Document: NUREG-0800
Document ID: 35e957d7-3290-494d-9eee-0bf2a413d598
Document Type: srp
Title: LIQUID WASTE MANAGEMENT SYSTEM
Source: NUREG-0800
Source URL: https://www.nrc.gov/docs/ML0636/ML063600412.pdf
Revision Date: 2023-06
Chapter: 11
Section ID: 11.2
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valuated as part of the review identified in SRP Sections 11.5 and 16.0. The reviewer will determine whether the content of the SREC and ODCM, calculation methods, and scope of the programs identified in the Administrative Controls Section of the TS are in agreement with the requirements identified as a result of the staff’s review. The review will include the evaluation or development of appropriate controls and limiting conditions for operation and their bases as consistent with the plant design. The ODCM, SREC, and TS are reviewed with respect to the requirements of 10 CFR Part 50, 10 CFR 50.36a using Generic Letter 89-01, and guidance contained in NUREG-1301 (PWR) or NUREG-1302 (BWR) and NUREG-0133 for either type of plant. (Note: Generic Letter 89-01 is included in NUREG-1301 and NUREG-1302.). 6. BTP 11-6 describes acceptable methods to evaluate the consequences associated with the release of radioactive liquids following the postulated failure of a tank and its components, and impacts of such radioactive materials on the nearest potable water supply, located in an unrestricted area, for direct human consumption or indirectly through animals, crops, and food processing. The analysis and results proposed by the applicant will be evaluated using the guidance of BTP 11-6 and acceptance criteria. The reviewer will evaluate the type of event leading to the assumed failure of tank and its components; the assumed source term, as radionuclide concentrations and total inventory of radioactivity; process by which the radioactivity is assumed to be released in the environment from plant facilities; use of plant design features and credit assumed in mitigating the amounts of radioactivity released or duration of the release; basis for the selection of the nearest receptor; dispersion and dilution mechanisms to the nearest receptor; types of exposure pathways considered; and resulting radionuclide concentrations at the receptor location. The reviewer will determine