Abstract
The validation of a sub-channel analysis code using detailed void measurements from full-scale fuel assembly mock up experiments, at the operating conditions of interest, is an essential step to perform before considering the code for applications to reactor safety analysis. Recently, NUPEC has released a large database (392 data points) of detailed steady-state void measurements from a 8x8 fuel assembly design under typical BWR conditions and an international benchmark effort has been organized. The VIPRE-W sub-channel analysis code (Westinghouse version of VIPRE-01) was used in this benchmark exercise where various void models were investigated, including the EPRI drift flux void correlation and the four-equation drift flux model of two-phase flow. Detailed and statistical analyses of the code results were performed using the entire BFBT sub-channel void database and it was demonstrated that the VIPRE-W sub-channel void predictions are generally reliable over a wide range of conditions, including where the radial power gradient is very large. However, in the case of low pressure (< 1.4 MPa) and for bundle boundary sub-channels, in particular at low pressure and low flow, a void over-prediction was observed. The entire steady-state cross-section averaged exit void database, restricted to outlet pressure > 1.4 MPa (351 data
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Brynjell-Rahkola, Karolina;
[1]
Le Corre, Jean-Marie;
Adamsson, Carl
[2]
- Engineering Physics, Uppsala University, Uppsala (Sweden)
- Westinghouse Electric Sweden AB, Vaesteras (Sweden)
Citation Formats
Brynjell-Rahkola, Karolina, Le Corre, Jean-Marie, and Adamsson, Carl.
Validation of VIPRE-W sub-channel void predictions using NUPEC/BFBT measurements.
Japan: N. p.,
2009.
Web.
Brynjell-Rahkola, Karolina, Le Corre, Jean-Marie, & Adamsson, Carl.
Validation of VIPRE-W sub-channel void predictions using NUPEC/BFBT measurements.
Japan.
Brynjell-Rahkola, Karolina, Le Corre, Jean-Marie, and Adamsson, Carl.
2009.
"Validation of VIPRE-W sub-channel void predictions using NUPEC/BFBT measurements."
Japan.
@misc{etde_22003465,
title = {Validation of VIPRE-W sub-channel void predictions using NUPEC/BFBT measurements}
author = {Brynjell-Rahkola, Karolina, Le Corre, Jean-Marie, and Adamsson, Carl}
abstractNote = {The validation of a sub-channel analysis code using detailed void measurements from full-scale fuel assembly mock up experiments, at the operating conditions of interest, is an essential step to perform before considering the code for applications to reactor safety analysis. Recently, NUPEC has released a large database (392 data points) of detailed steady-state void measurements from a 8x8 fuel assembly design under typical BWR conditions and an international benchmark effort has been organized. The VIPRE-W sub-channel analysis code (Westinghouse version of VIPRE-01) was used in this benchmark exercise where various void models were investigated, including the EPRI drift flux void correlation and the four-equation drift flux model of two-phase flow. Detailed and statistical analyses of the code results were performed using the entire BFBT sub-channel void database and it was demonstrated that the VIPRE-W sub-channel void predictions are generally reliable over a wide range of conditions, including where the radial power gradient is very large. However, in the case of low pressure (< 1.4 MPa) and for bundle boundary sub-channels, in particular at low pressure and low flow, a void over-prediction was observed. The entire steady-state cross-section averaged exit void database, restricted to outlet pressure > 1.4 MPa (351 data points), was predicted with an absolute mean error (M-P) of -0.016 and a standard deviation of 0.021. (author)}
place = {Japan}
year = {2009}
month = {Jul}
}
title = {Validation of VIPRE-W sub-channel void predictions using NUPEC/BFBT measurements}
author = {Brynjell-Rahkola, Karolina, Le Corre, Jean-Marie, and Adamsson, Carl}
abstractNote = {The validation of a sub-channel analysis code using detailed void measurements from full-scale fuel assembly mock up experiments, at the operating conditions of interest, is an essential step to perform before considering the code for applications to reactor safety analysis. Recently, NUPEC has released a large database (392 data points) of detailed steady-state void measurements from a 8x8 fuel assembly design under typical BWR conditions and an international benchmark effort has been organized. The VIPRE-W sub-channel analysis code (Westinghouse version of VIPRE-01) was used in this benchmark exercise where various void models were investigated, including the EPRI drift flux void correlation and the four-equation drift flux model of two-phase flow. Detailed and statistical analyses of the code results were performed using the entire BFBT sub-channel void database and it was demonstrated that the VIPRE-W sub-channel void predictions are generally reliable over a wide range of conditions, including where the radial power gradient is very large. However, in the case of low pressure (< 1.4 MPa) and for bundle boundary sub-channels, in particular at low pressure and low flow, a void over-prediction was observed. The entire steady-state cross-section averaged exit void database, restricted to outlet pressure > 1.4 MPa (351 data points), was predicted with an absolute mean error (M-P) of -0.016 and a standard deviation of 0.021. (author)}
place = {Japan}
year = {2009}
month = {Jul}
}