Questions? Call 800-624-6242 About | Ordering | New Menu | Items in cart [0] SEARCH

Rights & Permissions Free Resources Display this book on your site! Related Titles Exposure of the American People to Iodine-131 from Nevada Nuclear-Bomb Tests:Review of the National Cancer Institute Report and Public Health Implications A Review of the Dose Reconstruction Program of the Defense Threat Reduction Agency Other Related Titles The Hanford Environmental Dose Reconstruction Project: A Review of Four Documents (1994) Commission on Life Sciences (CLS) Citation Manager Export the bibliographic data for this book in your chosen format Web Search Builder Use this book's key terms to search within this book, across our collection, or across the Web. Skim This Chapter Skim this chapter and use this chapter's key terms to search within this book. Reference Finder Paste in your own text to find books that relate to your topic. Citation Manager . "VII. LITERATURE CITED." The Hanford Environmental Dose Reconstruction Project: A Review of Four Documents. Washington, DC: The National Academies Press, 1994. Please select a format: Page 37   E-mail Share on facebook Facebook Share on delicious Delicious Share on stumbleupon Stumble Share on twitter Twitter More Sharing ServicesMore The following HTML text is provided to enhance online readability. Many aspects of typography translate only awkwardly to HTML. Please use the page image as the authoritative form to ensure accuracy. VII. LITERATURE CITED Air Pathway Report - Phase I of the Hanford Environmental Dose Reconstruction Project, PNL-7412 HEDR Rev.1 UC-707, July 1991. C. F. Baes and R. D. Sharp, 1981. Predicting Radionuclide Leaching from Root Zone Soil from Assessment Applications. CONF-81601, Oak Ridge National Laboratory, Oak Ridge, Tennessee. D. S. Barth and J. G. Veater, 1964. Dairy Farm Radioiodine Study Following the Pike Event. TID-21764, Public Health Service, Southwestern Radiological Health Laboratory, Las Vegas, Nevada. C. M. Heeb and L. G. Morgan, 1991. Iodine-131 in Irradiated Fuel at Time of Processing from December 1944 Through December 1947. PNL-7253 HEDR, Battelle, Pacific Northwest Laboratories, Richland, Washington. F. O. Hoffman and C. F. Baes, III, 1979. A Statistical Analysis of Selected Parameters for Predicting Food Chain Transport and Internal Dose of Radionuclides. NUREG/CR-1004, Oak Ridge National Laboratory, Oak Ridge, Tennessee. J. L. Jaech, 1957. Monthly Summary of Dissolver Data 12-31-44 Through 6-30-57, FTS-CLVI-73, General Electric Company. Hanford Works, Richland, Washington. D. W. Layton, 1993. Metabolically consistent breathing ranges for use in dose assessments. Health Physics; 64 (1):23-36. W. J. Megaw, 1962. The penetration of iodine into buildings. International Journal of Air and Water Pollution 6:121-128. C. Miller, 1979. The interception fraction. In: A Statistical Analysis of Selected Parameters for Predicting Food Chain Transport and Internal Dose of Radionuclides. F. O. Hoffman and C. F. Baes, III, eds. NUREG/CR-1004. October 1979. Oak Ridge National Laboratory, Oak Ridge, Tennessee. pp. 31-42. Page 37 FRONT MATTER (R1-R8) CONTENTS (R9-R10) EXECUTIVE SUMMARY (1-3) I. INTRODUCTION (4-7) II. HANFORD SITE HISTORY (8-10) III. THE FOUR HEDR DOCUMENTS (11-13) IV. OBJECTIVES AND GOALS OF HEDR (14-26) V. MANAGEMENT OF HEDR ACTIVITIES (27-29) VI. SUMMARY AND CONCLUSIONS (30-36) VII. LITERATURE CITED (37-38) A. PNWD 1983, HEDR MODELING APPROACH (39-40) B. PNWD 2023, PARAMETERS USED IN THE ENVIRONEMENTAL PATHWAYS (DESCARTES) AND RADIOLOGICAL DOSE (CIDER) MODULES OF THE HANFORD ENVIRONMENTAL DOSE RECONSTRUCTION INTEGRATED CODES (HEDRIC) FOR THE AIR PATHWAY (41-50) C. PNWD 2033, IODINE-131 RELEASES FROM THE HANFORD SITE, 1944 THROUGH 1947, VOL. 1, TEXT; VOL. 2, DATA (51-54)

Below are the first 10 and last 10 pages of uncorrected machine-read text (when available) of this chapter, followed by the top 30 algorithmically extracted key phrases from the chapter as a whole.
Intended to provide our own search engines and external engines with highly rich, chapter-representative searchable text on the opening pages of each chapter. Because it is UNCORRECTED material, please consider the following text as a useful but insufficient proxy for the authoritative book pages.

