Symposium LL, 'Scientific Basis for Nuclear Waste Management XXXVI', was held November 25-30 at the 2012 MRS Fall Meeting in Boston, Massachusetts. This Symposium continues to set the research agenda in the field of radioactive waste management, charting the development of waste processing, conditioning, packaging and disposal. Symposium XXXVI featured 77 presentations, delivered over four days during the 2012 MRS Fall Meeting, from participants in Australia, Austria, Finland, France, Japan, Russia, Spain, Sweden, Switzerland, the United Kingdom, and the United States of America. Sessions reported on advances in glass and ceramic wasteforms, conditioning of technetium, management of spent nuclear fuel, and geological disposal, plus a special joint session with Symposium HH, on radiation effects in nuclear materials. Each paper provides a snapshot of the exciting recent developments in each of these areas and the international progress toward achieving the safe, timely and cost-effective management and disposal of radioactive wastes.

Assuming no previous knowledge, this book provides comprehensive coverage for a first course in hazardous waste management for environmental engineers and managers. It is written primarily for generators of hazardous waste with a primary emphasis on source reduction, waste minimization, reuse, and recycling before waste disposal. The book provides guidance on how to determine the proper category of hazardous waste generators, with separate and distinct sets of requirements for the three different categories of generators, and gives basic supplemental guidance for transporters, storage, and disposal facilities. It covers proper completion of hazardous waste manifests and reports. The book explains record keeping, personnel training, and other requirements necessary to be in full compliance on inspections. A companion CD with regulatory forms, data is included.Selected Topics: Introductory history and overview of hazardous waste management laws, rules and regulations; a practical guide to complying with the regulations, including the identification of hazardous wastes; proper management of these wastes on-site; preparing generator annual reports, manifests, personnel safety training; hazardous waste management training for staff; proper record-keeping for future regulatory inspections.

First published in 1986: The Purpose of this book is to provide working managers with a comprehensive introduction to practical operational aspects of hazardous waste management and with an extremely important foundation in relevant laws, rules and regulations.

Achieving environmental sustainability with rapid industrialization is a major challenge of current scenario worldwide. As globally evident, industries are the key economic drivers, but are also the major polluters as untreated/partially treated effluents discharged from the industries is usually thrown into the aquatic resources and also dumped unattended. Industrial effluents are considered as the major sources of environmental pollution as these contains highly toxic and hazardous pollutants, which reaches far off areas due to the medium of dispersion and thus, create ecological nuisance and health hazards in living beings. Hence, there is an urgent to find ecofriendly solution to deal with industrial waste, and develop sustainable methods for treating/detoxifying wastewater before its release into the environment. Being a low cost and eco-friendly clean technology, bioremediation can be a sustainable alternative to conventional remediation technologies for treatment and management of industrial wastes to protect public health and environment. Therefore, this book (Volume I) covers the bioremediation of different industrial wastes viz. tannery wastewater, pulp and paper mill wastewater, distillery wastewater, acid mine tailing wastes, and many more; which are lacking in a comprehensive manner in previous literature at one place. A separate chapter dedicated to major industries and type of waste produced by them is also included. This book will appeal to students, researchers, scientists, industry persons and professionals in field of microbiology, biotechnology, environmental sciences, eco-toxicology, environmental remediation and waste management and other relevant areas, who aspire to work on the biodegradation and bioremediation of industrial wastes for environmental safety.

Healthy environment is important for any kind of biota on earth. It provides the basic elements of life such as clean water, fresh air, fertile soil and supports ecosystem of the food chain. Pollution drastically alters quality of the environment by changing the physico-chemical and biological aspects of these components. Accordingly, toxic metals, combustible and putrescible substances, hazardous wastes, explosives and petroleum products are all examples of inorganic and organic compounds that cause contaminations. Specifically, pollution of toxic and heavy metal in the environment is a growing problem worldwide, currently at an alarming rate. Toxic metals threaten the aquatic ecosystems, agriculture and ultimately human health. Traditional treatment techniques offer certain advantages such as rapid processing, ease of operation and control and flexibility. But, they could not maintain the quality of the environment due to the high operational costs of chemicals used, high energy consumption and handling costs for sludge disposal and overburden of chemical substances which irreversibly affect and destroy biodiversity, which ultimately render the soil useless as a medium for plant growth. Therefore, bioremediation and biotechnology, carried out by living assets to clean up, stabilize and restore contaminated ecosystems, have emerged as promising, environmental friendly and affordable approaches. Furthermore, the use of microbes, algae, transgenic plants and weeds adapted to stressful environments could be employed to enhance accumulation efficiency. Hence, sustainable and inexpensive processes are fast emerging as a viable alternative to conventional remediation methods, and will be most suitable for developing countries. In the current volume, we discuss pollution remediation challenges and how living organisms and the latest biotechnological techniques could be helpful in remediating the pollution in ecofriendly and sustainable ways.

