Document: NUREG-0800
Document ID: a78c6fc8-c253-4d08-bf41-f8120025f067
Document Type: srp
Title: CONTAINMENT HEAT REMOVAL SYSTEMS
Source: NUREG-0800
Source URL: https://www.nrc.gov/docs/ML0701/ML070160661.pdf
Revision Date: 2023-06
Chapter: 6
Section ID: 6.2.2
CFR Part: 
CFR Title: 

Content:
e review and calculations (if applicable) support conclusions of the following type to be included in the staff's safety evaluation report. The reviewer also states the bases for those conclusions. 1. Containment Heat Removal Systems The containment heat removal systems include (identify the systems; these may include systems such as the RHR system in specified modes, ECCS, fan cooler systems, spray systems, containment sumps, and wetwells). 6.2.2-10 Revision 5 - March 2007 The scope of review of the containment heat removal systems for the (plant name) included system drawings and descriptive information. The review included the applicant’s proposed design bases for the containment heat removal systems and analyses of the functional capability of the systems. The staff concludes that the design of the containment heat removal system is acceptable and meets the requirements of 10 CFR 50.46(b)(5) and GDC 38, 39, and 40. The conclusion is based on the following: A. The staff’s review indicates that the applicant complied with GDC 38 by providing containment heat removal systems consisting of (list systems). The applicant designed the containment heat removal systems according to the guidance provided in Regulatory Guide 1.82, Revision 3, as well as the additional guidance in (list appropriate). The staff’s review indicates that the systems will be capable of performing their intended safety function, which is to rapidly reduce containment pressure and temperature and to maintain these indicators at acceptably low levels after any LOCA. Suitable redundancy in components and features and suitable interconnections, leak detection, isolation, and containment capabilities shall be provided to ensure that for onsite electric power system operation (assuming offsite power is not available) and for offsite electric power system operation (assuming onsite power is not available) the system safety function can be accomplished in the event of a single failure. B. The