Do not use for reproduction, copying, pasting, or reading; exclusively for search engines.

OCR for page 37
THE HANFORD ENVIRONMENTAL DOSE RECONSTRUCTION PROJECT: A REVIEW OF FOUR DOCUMENTS VII. LITERATURE CITED Air Pathway Report - Phase I of the Hanford Environmental Dose Reconstruction Project, PNL-7412 HEDR Rev.1 UC-707, July 1991. C. F. Baes and R. D. Sharp, 1981. Predicting Radionuclide Leaching from Root Zone Soil from Assessment Applications. CONF-81601, Oak Ridge National Laboratory, Oak Ridge, Tennessee. D. S. Barth and J. G. Veater, 1964. Dairy Farm Radioiodine Study Following the Pike Event. TID-21764, Public Health Service, Southwestern Radiological Health Laboratory, Las Vegas, Nevada. C. M. Heeb and L. G. Morgan, 1991. Iodine-131 in Irradiated Fuel at Time of Processing from December 1944 Through December 1947. PNL-7253 HEDR, Battelle, Pacific Northwest Laboratories, Richland, Washington. F. O. Hoffman and C. F. Baes, III, 1979. A Statistical Analysis of Selected Parameters for Predicting Food Chain Transport and Internal Dose of Radionuclides. NUREG/CR-1004, Oak Ridge National Laboratory, Oak Ridge, Tennessee. J. L. Jaech, 1957. Monthly Summary of Dissolver Data 12-31-44 Through 6-30-57, FTS-CLVI-73, General Electric Company. Hanford Works, Richland, Washington. D. W. Layton, 1993. Metabolically consistent breathing ranges for use in dose assessments. Health Physics; 64 (1):23-36. W. J. Megaw, 1962. The penetration of iodine into buildings. International Journal of Air and Water Pollution 6:121-128. C. Miller, 1979. The interception fraction. In: A Statistical Analysis of Selected Parameters for Predicting Food Chain Transport and Internal Dose of Radionuclides. F. O. Hoffman and C. F. Baes, III, eds. NUREG/CR-1004. October 1979. Oak Ridge National Laboratory, Oak Ridge, Tennessee. pp. 31-42.

OCR for page 38
THE HANFORD ENVIRONMENTAL DOSE RECONSTRUCTION PROJECT: A REVIEW OF FOUR DOCUMENTS C. W. Miller and F. O. Hoffman, 1983. An examination of the environmental half-time for radionuclides deposited on vegetation. Health Physics 45:731-744. B. A. Napier, 1991. Selection of Dominant Radionuclides for Phase I of the Hanford Environmental Dose Reconstruction Project. PNL-7231 HEDR, Battelle, Pacific Northwest Laboratories, Richland, Washington. National Research Council, Committee on an Assessment of CDC Radiation Studies. 1992. Dose Reconstruction for the Fernald Nuclear Facility. National Academy Press, Washington, DC. National Research Council, Committee on an Assessment of CDC Radiation Studies. 1994. Dose Reconstruction for the Fernald Nuclear Facility: A Review of Task 4. National Academy Press, Washington, DC. P. F. Rose and T. W. Burrows, 1976. ENDF/B Fission Product Decay Data, Vol. 2, Brookhaven National Laboratory, Upton, New York. G. A. Sehmel, 1980. Particle and gas dry deposition: a review. Health Physics 32:437-441. F. W. Walker, J. R. Parrington, and F. Feiner, 1989. Chart of the Nuclides, 14th Edition, General Electric Co., San Jose, California.

Representative terms from entire chapter:

environmental dose