Nuclear Corrosion: Research, Progress and Challenges, part of the "Green Book" series of the EFC, builds upon the foundations of the very first book published in this series in 1989 ("Number 1 - Corrosion in the Nuclear Industry"). This newest volume provides an overview on state-of-the-art research in some of the most important areas of nuclear corrosion. Chapters covered include aging phenomena in light water reactors, reprocessing plants, nuclear waste disposal, and supercritical water and liquid metal systems. This book will be a vital resource for both researchers and engineers working within the nuclear field in both academic and industrial environments.

The latest edition of this book brings together a wide range of occupational safety and health recommendations and practices directly applying to hazardous waste site cleanups. In addition to providing the most current information on maximum protection for cleanup personnel, this book is a practical, authoritative guide for those involved in cleanup operations.
The completely updated third edition cites the newest OSHA and NIOSH recommendations that have developed over the past decade and explores the new federal emphasis in hazardous waste site cleanups such as radiation safety, toxicology, unexploded ordnance, OSHA training, EPA training, and site health and safety plans.
Covers a wide array of occupational safety and health practices and recommendations applicable to hazardous waste clean-up
Provides the most up-to-date information on maximum protection for workers
Cites the newest OSHA and NIOSH recommendations and explores federal government emphases in the area

Decommissioning nuclear facilities is a relatively new field, which has developed rapidly in the last ten years. It involves materials that may be highly radioactive and therefore require sophisticated methods of containment and remote handling. The wastes arising from decommissioning are hazardous and have to be stored or disposed of safely in order to protect the environment and future generations. Nuclear decommissioning work must be carried out to the highest possible standards to protect workers, the general public and the environment. This book describes the techniques used for dismantling redundant nuclear facilities, the safe storage of radioactive wastes and the restoration of nuclear licensed sites.
* Describes the techniques used for dismantling nuclear facilities, safe storage of radioactive wastes, and the restoration of nuclear licensed facilities.
* Provides the reader with decommissioning experience accumulated over 15 years by UKAEA.
* Contains valuable information to personnel new to decommissioning and waste management.

Many engineers, from the chemical and process industries, waste treatment system management and design to the clean-up of contaminated sites, are engaged in careers that address hazardous wastes. However, no single book is available that explains how to manage the risks of those wastes. At best it is dealt with in diverse sections of books on the general field of environmental engineering, and in various treatments of the subject of risk, statistics and hazard assessment.
This is a reference and text that blends together theoretical explanations, techniques and case study examples to complement practical knowledge. These include problems with solutions, case studies of current and landmark hazardous waste problems, a companion website, and reference sections that will make certain that this text stays on the practicing engineer's bookshelf.
- Addresses a subject of theoretical and regulatory importance
- The only book to take this approach
- Includes textbook case studies and examples as well as practical advice

In this book, editor G Rasul Chaudhry presents a wide range of topics authored by researchers at the cutting edge of biodegradation and bioremediation. The book includes recent research describing how microorganisms clean soil and water, and how they remove toxic substances. It also presents information on how genetics and molecular biological methods are used to improve the ability of microorganisms to degrade a variety of substances.

