In-Situ Radiation Detection Demonstration Final Report | |
MOHAGHEGHI,AMIR H. ; REESE,ROBERT ; MILLER,DAVID R. ; MILLER,MARK LAVERNE ; DUCE,STEPHEN | |
Sandia National Laboratories | |
关键词: 46 Instrumentation Related To Nuclear Science And Technology; Remedial Action; Us Dod; Radiometric Surveys; Radioactive Wastes; | |
DOI : 10.2172/759451 RP-ID : SAND2000-1449 RP-ID : AC04-94AL85000 RP-ID : 759451 |
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美国|英语 | |
来源: UNT Digital Library | |
【 摘 要 】
The Department of Defense (DoD) has hundreds of facilities where radioactive materials have been used or are being used, including firing ranges, low-level radioactive waste disposal areas, and areas where past activities have resulted in environmental contamination. Affected sites range in size from a few acres to square miles. Impact to the DoD comes through military base closure and release to the public. It is important that radioactive contaminants are remediated to levels that result in acceptable risk to the public. Remediation requires characterization studies, e.g., sampling and surveys, to define the affected areas, removal actions, and final confirmatory sampling and surveys. Characterization of surface contamination concentrations has historically been performed using extensive soil sampling programs in conjunction with surface radiation surveys conducted with hand-held radiation monitoring equipment. Sampling is required within the suspect affected area and a large buffer area. Surface soil contaminant characterization using soil sampling and hand held monitoring are costly, time consuming, and result in long delays between submission of samples for analysis and obtaining of final results. This project took an existing, proven radiation survey technology that has had limited exposure and improved its capabilities by documenting correlation factors for various detector/radionuclide geometries that commonly occur in field surveys. With this tool, one can perform characterization and final release surveys much more quickly than is currently possible, and have detection limits that are as good as or better than current technology. This paper will discuss the capabilities of a large area plastic scintillation detector used in conjunction with a global positioning system (GPS) to improve site characterization, remediation, and final clearance surveys of the radioactively contaminated site. Survey results can rapidly identify areas that require remediation as well as guide surgical removal of contaminated soil that is above remediation guidelines. Post-remediation surveys can document that final radiological site conditions are within the remedial action limits.
【 预 览 】
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759451.pdf | 2554KB | download |