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Books > Professional & Technical > Environmental engineering & technology > Sanitary & municipal engineering > Waste treatment & disposal > Hazardous waste treatment & disposal
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.
Radioactive wastes are generated from a wide range of sources,
including the power industry, and medical and scientific research
institutions, presenting a range of challenges in dealing with a
diverse set of radionuclides of varying concentrations.
Conditioning technologies are essential for the encapsulation and
immobilisation of these radioactive wastes, forming the initial
engineered barrier required for their transportation, storage and
disposal. The need to ensure the long term performance of
radioactive waste forms is a key driver of the development of
advanced conditioning technologies.
The Handbook of advanced radioactive waste conditioning
technologies provides a comprehensive and systematic reference on
the various options available and under development for the
treatment and immobilisation of radioactive wastes. The book opens
with an introductory chapter on radioactive waste characterisation
and selection of conditioning technologies. Part one reviews the
main radioactive waste treatment processes and conditioning
technologies, including volume reduction techniques such as
compaction, incineration and plasma treatment, as well as
encapsulation methods such as cementation, calcination and
vitrification. This coverage is extended in part two, with in-depth
reviews of the development of advanced materials for radioactive
waste conditioning, including geopolymers, glass and ceramic
matrices for nuclear waste immobilisation, and waste packages and
containers for disposal. Finally, part three reviews the long-term
performance assessment and knowledge management techniques
applicable to both spent nuclear fuels and solid radioactive waste
forms.
With its distinguished international team of contributors, the
Handbook of advanced radioactive waste conditioning technologies is
a standard reference for all radioactive waste management
professionals, radiochemists, academics and researchers involved in
the development of the nuclear fuel cycle.
Provides a comprehensive and systematic reference on the various
options available and under development for the treatment and
immobilisation of radioactive wastesExplores radioactive waste
characterisation and selection of conditioning technologies
including the development of advanced materials for radioactive
waste conditioningAssesses the main radioactive waste treatment
processes and conditioning technologies, including volume reduction
techniques such as compaction
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.
360 Degree Waste Management, Volume Two: Biomedical,
Pharmaceutical, and Industrial Waste and Remediation presents an
interdisciplinary approach to understanding various types of
biomedical, pharmaceutical, and industrial waste, including their
origin, management, recycling, disposal, effects on ecosystems, and
social and economic impacts. By applying the concepts of
sustainable, affordable and integrated approaches for the
improvement of waste management, the book confronts social,
economic and environmental challenges. Thus, researchers, waste
managers and environmental engineers will find critical information
to identify long-term answers to problems of waste management that
require complex understanding and analysis. Presenting key concepts
in the management of biomedical and industrial waste, Volume Two of
this two volume series includes aspects on microbiology of waste
management, advanced treatment processes, environmental impacts,
technological developments, economics of waste management and
future implications.
Water, Land, and Forest Susceptibility and Sustainability, Volume
2: Insight Towards Management, Conservation and Ecosystem Services
brings an interdisciplinary perspective to solving complex problems
in sustainability, utilizing the latest research and technologies,
and includes case studies that emphasize the applications of remote
sensing, GIS, and image processing for addressing the current state
and future needs to achieve sustainability. As forests, land, and
water are among the most precious resources on earth, emphasizing
the need to conserve them for future generations and, of course, a
safe and sustainable planet. The assessment of the susceptibility
of all these three precious resources must therefore be addressed
to inform their sustainable management. This second volume focuses
on environmental management, conservation, and ecosystem services
and provides information on forest, land, and water resources,
presenting in integrated manner various aspects of their
characterization, susceptibility, and sustainability.
Advanced Organic Waste Management: Sustainable Practices and
Approaches provides an integrated holistic approach to the
challenges associated with organic waste management, particularly
related to sustainability, lifecycle assessment, emerging
regulations, and novel approaches for resource and energy recovery.
In addition to traditional techniques, such as anaerobic digestion,
composting, innovative and emerging techniques of waste recycling
like hydrothermal carbonization and vermicomposting are included.
The book combines the fundamentals and practices of sustainable
organic waste management with successful case studies from
developed and developing countries, highlighting practical
applications and challenges. Sections cover global organic waste
generation, encompassing sources and types, composition and
characteristics, focus on technical aspects related to various
resource recovery techniques like composting and vermicomposting,
cover various waste-to-energy technologies, illustrate various
environmental management tools for organic waste, present
innovative organic waste management practices and strategies
complemented by detailed case studies, introduce the circular
bioeconomy approach, and more.
Marine Hydrocarbon Spill Assessments: From Risk of Spill through to
Probabilities Estimates describes the methods used for estimating
hydrocarbon spill risks and the potential consequences. Throughout
the book, mathematical methodologies and algorithms are included to
aid the reader in the solving of applied tasks presented. Marine
Hydrocarbon Spill Assessments: From Risk of Spill through to
Probabilities Estimates provides a fundamental understanding of the
oil properties and processes which determine the persistence and
impacts of oils in the marine environment. It informs the reader of
the current research in hydrocarbon spill assessments, starting
from an assessment of a risk of a spill, and moving on to modelling
approaches to impact assessments, laboratory toxicity assessments,
field impact assessments and response options, and prevention and
contingency planning.
