Sustainable Environmental Clean-up


Book Description

Sustainable Environmental Clean-up: Green Remediation includes some natural, clean, and eco-sustainable technologies that have undergone the process of gradual development in past few decades. These technologies include a range of innovative natural and viable materials and offer a clean solution of environmental pollution. It includes case studies of phytoremediation, bioremediation (microbial removal of pollutant), constructed wetlands, natural media filtration for the sustainable environmental cleanup. Sustainable Environmental Clean-up: Green Remediation includes coverage of: Recent trends in eco-sustainable green remediation, Role of constructed wetlands in green remediation, Factor responsible for biodegradation of organic pollutants, Remediation through natural media (Sand, gravel, stope-chips), Microbes and their role in green remediation. Presents recent trends in eco-sustainable green remediation Covers the role of constructed wetlands in green remediation Outlines the factors responsible for biodegradation of organic pollutants Discusses remediation through natural media (Sand, gravel, stope-chips) Explains microbes and their role in green remediation Includes the role of endophytic microbes in organic contamination management




Science and Technology for Environmental Cleanup at Hanford


Book Description

The Hanford Site was established by the federal government in 1943 as part of the secret wartime effort to produce plutonium for nuclear weapons. The site operated for about four decades and produced roughly two thirds of the 100 metric tons of plutonium in the U.S. inventory. Millions of cubic meters of radioactive and chemically hazardous wastes, the by-product of plutonium production, were stored in tanks and ancillary facilities at the site or disposed or discharged to the subsurface, the atmosphere, or the Columbia River. In the late 1980s, the primary mission of the Hanford Site changed from plutonium production to environmental restoration. The federal government, through the U.S. Department of Energy (DOE), began to invest human and financial resources to stabilize and, where possible, remediate the legacy of environmental contamination created by the defense mission. During the past few years, this financial investment has exceeded $1 billion annually. DOE, which is responsible for cleanup of the entire weapons complex, estimates that the cleanup program at Hanford will last until at least 2046 and will cost U.S. taxpayers on the order of $85 billion. Science and Technology for Environmental Cleanup at Hanford provides background information on the Hanford Site and its Integration Project,discusses the System Assessment Capability, an Integration Project-developed risk assessment tool to estimate quantitative effects of contaminant releases, and reviews the technical elements of the scierovides programmatic-level recommendations.




The Political Economy of Environmental Justice


Book Description

The environmental justice literature convincingly shows that poor people and minorities live in more polluted neighborhoods than do other groups. These findings have sparked a broad activist movement, numerous local lawsuits, and several federal policy reforms. Despite the importance of environmental justice, the topic has received little attention from economists. And yet, economists have much to contribute, as several explanations for the correlation between pollution and marginalized citizens rely on market mechanisms. Understanding the role of these mechanisms is crucial to designing policy remedies, for each lends itself to a different interpretation to the locus of injustices. Moreover, the different mechanisms have varied implications for the efficacy of policy responses—and who gains and loses from them. In the first book-length examination of environmental justice from the perspective of economics, a cast of top contributors evaluates why underprivileged citizens are overexposed to toxic environments and what policy can do to help. While the text engages economic methods, it is written for an interdisciplinary audience.




Phytoremediation: Role of Aquatic Plants in Environmental Clean-Up


Book Description

Contamination of the different components of environment through industrial and anthropogenic activities have guided new eras of research. This has lead to development of strategies/methodologies to curtail/minimize environmental contamination. Research studies conducted all over the globe established that bioremediation play a promising role in minimizing environmental contamination. In the last decade, phytoremediation studies have been conducted on a vast scale. Initial research in this scenario focused on screening terrestrial plant species that remove contaminants from soil and air. Later, scientific community realized that water is a basic necessity for sustaining life on earth and quality of which is getting deteriorated day by day. This initiated studies on phytoremediation using aquatic plants. Role of aquatic plant species in cleaning water bodies was also explored. Many of the aquatic plant species showed potential to treat domestic, municipal and industrial wastewaters and hence their use in constructed wetlands for treating wastewaters was emphasized. The present book contains five chapters. First two chapters provide information about types of contaminants commonly reported in wastewaters and enlists some important and well studied aquatic plant species known for their potential to remove various contaminants from wastewater. Subsequent chapters deal with mechanisms involved in contaminant removal by aquatic plant species, and also provide detailed information about role of aquatic plant species in wetlands. Potential of constructed wetlands in cleaning domestic and industrial wastewaters has also been discussed in detail. The strategy for enhancing phytoremediation capacity of plants by different means and effectiveness of phytoremediation technology in terms of monitory benefits has been discussed in last chapter. Last chapter also emphasizes the future aspects of this technology.