Hazardous Waste Compliance concentrates on government regulations as they relate to hazardous waste and other hazardous materials. The main focus of this book is on how to comply with these requirements as well as on other best management practices (BMP), which will ensure worker safety and business protection from the risk of the commercial penalties associated with regulations breaches.
The authors provide the reader with useful techniques to enhance worker protection and promote efficiency, productivity and cost effectiveness, along with achieving the necessary quality standards for the work being performed. The authors further outline and define methods to help reduce worker injury and illness, the scope and application of HAZWOPER, and ways to implement hazardous material related requirements through enhancements of existing programs.
In addition, detailed discussion helps to provide methods to help promote consistency in health and safety program development for handling hazardous materials, encourage a high standard for health and safety, and share lessons learned to help provide approaches that have been implemented on hazardous waste and other sites.

Provides a comprehensive overview of regulatory requirements in the industry
Real-life experiences are presented in the form of case histories
A training aid for both new and experienced site workers

TheI&ECSYMPOSIUMfromwhichthisvolumewasderivedfeatured519presen- tationsat88technicalsessionsduringathree-daymeetingonSeptember17-20, 1996in Birmingham,Alabamawith580registrants. Thefinalselectionsforthechaptersincluded hereinwerebasedonpeerreview,scientificmerit,theeditors'perceptionsoflastingvalue orinnovativefeatures, andthegeneralapplicabilityofeitherthetechnologyitselforthe scientificmethodsandscholarlydetailsprovidedbytheauthors. Thevolume isacontinuationofathemeinitiatedin 1990. Itspredecessors,Emerg- ing Technologies in Hazardous Waste Management, ACS Symposium Series No. 422 (1990), EmergingTechnologiesinHazardous WasteManagementII,ACSSymposiumSe- ries No. 468 (1991), Emerging Technologies in Hazardous WasteManagement III, ACS SymposiumSeriesNo. 518(1993), EmergingTechnologiesinHazardous WasteManage- mentIV, ACSSymposium Series No. 554 (1994),Emerging Technologies in Hazardous WasteManagement V. ACSSymposiumSeriesNo. 607(1995), andEmergingTechnolo- gies in Hazardous Waste Management VI, American AcademyofEnvironmental Engi- neersPublication (1996), arerelatedcontributionsonhazardouswastemanagement,but eachvolumeisessentiallydifferent. Byinspection,thereadermayquicklyrecognizethis diversity,andalsoconcludethatnosinglevolumecandojusticetothebreadthanddepth oftechnologiesbeingdevelopedandappliedinpractice. Thecontributionspresented in thisvolumearedivided intofourseparatebutcom- plementary sections, including: (1) Chemical and Thermal Treatment; (2) Biochemical Treatment;(3)SeparationTechnologies;and(4)RadioactiveWasteTreatment. D. WilliamTedder FrederickG. Pohland GeorgiaInstituteofTechnology UniversityofPittsburgh Atlanta, Georgia30332-0100 Pittsburgh,Pennsylvania15261-2294 v ACKNOWLEDGMENTS The Industrial & Engineering Chemistry (I&EC) Division ofACS organized and sponsored the symposium. ACS Corporate Associates was a majorfinancial cosponsor; theAmericanInstituteofChemicalEngineers(AIChE)EnvironmentalSciencesDivision, theAIChECenterforWasteReductionTechnologies,theAmericanAcademyofEnviron- mental Engineers,andtheJointAssociationfor theAdvancementsofSupercriticalFluid Technologywerenominalcosponsors;andEnviroExpocositedanexhibition. Thisgener- osity was essential to the overall successofthe symposium and is gratefully acknow- ledged. vii CONTENTS I. EmergingTechnologiesinHazardousWasteManagementVII:AnOverview...FrederickG. PohlandandD. WilliamTedder ChemicalandThermalMethods 2. GranularIronOxideasaCatalystinChemicalOxidationofOrganic Contaminants...9 MiratD. Gurol,Shu-SungLin,andNileshBhat 3. AnElectronBeamGeneratedPlasmaReactorforDecompositionof HalogenatedVOCs 23 S. A. Vitale, K. Hadidi,D. R. Cohn, L. Bromberg,andP. Falkos 4. IncinerationandThermalTreatmentofChemicalAgentsandChemicalWeapons 33 F. C. GouldinandE. M. Fisher 5. PredictingStabilityConstantsofVariousChelatingAgentsUsingQSAR Technology 49 R. W. Okey,S. Lin,andP. K. A. Hong 6. MineralizationofHazardousChemicalsbyHemeReaction ...69 GuyoungKang,JimoJung,KapsongPark,andDavidK. Stevens BiochemicalTreatment 7. AnaerobicTransformationsofCarbonTetrachloride:CombinedBacterialand AbioticProcesses 81 FlynnW. Picardal,SanggooKim,AnnaRadue,andDeberaBackhus 8. BiorecoveryofMetalsfromAcidMineDrainage...91 RakeshGovind,UmaKumar,RamaPuligadda,JimmyAntia,and HenryTabak ix x Contents 9. BiotreatmentofMinewater-ContainingCyanidesbyUsingImmobilizedCell Technology 103 Onguri K. Vijaya,G. R. V. Babu,JackAdams,JamesH. Wolfram,and KiritD. Chapatwala 10. Augmentationofin-SituSubsoilRemediationUsingColloidalGasDispersions 113 P. G. Chaphalkar,K. T. Valsaraj,D. Roy, W. D. Constant,andP. Lee 11. EffectofSorptionontheMicrobialReductiveDechlorinationofSoil-Bound Chloroalkenes 127 SpyrosG. PavlostathisandPingZhuang SeparationTechnologies 12. TheRemovalofVOCsfromExhaustAirandVapourCondensatesby MembraneProcesses ...