The Microbiology of Nuclear Waste Disposal is a state-of-the-art
reference featuring contributions focusing on the impact of
microbes on the safe long-term disposal of nuclear waste. This book
is the first to cover this important emerging topic, and is written
for a wide audience encompassing regulators, implementers,
academics, and other stakeholders. The book is also of interest to
those working on the wider exploitation of the subsurface, such as
bioremediation, carbon capture and storage, geothermal energy, and
water quality. Planning for suitable facilities in the U.S.,
Europe, and Asia has been based mainly on knowledge from the
geological and physical sciences. However, recent studies have
shown that microbial life can proliferate in the inhospitable
environments associated with radioactive waste disposal, and can
control the long-term fate of nuclear materials. This can have
beneficial and damaging impacts, which need to be quantified.
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.
Emerging Natural and Tailored Nanomaterials for Radioactive Waste
Treatment and Environmental Remediation: Principles and
Methodologies, Volume 29 provides an overview of the most important
radionuclide sources in the environment, their interaction with
environmental media, and appropriate remediation techniques. The
book focuses on the assessment of radionuclide sorption behavior in
contaminated sites and the synthesis of new materials for
radionuclides remediation through sorption concepts. Chapters
investigate the main interaction mechanisms between
toxic/radioactive metal ions with natural and manmade materials,
natural clay minerals and oxides, and novel nanomaterials, such as
ordered mesoporous silicas, carbon nanotubes, graphene, and
metal-organic framework-based materials. Techniques and models
discussed include kinetics analysis, thermodynamic analysis,
surface complexation models, spectroscopic techniques, and
theoretical calculations.
Advanced separations technology is key to closing the nuclear fuel
cycle and relieving future generations from the burden of
radioactive waste produced by the nuclear power industry. Nuclear
fuel reprocessing techniques not only allow for recycling of useful
fuel components for further power generation, but by also
separating out the actinides, lanthanides and other fission
products produced by the nuclear reaction, the residual radioactive
waste can be minimised. Indeed, the future of the industry relies
on the advancement of separation and transmutation technology to
ensure environmental protection, criticality-safety and
non-proliferation (i.e., security) of radioactive materials by
reducing their long-term radiological hazard. Advanced separation
techniques for nuclear fuel reprocessing and radioactive waste
treatment provides a comprehensive and timely reference on nuclear
fuel reprocessing and radioactive waste treatment. Part one covers
the fundamental chemistry, engineering and safety of radioactive
materials separations processes in the nuclear fuel cycle,
including coverage of advanced aqueous separations engineering, as
well as on-line monitoring for process control and safeguards
technology. Part two critically reviews the development and
application of separation and extraction processes for nuclear fuel
reprocessing and radioactive waste treatment. The section includes
discussions of advanced PUREX processes, the UREX+ concept, fission
product separations, and combined systems for simultaneous
radionuclide extraction. Part three details emerging and innovative
treatment techniques, initially reviewing pyrochemical processes
and engineering, highly selective compounds for solvent extraction,
and developments in partitioning and transmutation processes that
aim to close the nuclear fuel cycle. The book concludes with other
advanced techniques such as solid phase extraction, supercritical
fluid and ionic liquid extraction, and biological treatment
processes. With its distinguished international team of
contributors, Advanced separation techniques for nuclear fuel
reprocessing and radioactive waste treatment is a standard
reference for all nuclear waste management and nuclear safety
professionals, radiochemists, academics and researchers in this
field.
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.
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.
Reprocessing and Recycling of Spent Nuclear Fuel presents an
authoritative overview of spent fuel reprocessing, considering
future prospects for advanced closed fuel cycles. Part One
introduces the recycling and reprocessing of spent nuclear fuel,
reviewing past and current technologies, the possible implications
of Generation IV nuclear reactors, and associated safely and
security issues. Parts Two and Three focus on aqueous-based
reprocessing methods and pyrochemical methods, while final chapters
consider the cross-cutting aspects of engineering and process
chemistry and the potential for implementation of advanced closed
fuel cycles in different parts of the world.
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.
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.
This companion to Accounting for Resources, 1 tracks the life cycle
of specific elements, such as chlorine and heavy metals, in order
to estimate the generation and dissipative losses of material
wastes. The book begins with a succinct review of the life-cycle
analysis methodology and evaluates some of its weaknesses in
estimating the generation of waste. The authors propose a new
quantitative measure of the potential for environmental harm of
waste materials. They include case studies to add weight to their
proposal. Four horizontal life-cycle case studies are included; one
for chlorine and chlorine chemicals; one for mercury; one for
arsenic and cadmium; and the other for copper, lead and zinc. The
book also includes a longitudinal study of heavy metals use and
dissipation, during the period 1880-1980 with reference to the
Hudson-Raritan basin. The book concludes with an overview,
including some recommendations for future research and for policy
changes with respect to governmental statistical data collection
and organization.
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.'
Nuclear Decommissioning Case Studies: Characterization, Waste
Management, Reuse and Recycle, Author’s Statement on the
Sustainability of Nuclear Decommissioning, Volume Six presents a
selection of global case studies that focus on a range of
technologies for the decontamination, dismantling, spent fuel
treatment and recycling of nuclear decommissioning. The book
presents best practices by analyzing errors and inadequacies,
leading the reader to sound decision-making. The events covered in
this publication range from national and local legislation, to
regulatory positions, statements or recommendations, licensing
steps and transition phases. Decommissioning experts, including
regulators, operators, waste managers, researchers and academics
will find this book to be suitable supplementary material to
Michele Laraia’s reference works on the theory and applications
of nuclear decommissioning. Alongside the other case studies books
in this series, readers will obtain an understanding of various key
case studies-what happened and what we can learn from them, to help
supplement, solidify and strengthen their understanding of the
topic.
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.
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