Document: NUREG-0800
Document ID: 21b88814-85a2-4153-982a-8f00240a5d45
Document Type: srp
Title: GENERIC GUIDELINES FOR EXTENDED POWER UPRATE TESTING
Source: NUREG-0800
Source URL: https://www.nrc.gov/docs/ML0300/ML030080406.pdf
Revision Date: 2023-06
Chapter: 14
Section ID: 14.2.1
CFR Part: 
CFR Title: 

Content:
on following release of Relief Valve Individual valve capacity tests at low power the pneumatically operated mechanical push rod (25% of RTP) using bypass valve movement or turbine generator output as a measurement variable Dynamic response of plant RG 1 68, App A 100% of RTP Performance in accordance with design to design load swings 5.h.h Reactor core Isolation IP 72512 Steady-state reactor operations at rated Startup from hot standby conditions and discharge of rated flow cooling functional test temperature and pressure into the reactor vessel at rated pressure and temperature within a specified time RCIC aligned for standby operation Verification of maximum rated flow Isolation tnp Reactor power at approximately 25% of RTP Verification of overspeed trip Turbine gland seal condenser system shall prevent steam leak to atmosphere Dynamic response of plant RG 1 68, App A 100% of RTP Performance In accordance with design' 15 3 1 (BWR) & 15 3 2 (PWR) to limiting reactor coolant 51 I pump tnps or closure of Trip from steady-state power operation Instrumentation is adjusted to provide an accurate conversion of Loss of Forced Reactor reactor coolant system flow IP 72512 individual jet pump Ap values to a summed core flow over the Coolant Flow Including Trip of control valves Recording of transients following trip and range of two-pump operations Pump Motor during pump restart (Reactor coolant Recirculation pump instrumentation is calibrated recirculation pump trip test) Recording of limiting heat transfer parameters Loop flow from single-tap and double-tap pumps agrees within 3% Return to two-pump operation in accord with facility operating procedures Core flow from single-tap and double-tap pumps agrees within 2% Trip of a single pump and of both pumps simultaneously, Individual jet pump flow variation from average pump flow Is limited Dynamic response of the RG 1.68, App A 90% of RTP performance In accordance with design 15.1.1 Decrease In Feedwater plant to loss of