Environmental Cleanup


Book Description




Site Assessment and Remediation for Environmental Engineers


Book Description

This book serves as a primary textbook for environmental site investigation and remediation of subsurface soil and groundwater. It introduces concepts and principles of field investigative techniques to adequately determine the extent of contamination in the subsurface for the selection of cleanup alternatives. It then focuses on practical calculations and skills needed to design and operate remediation systems that will both educate students and be useful for entry-level professionals in the field. Features: • Examines the practical aspects of investigating and cleaning up contaminated soil and groundwater • Contains scenarios, illustrations, equations, and example problems with discussions that illustrate various practical situations and interpret the results • Includes end-of-chapter problems to reinforce student learning • Provides a regulatory and risk analysis context, as well as public and community involvement aspects • Discusses sustainability and performance assessment of the remediation methods presented Site Assessment and Remediation for Environmental Engineers provides upper-level undergraduate and graduate students with practical, project-oriented knowledge of how to investigate and clean up a site contaminated with chemicals and hazardous waste.




Environmental Cleanup at Navy Facilities


Book Description

The fiscal and technological limitations associated with cleaning up hazardous waste sites to background conditions have prompted responsible parties to turn to risk-based methods for environmental rememdiation. Environmental Cleanup at Navy Facilities reviews and critiques risk-based methods, including those developed by the U.S. Environmental Protection Agency and the American Society of Testing and Materials. These critiques lead to the identification of eleven criteria that must be part of any risk-based methodology adopted by the Navy, a responsible party with a large number of complex and heavily contaminated waste sites. January




Environmental Cleanup at Navy Facilities


Book Description

The number of hazardous waste sites across the United States has grown to approximately 217,000, with billions of cubic yards of soil, sediment, and groundwater plumes requiring remediation. Sites contaminated with recalcitrant contaminants or with complex hydrogeological features have proved to be a significant challenge to cleanup on every levelâ€"technologically, financially, legally, and sociopolitically. Like many federal agencies, the Navy is a responsible party with a large liability in hazardous waste sites. Environmental Cleanup at Navy Facilitites applies the concepts of adaptive management to complex, high-risk hazardous waste sites that are typical of the military, EPA, and other responsible parties. The report suggests ways to make forward progress at sites with recalcitrant contamination that have stalled prior to meeting cleanup goals. This encompasses more rigorous data collection and analysis, consideration of alternative treatment technologies, and comprehensive long-term stewardship.




Technologies for Environmental Cleanup: Soil and Groundwater


Book Description

Based on the Lectures Given during the Eurocourse on Technologies for Environmental Cleanup: Soil and Groundwater, held at the Joint Research Centre, Ispra, Italy, September 21--25, 1992




Bioremediation for Sustainable Environmental Cleanup


Book Description

The present book, Bioremediation for Sustainable Environmental Cleanup, has a compilation of seventeen chapters comprehensively describing the state-of-the-art on emerging bioremediation approaches employed for sustainable environmental clean-up of diverse environmental pollutants such as metal(loid)s, polycyclic aromatic hydrocarbons, dyes, pesticides, petroleum hydrocarbons, etc., by using bacteria, fungi, algae, higher plants, and novel materials like biohybrids, nano-biomaterials, and graphitic carbon nitride (g-C3N4). Different bioremediation strategies such as biosorption, bioprecipitation, bioaccumulation, biodegradation, biotransformation etc. have been described in detail. The emphasis throughout, however, is on sustainable environmental clean-up. Eminent researchers from various countries located in diverse geographical areas, including Argentina, Canada, Germany, India, Pakistan, South Africa, the United Kingdom, and the United States of America, have contributed towards the chapters of this book.