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http://dx.doi.org/10.5516/NET.2010.42.6.690

SAMPLING BASED UNCERTAINTY ANALYSIS OF 10 % HOT LEG BREAK LOCA IN LARGE SCALE TEST FACILITY  

Sengupta, Samiran (Research Reactor Design & Projects Division, Bhabha Atomic Research Centre)
Dubey, S.K. (Atomic Energy Regulatory Board)
Rao, R.S. (Atomic Energy Regulatory Board)
Gupta, S.K. (Atomic Energy Regulatory Board)
Raina, V.K (Reactor Group, Bhabha Atomic Research Centre)
Publication Information
Nuclear Engineering and Technology / v.42, no.6, 2010 , pp. 690-703 More about this Journal
Abstract
Sampling based uncertainty analysis was carried out to quantify uncertainty in predictions of best estimate code RELAP5/MOD3.2 for a thermal hydraulic test (10% hot leg break LOCA) performed in the Large Scale Test Facility (LSTF) as a part of an IAEA coordinated research project. The nodalisation of the test facility was qualified for both steady state and transient level by systematically applying the procedures led by uncertainty methodology based on accuracy extrapolation (UMAE); uncertainty analysis was carried out using the Latin hypercube sampling (LHS) method to evaluate uncertainty for ten input parameters. Sixteen output parameters were selected for uncertainty evaluation and uncertainty band between $5^{th}$ and $95^{th}$ percentile of the output parameters were evaluated. It was observed that the uncertainty band for the primary pressure during two phase blowdown is larger than that of the remaining period. Similarly, a larger uncertainty band is observed relating to accumulator injection flow during reflood phase. Importance analysis was also carried out and standard rank regression coefficients were computed to quantify the effect of each individual input parameter on output parameters. It was observed that the break discharge coefficient is the most important uncertain parameter relating to the prediction of all the primary side parameters and that the steam generator (SG) relief pressure setting is the most important parameter in predicting the SG secondary pressure.
Keywords
Accident Analysis; Latin Hypercube Sampling; LOCA; LSTF; UMAE; Uncertainty;
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