Document: NUREG-0800
Document ID: bff27319-5835-4b67-a4f5-815264004d90
Document Type: srp
Title: SPENT FUEL POOL COOLING AND CLEANUP SYSTEM
Source: NUREG-0800
Source URL: https://www.nrc.gov/docs/ML0520/ML052070505.pdf
Revision Date: 2023-06
Chapter: 9
Section ID: 9.1.3
CFR Part: 
CFR Title: 

Content:
ermit functional operational testing to assureensure structural 116 integrity and system leak tightness, operability, and adequate performance of active system components. 6. The system is designed in accordance with the requirements of General Design Criterion 61 as it relates to the system design for fuel storage since the system has the following design capabilities: the system has the capability for periodic testing of components important to safety. The system is designed to provide suitable shielding by maintaining a minimum water level above the fuel. There is redundancy and testability of the decay heat removal portions of the system, and the system is designed to prevent reduction in fuel storage coolant inventory under accident conditions in accordance with position C.6 of Regulatory Guide 1.13. The spent fuel pool cleanup portion of the system (1) provides the capability and capacity of removing radioactive materials, corrosion products, and impurities from the pool water and thus meets the requirements of Criterion 61 as it relates to appropriate filtering systems for fuel cooling and storage, (2) reduces occupational exposure to radiation by removing radioactive materials from the pool water and thus meets the requirements of 10 CFR Part 20, 20.1(c) 20.1101(b) as it relates to maintaining radiation exposures as 117 low as reasonably achievable (ALARA) and, (3) retains radioactive materials 118 and crud in the pool water in the demineralizer and filters and thus meets positions C.2.f(2) and (3)C.2.f(2) and C.2.f(3) of Regulatory Guide 8.8. 119 7. The system design meets the requirements of General Design Criterion 63 since it has provisions to detect the loss of heat removal function through the use of loss of flow and temperature alarms, and to detect conditions that would result in excessive radiation through the use of coolant low level alarms and radiation monitoring alarms. And theThe system has the capability to initiate appropriate 120 safety