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Radon
None
Radon-Resistant Construction Techniques for New Residential Construction
Provides homeowners and builders with a basic understanding of operating principles and installation details of radon-resistant new home construction. Includes: soil depressurization, mechanical barriers, site evaluation, planned ventilation, and much more. Illustrations. Also includes a report by the Environmental Protection Agency (EPA), "Home Buyer's and Seller's Guide to Radon."
Handbook Of Radon In Buildings
Very Good,No Highlights or Markup,all pages are intact.
Radon-hazard Potential of the Lower Weber River Area, Tooele Valley, and Southeastern Cache Valley, Cache, Davis, Tooele, and Weber Counties, Utah
Radon is a radioactive gas of geologic origin that is an environmental concern because of its link to lung cancer. Radon is derived from the decay of uranium, and can accumulate indoors in sufficient quantities to pose a health hazard to building occupants. Although the influence of non-geologic factors such as construction type, lifestyle, and weather is difficult to measure, geologic factors that influence indoor-radon levels can be quantified to assess the hazard potential. Geologic factors that influence indoor-radon levels have been studied for three areas in northern Utah to indicate where indoor radon may be a hazard and radon-resistant techniques should be considered in new construct...
Element of Risk
Radiation, radioactivity, radon: these are words that, since Hiroshima, the Cold War, and Three Mile Island, have conjured fear and fascination for many Americans. The threat of nuclear war, however, was always abstract at best, and the possibility of a meltdown was seen primarily as a localized catastrophe. Yet the danger of radon--an invisible, odorless gas that could seemingly attack any home and afflict its residents with a deadly cancer--struck home in the 1980s when whole neighborhoods were deemed unsafe and homeowners were forced to relocate, often at great expense. But how much of a threat does radon really pose to Americans? Is the government's aggressive policy toward this "silent ...
Radon-hazard Potential of Beaver Basin Area, Beaver County, Utah
Indoor-radon levels in the Beaver basin of southwestern Utah are the highest recorded to date in Utah. Measured indoor-radon concentrations range from 17.5 to 495pCi/L. These levels are well above those considered a health risk by the U.S. Environmental Protection Agency. Both geologic (uranium content of soil, depth to ground water, soil permeability) and non-geologic (weather, home construction, life-style) factors affect indoor-radon levels. In this study, geologic factors are quantified and used to produce a radon-hazard-potential map of the Beaver basin area. The map helps prioritize radon testing and evaluation and the need for radon-resistant construction.
Radon Measurements by Etched Track Detectors
Exposure to radon gas, which is present in the environment naturally, constitutes over half the radiation dose received by the general public annually. At present, the most widely used method of measuring radon concentration levels throughout the world, both in dwellings and in the field, is by etched track detectors ? also known as Solid State Nuclear Detectors (SSNTDs). Although this is not only the most widely used method but is also the simplest and the cheapest, yet there is at present no book available on the market globally, devoted exclusively or largely to the methodology of, and dealing with the results obtained by, the SSNTD technique. The present book fills this important gap in the coverage of radon measurements. Individual chapters of the book are contributed by some of the most prominent and active research workers in the world in the SSNTD discipline as well as in the field of radon measurements. A detailed breakdown of the contents of the book is shown below together with the name(s) of the author(s) of each chapter.
Communicating Public Health Risk
This important volume provides not only an in-depth analysis of those risk communication strategies currently used to inform and educate the public around key health issues, but also the risks and effects of radon, a natural but carcinogenic gas that so far has seen relatively little wider coverage. As the leading cause of lung cancer worldwide after smoking, radon is an important yet hidden public health issue, but informing and educating the public about its hazards and dangers is far from straightforward. As well as offering a detailed overview of issues around radon itself, the book asserts that public health communication should be dialogic and interactive, culturally tailored to specific populations to ensure people comprehend and appreciate risk to themselves and their environments. The challenges are, of course, significant in a pluralistic media landscape where disinformation and misinformation threaten the integrity of any message sent. Featuring chapters from researchers across a range of disciplines, this enlightening book will interest students, scholars and professionals working in Public Health, Environment Health and Communication Studies.