Hitherto the disposal of munitions was mostly concerned with obsolete stocks, but the political developments in the states of the former Soviet Union have necessitated the disposal of vast quantities of current and obsolete stocks. Obviously, open burning/open detonation cannot be used on such a large scale, not least for environmental considerations. There are two main technical problems associated with the disposal of munitions on the scale required. First, the materials are not simple wastes or rubbish. Their handling, storage, packaging and transportation are subject to very rigid regulation, and justifiably so, for obvious reasons. Second, they are very valuable goods, for which a high price has been paid by the holding states' economic systems. Mere destruction would mean the irretrievable loss of the value invested. But therein lies the problem. Goods like steel or brass scrap can easily be reclaimed, but hypergols and other rocket fuels (for instance) represent a true chemical challenge, while, under certain conditions, explosives may be diverted to civilian use. This, in summary, is the problem that the present book deals with: the two-pronged attack involving demilitarization and recycling technologies.

Every day throughout Britain, by road, by rail and by sea, there are large numbers of routine movements of radioactive cargo. Materials at all stages of the nuclear cycle, from uranium ore to nuclear waste, from nuclear warheads to radioactive isotopes used in medicine, are constantly on the move. In normal circumstances handling low-level material exposes workers to small doses of radiation, but a serious accident could lead to widespread contamination and to the major risk of additional deaths from cancer. The accident record is not good. There are repeated small accidents and many people believe that the major accident is simply waiting to happen. This book gives a thorough account of what is moved, by wham and far what purpose. It considers the risks, including that of terrorism, the safety record and the precautions. It also highlights the perils of the secrecy surrounding the industry: for example, local councils are responsible for coping with any accident, but are not told when or where nuclear movements are taking place. Martin Bond's careful work is a large step towards order in a chaotic industry. Originally published in 1992

Increasing demand on industrial capacity has, as an unintended consequence, produced an accompanying increase in harmful and hazardous wastes. Derived from the second edition of the popular Handbook of Industrial and Hazardous Wastes Treatment, Hazardous Industrial Waste Treatment outlines the fundamentals and latest developments in hazardous waste treatment in various process industries, such as metal finishing, photographic processing, wood treatment, and explosives. Comprehensive in scope, the book provides information that is directly applicable to daily waste management problems throughout the industry. The book contains in-depth discussions of environmental pollution sources, waste characteristics, control technologies, management strategies, facility innovations, process alternatives, costs, case histories, effluent standards, and future trends for the process industry. It includes extensive bibliographies for each type of industrial process waste treatment or practice, invaluable information to anyone who needs to trace, follow, duplicate, or improve on a specific process waste treatment practice. A quick scan of the chapters and contributors reveals the depth and breadth of the book's coverage. Hazardous Industrial Waste Treatment provides technical and economical information on how to develop the most feasible total environmental control program that can benefit both industry and local municipalities.

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.'

