Abstract
A total of 386 critical flow data points from 19 runs of 27 runs in the Marviken Test were selected and compared with the predictions by the correlations based on the critical flow scaling parameters. The results show that the critical mass flux in the very large diameter pipe can be also characterized by two scaling parameters such as discharge coefficient and dimensionless subcooling (C{sub d,ref} and {Delta}{Tau}{sup *} {sub sub}). The agreement between the measured data and the predictions are excellent. 8 refs., 8 figs. 1 tab. (Author)
Park, Choon Kyung;
Chun, Se Young;
Cho, Seok;
Yang, Sun Ku;
Chung, Moon Ki
[1]
- Korea Atomic Energy Research Institute, Taejon (Korea, Republic of)
Citation Formats
Park, Choon Kyung, Chun, Se Young, Cho, Seok, Yang, Sun Ku, and Chung, Moon Ki.
Predictions of the marviken subcooled critical mass flux using the critical flow scaling parameters.
Korea, Republic of: N. p.,
1997.
Web.
Park, Choon Kyung, Chun, Se Young, Cho, Seok, Yang, Sun Ku, & Chung, Moon Ki.
Predictions of the marviken subcooled critical mass flux using the critical flow scaling parameters.
Korea, Republic of.
Park, Choon Kyung, Chun, Se Young, Cho, Seok, Yang, Sun Ku, and Chung, Moon Ki.
1997.
"Predictions of the marviken subcooled critical mass flux using the critical flow scaling parameters."
Korea, Republic of.
@misc{etde_324143,
title = {Predictions of the marviken subcooled critical mass flux using the critical flow scaling parameters}
author = {Park, Choon Kyung, Chun, Se Young, Cho, Seok, Yang, Sun Ku, and Chung, Moon Ki}
abstractNote = {A total of 386 critical flow data points from 19 runs of 27 runs in the Marviken Test were selected and compared with the predictions by the correlations based on the critical flow scaling parameters. The results show that the critical mass flux in the very large diameter pipe can be also characterized by two scaling parameters such as discharge coefficient and dimensionless subcooling (C{sub d,ref} and {Delta}{Tau}{sup *} {sub sub}). The agreement between the measured data and the predictions are excellent. 8 refs., 8 figs. 1 tab. (Author)}
place = {Korea, Republic of}
year = {1997}
month = {Dec}
}
title = {Predictions of the marviken subcooled critical mass flux using the critical flow scaling parameters}
author = {Park, Choon Kyung, Chun, Se Young, Cho, Seok, Yang, Sun Ku, and Chung, Moon Ki}
abstractNote = {A total of 386 critical flow data points from 19 runs of 27 runs in the Marviken Test were selected and compared with the predictions by the correlations based on the critical flow scaling parameters. The results show that the critical mass flux in the very large diameter pipe can be also characterized by two scaling parameters such as discharge coefficient and dimensionless subcooling (C{sub d,ref} and {Delta}{Tau}{sup *} {sub sub}). The agreement between the measured data and the predictions are excellent. 8 refs., 8 figs. 1 tab. (Author)}
place = {Korea, Republic of}
year = {1997}
month = {Dec}
}