Abstract
CIEMAT, along with a great number of international laboratories, has participated in the open exercise of the first International Standard Problem addressing fission product transport issues. The FAL-ISP 1, aimed to study particle agglomeration, has been simulated with CONTAIN code. The thermalhydraulic results obtained have been satisfactory and aerosols ones have been reasonably accurate. However, some discrepancies appeared between predictions and experimental data; these are essentially related to the injection phase of the experiment, where the major influence of input approximations took place. In addition, the rationalization of discrepancies pointed potential data inconsistencies. Some parametric studies showed the results sensitivity to input assumptions concerning aerosol characterization and default values in CONTAIN; in general, they confirmed the suitability of most of the approximations taken. (Author)
Citation Formats
Herranz, L E, and Polo, J.
CIEMAT contribution to the international standard problem ISP-34: contain analysis of FAL-ISP 1 test.
Spain: N. p.,
1994.
Web.
Herranz, L E, & Polo, J.
CIEMAT contribution to the international standard problem ISP-34: contain analysis of FAL-ISP 1 test.
Spain.
Herranz, L E, and Polo, J.
1994.
"CIEMAT contribution to the international standard problem ISP-34: contain analysis of FAL-ISP 1 test."
Spain.
@misc{etde_10108306,
title = {CIEMAT contribution to the international standard problem ISP-34: contain analysis of FAL-ISP 1 test}
author = {Herranz, L E, and Polo, J}
abstractNote = {CIEMAT, along with a great number of international laboratories, has participated in the open exercise of the first International Standard Problem addressing fission product transport issues. The FAL-ISP 1, aimed to study particle agglomeration, has been simulated with CONTAIN code. The thermalhydraulic results obtained have been satisfactory and aerosols ones have been reasonably accurate. However, some discrepancies appeared between predictions and experimental data; these are essentially related to the injection phase of the experiment, where the major influence of input approximations took place. In addition, the rationalization of discrepancies pointed potential data inconsistencies. Some parametric studies showed the results sensitivity to input assumptions concerning aerosol characterization and default values in CONTAIN; in general, they confirmed the suitability of most of the approximations taken. (Author)}
place = {Spain}
year = {1994}
month = {Dec}
}
title = {CIEMAT contribution to the international standard problem ISP-34: contain analysis of FAL-ISP 1 test}
author = {Herranz, L E, and Polo, J}
abstractNote = {CIEMAT, along with a great number of international laboratories, has participated in the open exercise of the first International Standard Problem addressing fission product transport issues. The FAL-ISP 1, aimed to study particle agglomeration, has been simulated with CONTAIN code. The thermalhydraulic results obtained have been satisfactory and aerosols ones have been reasonably accurate. However, some discrepancies appeared between predictions and experimental data; these are essentially related to the injection phase of the experiment, where the major influence of input approximations took place. In addition, the rationalization of discrepancies pointed potential data inconsistencies. Some parametric studies showed the results sensitivity to input assumptions concerning aerosol characterization and default values in CONTAIN; in general, they confirmed the suitability of most of the approximations taken. (Author)}
place = {Spain}
year = {1994}
month = {Dec}
}