This book describes many novel approaches of microbial bioremediation including conventional and modern approaches, metagenomics, biosurfactants and nano-based bioremediation. Also presents up-to-date knowledge about biodegradation of solid and liquid contaminants in the rhizospheric zone by plant (rhizo)-microbiome interface. It also illustrates communication pathways based on evolving methodologies, bioinformatic tools which provides insights into the functional dynamics of bioremediation process by the host-microbiome interface. The different chapters explain the mechanism and outcomes during the process of bioremediation. The book broadly depicts the following: Advances in bioremediation through nanoremediation, rhizo-remediation, bioremediation of different ecosystems like polluted waters, industrial effluents, bioremediation of metal and organic pollutants, toxic dyes etc. The book is very useful for researchers and students in the fields of applied and environmental microbiology. It is also meant for industry experts and professionals working in the field of bioremediation and waste management.

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 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

This volume offers a review of measures taken at different levels to prevent oil inputs to the North Sea from sources such as shipping and oil installations. A range of data from satellites, remote sensing, aerial surveillance, in-situ monitoring, oil spill sampling and beached bird surveys presents a comprehensive portrait of trends in oil pollution over many years. Topics include Bonn Agreement-based actions to eliminate illegal and accidental pollution from ships, OSPAR monitoring of oil installations, EMSA CleanSeaNet activities, and an internationally approved common standard for oil spills presented by the Bonn-OSINet. A chapter on the role of the IMO in preventing oil pollution from ships provides an international context, while others discuss efforts being made at the national level. A decadal review of the state of the North Sea prepared by OSPAR supports the view that there has been a significant reduction of oil inputs to the sea. This thorough review addresses national and international agencies and government bodies, as well as policymakers and practitioners in the fields of shipping, ports and terminals, oil extraction and marine management. Further, it provides researchers with essential reference material on tools and techniques for monitoring oil pollution and offers a valuable resource for undergraduate and post-graduate students in the field of marine oil pollution.

Radioactive wastes resulting from over 40 years of production of nuclear weapons in the U. S. are currently stored in 273 underground tanks at the U. S. Department of Energy Hanford site, Idaho National Engineering and Environmental Laboratory, Oak Ridge Reservation, and Savannah River site. Combined, tanks at these sjtes contain approximately 94,000,000 gallons of waste in a variety of forms including liquid, concrete-like salt cake, and various sludges. More than 730,000,000 curies of several radioactive isotopes are present in the underground tanks. Certainly, one of the greatest challenges facing the U. S. Department of Energy is how to characterize, retrieve, treat, and immobilize the great variety of tank wastes in a safe, timely, and cost-effective manner. For several years now, the U. S. Department of Energy has initiated and sponsored scientific and engineering studies, tests, and demonstrations to develop the myriad of technologies required to dispose of the radioactive tank wastes. In recent times, much of the Department of Energy R&D activities concerning tank wastes have been closely coordinated and organized through the Tanks Focus Area (IF A); responsibility for technical operations of the TF A has been assigned to the Pacific Northwest National Laboratory.

Little is known about the volume of international recycling in Asia, the problems caused and the struggle to properly manage the trade. This pathbreaking book addresses this gap in the literature, and provides a comprehensive overview of the international trade flow of recyclable waste in Asia and related issues. The expert contributors discuss the various types of recyclable waste that Asian countries import, and illustrate that there are consequently higher numbers of cheaper informal recyclers with lower pollution control costs than formal recyclers with more expensive but environmentally sound technologies. They explore how governments across China, Vietnam, South Korea and Japan are therefore struggling to minimize the negative impact from informal recycling via trade regulation of recyclable and hazardous waste and comprehensive cooperation mechanisms to promote efficient use of resources. Preventive measures against illegal and/or improper transboundary movement of hazardous waste in Asia are also analyzed. This unique and fascinating book aims to facilitate a common understanding of the issues caused by international recycling in Asia to encourage effective international and regional cooperation in order to establish a sound recycling system. As such, it will prove an invaluable resource to academics, researchers and students with an interest in Asian studies, economics, environmental studies, international economics and industrial economics. Contributors: V. Atienza, S. Chung, M. Kojima, E. Michida, S. Sakata, S. Sasaki, T. Terao, J. Tsuruta, A. Yoshida