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Private landowners or Federal Agencies responsible for cleaning up radiological environments are faced with the challenge of clearly defining the nature and extent of radiological contamination, implementing remedial alternatives, then statistically verifying that cleanup objectives have been met. Sampling and Surveying Radiological Environments pr
This publication addresses the sampling of soil and vegetation in terrestrial ecosystems, including agricultural, forest and urban environments, contaminated with radionuclides from events such as radiation accidents, radiological incidents and former nuclear activities. It considers sampling strategies and programmes, which are relevant for both emergency and existing exposure situations. Practical advice is provided on the design and implementation of sampling programmes for soil and vegetation within the framework of environmental monitoring. Examples of best practice on the formulation of optimized sampling strategies for different exposure situations are given based on the experience and lessons learned from implementation of past and existing programmes.
In the late 1980s, the National Cancer Institute initiated an investigation of cancer risks in populations near 52 commercial nuclear power plants and 10 Department of Energy nuclear facilities (including research and nuclear weapons production facilities and one reprocessing plant) in the United States. The results of the NCI investigation were used a primary resource for communicating with the public about the cancer risks near the nuclear facilities. However, this study is now over 20 years old. The U.S. Nuclear Regulatory Commission requested that the National Academy of Sciences provide an updated assessment of cancer risks in populations near USNRC-licensed nuclear facilities that utilize or process uranium for the production of electricity. Analysis of Cancer Risks in Populations near Nuclear Facilities: Phase 1 focuses on identifying scientifically sound approaches for carrying out an assessment of cancer risks associated with living near a nuclear facility, judgments about the strengths and weaknesses of various statistical power, ability to assess potential confounding factors, possible biases, and required effort. The results from this Phase 1 study will be used to inform the design of cancer risk assessment, which will be carried out in Phase 2. This report is beneficial for the general public, communities near nuclear facilities, stakeholders, healthcare providers, policy makers, state and local officials, community leaders, and the media.
Private landowners or Federal Agencies responsible for cleaning up radiological environments are faced with the challenge of clearly defining the nature and extent of radiological contamination, implementing remedial alternatives, then statistically verifying that cleanup objectives have been met. Sampling and Surveying Radiological Environments provides the how-tos for designing and implementing cost effective and defensible sampling programs in radiological environments, such as those found in the vicinity of uranium mine sites, nuclear weapons production facilities, nuclear reactors, radioactive waste storage and disposal facilities, and nuclear accidents. It includes a CD-ROM that walks you through the EPA's Data Quality Objectives(DQO) procedures and provides electronic templates you can complete and print. Sampling and Surveying Radiological Environments addresses all of the major topics that will assist you in designing and implementing statistically defensible sampling programs in radiological environments, including: Summary of the major environmental laws and regulations that apply to radiological sites, and advice on regulatory interfacing · Internet addresses where you can find regulations pertaining to each States Theory of radiation detection and definitions of common radiological terminology Statistics and statistical software that apply to the environmental industry Details on commercially available radiological instrumentation and detection systems Building decontamination and decommissioning, radiological and chemical equipment decontamination procedures, and tank/drum/remote characterization Standard operating procedures for collecting environmental media samples Guidance on sample preparation, documentation, and shipment Guidance on data verification/validation, radiological data management, data quality assessment (DQA) · An electronic template to assist you in implementing the EPA's seven step DQO procedure and in the writing of a DQO Summary Report, and Sampling and Analysis Plan · Recommendations for developing a Sampling and Analysis Plan · Guidance on developing statistical sampling and survey designs Guidance on developing integrated sampling and survey designs Capabilities of various statistical sampling design software packages along with Internet addresses for web pages where statistical software can be downloaded at no cost to you Effectiveness of various scanning and direct measurement methods Sampling and Surveying Radiological Environments provides you with the most cost effective methods and technologies for sampling, characterizing, and remediating radiologically contaminated environments. It includes guidance on how to design programs using radiological screening technologies and statistical sampling approaches to meet the data quality objectives while minimizing cost.
