Document: NUREG-0800
Document ID: a28650b3-fa03-428d-a2bd-4a27f583710b
Document Type: srp
Title: NUREG-0800
Source: NUREG-0800
Source URL: https://www.nrc.gov/docs/ML0520/ML052070484.pdf
Revision Date: 2023-06
Chapter: 6
Section ID: 6
CFR Part: 
CFR Title: 

Content:
tions at the operating license or design certification stage of review pertaining to the bypass leakage surveillance is performed 15 by the Standardization and Special ProjectsTechnical Specifications Branch 16 (SSPB)(TSB) as part of its primary review responsibility for SRP Section 16.0. 17 7. For new plant applicants, the Probabilistic Safety Assessment Branch (SPSB) coordinates and performs shutdown risk assessment reviews, including containment analysis issues, as part of its primary review responsibility for SRP Section 19.1 (Proposed). 18 For those areas of review identified above as being reviewed as part of the primary review responsibility of other branches, the acceptance criteria and their methods of application are contained in the SRP sections identified as the primary review responsibility of those branches. II. ACCEPTANCE CRITERIA The acceptance criteria given below applyapplies to the design and functional capability of 19 BWR pressure-suppression type containments. SCSB accepts the containment design if the 20 relevant requirements of General Design Criteriaon 4, 16, 50, and 53, 13, and 64 , and of 10 21 22 CFR Part 50, §50.34(f)(3)(v)(A)(1) and §50.34(f)(3)(v)(B)(1) are complied with. The relevant 23 requirements are as follows: 24 1. General Design Criterion 4, as it relates to the environmental and missile protection design, requires that structures, systems, and components important to safety be designed to accommodate the dynamic effects (e.g., effects of missiles, pipe whipping, and discharging fluids that may result from equipment failures) that may occur during normal plant operation or following a loss-of-coolant accident. 2. General Design Criteria 16 and 50, as they relate to the containment being designed with sufficient margin, require that the containment and its associated systems can accommodate, without exceeding the design leakage rate and with sufficient margin, the calculated pressure and temperature conditions resulting from