical engineers and technicians, medical professionals, and environmental regulators, as well as students taking courses on hazardous waste management, environmental engineering, and environmental science.

This book is based on recent trends for the research in emerging environmental contaminants in different compartment of the environment. It provides a recent understanding for the fate, transport, and degradation of emerging contaminants in different environmental sectors, including water, air, and soil. The contents discuss the fate and transport of microplastics, PPCPs, along with the method of detection and degradation. It includes removal of variety of pollutants including microplastics, pharmaceuticals, and personal care products from the water using adsorption technique, electrooxidation, membrane technology and other advance oxidation methods. This volume will be of great value to those in academia and industry involved in environmental science and engineering research.

This book reviews principles, techniques and applications of metal, metal oxides, metal sulfides and metal-organic frameworks for removal and degradation of pollutants. Natural materials are often much more advanced than synthetic materials in terms of circularity and are functional, often biodegradable, recyclable and generate little waste. They are, therefore, a source of inspiration for new synthetic materials. In particular, recent research has focused on various types of functional materials such as organic, inorganic, nanostructured and composites for the remediation of environmental pollution.

The research papers presented in these proceedings volumes cover the latest developments and findings in the fields of mine health, safety, energy, waste management,reclamation and rehabilitation, mine closure and environmental protection. Authors from over 20 countries with backgrounds in chemistry, engineering, technology and management, and hailing from the government, industry and academia, have contributed to this book. The contents of this book will be of interest to scientists, engineers, consultants and government personnel who are responsible for the development and implementation of innovative approaches, techniques and technologies in the minerals industries. It will also benefit academic researchers, as it addresses the latest advances in fundamental research.

The concept of circular economy is based on strategies, practices, policies, and technologies to achieve principles related to reusing, recycling, redesigning, repurposing, remanufacturing, refurbishing, and recovering water, waste materials, and nutrients to preserve natural resources. It provides the necessary conditions to encourage economic and social actors to adopt strategies toward sustainability. However, the increasing complexity of sustainability aspects means that traditional engineering and management/economics alone cannot face the new challenges and reach the appropriate solutions. Thus, this book highlights the role of engineering and management in building a sustainable society by developing a circular economy that establishes and protects strong social and cultural structures based on cross-disciplinary knowledge and diverse skills. It includes theoretical justification, research studies, and case studies to provide researchers, practitioners, professionals, and policymakers the appropriate context to work together in promoting sustainability and circular economy thinking. Volume 1, Circular Economy and Sustainability: Management and Policy, discusses the content of circular economy principles and how they can be realized in the fields of economy, management, and policy. It gives an outline of the current status and perception of circular economy at the micro-, meso-, and macro-levels to provide a better understanding of its role in achieving sustainability. Volume 2, Circular Economy and Sustainability: Environmental Engineering, presents various technological and developmental tools that emphasize the implementation of these principles in practice (micro-level). It demonstrates the necessity to establish a fundamental connection between sustainable engineering and circular economy.