This book provides a detailed description of the evidence-collection protocols that will be required in criminal cases that involve the release of a chemical agent, biological agent, or radiological material. A chapter on the crime scene profiles procedures for what to do first upon arriving at the scene, procedures for entering the "hot zone, " and procedures upon leaving the "hot zone." Another chapter focuses on procedures for locating evidence sample points. Information is provided on general detection instruments, chemical agent detectors, biological agent detection equipment, and equipment for detecting radiological material. A chapter on chemical evidence collection contains descriptions and discussions of equipment preparation, chemical liquids, chemical vapors and aerosols, chemical agent solid sampling, chemical surface sampling, and chemical dermal sampling. This chapter advises that the purpose in collecting evidence in a hazardous chemical incident is to collect a representative sample of the material in question and determine the physical and chemical characteristics of the evidence. This can only be achieved through a well-planned and well-executed collection protocol. The chapter on biological evidence collection considers equipment preparation; biological liquids and aerosols; and biological agent solid, surface, and dermal sampling. The chapter on radiological evidence collection identifies the sources of radiological material; the characteristics of radiological evidence; and procedures for radiological liquid, airborne, solids, surface, and dermal evidence collection. Extensive photographic illustrations, tables, 32 notes, a glossary, subject index, and appended supplementary information on hazardous materials
The purpose of this book is to present a state of art summary of current knowledge of methods of assessment of radionuclides in the terrestrial and marine environments. It cover the traditional methods of radioactivity measurements such as radiometrics techniques, but also recent developments in the mass spectrometry sector. The book starts with a short preface introducing the subject of the book, summarising content and philosophy of the book, as well as the most important historical achievements. The scientific topics are introduced by description of sampling methods, optimisation of sampling sites and sampling frequency. The recent developments in radiochemical separation methods using chromatography resins for the treatment of actinides, transuranics and other groups of radioelements are also described. No other book is available covering all aspects of environmental radioactivity measurements, although remarkable progress has been made in detection techniques over the last ten years. At present the new methods enable to carry out investigations which were not possible before, either because of lack of sensitivity or because of the fact that they required too large samples.
Originally published in 1994, the first edition of Field Sampling Methods for Remedial Investigations soon became a premier resource in this field. The "Princeton Groundwater" course designated it as one of the top books on the market that addresses strategies for groundwater characterization, groundwater well installation, well completion, and groundwater sampling. This long awaited third edition provides most current and most cost-effective environmental media characterization methods and approaches supporting all aspects of remediation activities. This book integrates recommendations from over one hundred of the most current US EPA, State EPA, US Geological Survey, US Army Corps of Engineers, and National Laboratory environmental guidance and/or technical documents. This book provides guidance, examples, and/or case studies for the following subjects: Implementing the EPA’s latest Data Quality Objectives process Developing cost effective statistical & non-statistical sampling designs supporting all aspects of environmental remediation activities, and available statistical sample design software Aerial photography, surface geophysics, airborne/surface/downhole/building radiological surveys, soil gas surveying, environmental media sampling, DNAPL screening, portable X-ray fluorescence measurements Direct push groundwater sampling, well installation, well development, well purging, no-purge/low-flow/standard groundwater sampling, depth-discrete ground sampling, groundwater modeling Tracer testing, slug testing, waste container and building material sampling, pipe surveying, defining background conditions Documentation, quality control sampling, data verification/validation, data quality assessment, decontamination, health & safety, management of investigation waste A recognized expert on this subject, author Mark Byrnes provides standard operating procedures and guidance on the proper implementation of these methods, focusing on proven technologies that are acknowledged by EPA and State regulatory agencies as reputable techniques.
Although the field of radioactive air sampling has matured and evolved over decades, it has lacked a single resource that assimilates technical and background information on its many facets. Edited by experts and with contributions from top practitioners and researchers, Radioactive Air Sampling Methods provides authoritative guidanc
Intended as a resource for those who have responsibilities to safeguard workers' health and safety, especially in developing countries. Covers the fields of toxicology, occupational hygiene, occupational cancer, occupational diseases of agricultural workers, occupational safety, psycho- social problems and institutions and organizations active in the field of occupational health and safety.
Environmental Medicine is an indispensable aid to the investigation, diagnosis and treatment of a wide variety of environmentally-acquired disorders. It brings into sharp focus the increasing importance of the practice of environmental medicine, drawing together the many different strands that make up this modern discipline, and putting topical and