Abstract
On this year the study was performed in two parts : The establishment of LMR development plan, and the development of LMR coolant technology 1. The establishment of LMR technologies, the domestic political and technical environment, economics and technical maturity were duly considered for comparative analysis. In this year technologies specific to LMRs and technologies common to both PWRs and LMRs were identified to understand the inter-relationships between those two categorized technologies. Including those two categories, an overall LMR technology tree was drawn up taking into consideration technologies and tasks necessary to the pool type design of the primary and secondary cooling systems. And technology options that should be thoroughly evaluated their comparative feasibilities and applicabilities in trade-off study were derived as a preliminary procedure for the selection of the reactor type. 2. The development of LMR coolant technology. Many relevant basic technologies should be developed for LMR to have the inherent safety characteristics and to be economical. Since the sodium(Na) being used as the coolant in LMR has several thermo-hydraulic characteristics differing from water, the sodium handling technique which provides the maximum utilization of the thermo-hydraulic merits of the sodium and the protection measures against its defects is one
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Cho, Man;
Kim, Yeong Cheol;
Kim, Shi Hwan;
Choi, Yeong Myeong;
Sho, Dong Seop;
Kim, Yeong In;
Park, Joo Hwan;
Kim, Yeong Kyoon;
Song, Hoon;
Kim, Yeong In;
Cho, Chang Yeon;
Cho, Seok Hong;
Lee, Dong Jin;
Kim, Jong Sook;
Jeon, Hyeong Ryeon;
Kim, Jeong Do;
Kim, Deok In;
Lee, Ui Jin;
Kil, Chung Seop;
Choi, Yeong Rok;
Moon, Kap Seok;
Yoo, Bong;
Lee, Hyeong Yeon;
Seo, Uk Hwan;
Lee, Jae Han;
Park, Yeon Pyo;
Nam, Ho Yoon;
Kim, Yong Ik;
Min, Byeong Tae;
Choi, Seok Ki;
Kim, Yoo Kon;
Lee, Yong Beom;
Hwang, Jong Seon;
An, Do Hui;
Kang, Hui Seok;
Choi, Byeong Hae;
Kang, Yeong Hwan;
Ryoo, Uh Seok;
Joo, Ki Nam;
Kim, Dae Hwan;
Ji, Shee Hwan;
Park, Deok Keun;
Kim, Seong Soo;
Maeng, Wan Yeong;
Park, Shee Jin;
Kim, Yeong Seok;
Jang, Moon Hui;
Hong, Joon Hwa;
Han, Jeong Ho;
No, Kyee Ho;
Park, Ji Yeon;
Jeong, Yong Hwan;
Lee, Deok Hyeon;
Jeong, Chung Hwan;
Cho, Shee Hyeon;
Kim, Dong Hwa;
Seong, Ki Ung;
Lee, Ki Yeong;
Kim, Ui Kwang;
[1]
Hong, Sang Hee
[2]
- Korea Atomic Energy Res. Inst., Taejon (Korea, Republic of)
- Seoul National University, Seoul (Korea, Republic of)
Citation Formats
Cho, Man, Kim, Yeong Cheol, Kim, Shi Hwan, Choi, Yeong Myeong, Sho, Dong Seop, Kim, Yeong In, Park, Joo Hwan, Kim, Yeong Kyoon, Song, Hoon, Kim, Yeong In, Cho, Chang Yeon, Cho, Seok Hong, Lee, Dong Jin, Kim, Jong Sook, Jeon, Hyeong Ryeon, Kim, Jeong Do, Kim, Deok In, Lee, Ui Jin, Kil, Chung Seop, Choi, Yeong Rok, Moon, Kap Seok, Yoo, Bong, Lee, Hyeong Yeon, Seo, Uk Hwan, Lee, Jae Han, Park, Yeon Pyo, Nam, Ho Yoon, Kim, Yong Ik, Min, Byeong Tae, Choi, Seok Ki, Kim, Yoo Kon, Lee, Yong Beom, Hwang, Jong Seon, An, Do Hui, Kang, Hui Seok, Choi, Byeong Hae, Kang, Yeong Hwan, Ryoo, Uh Seok, Joo, Ki Nam, Kim, Dae Hwan, Ji, Shee Hwan, Park, Deok Keun, Kim, Seong Soo, Maeng, Wan Yeong, Park, Shee Jin, Kim, Yeong Seok, Jang, Moon Hui, Hong, Joon Hwa, Han, Jeong Ho, No, Kyee Ho, Park, Ji Yeon, Jeong, Yong Hwan, Lee, Deok Hyeon, Jeong, Chung Hwan, Cho, Shee Hyeon, Kim, Dong Hwa, Seong, Ki Ung, Lee, Ki Yeong, Kim, Ui Kwang, and Hong, Sang Hee.
Liquid metal reactor development.
Korea, Republic of: N. p.,
1993.
Web.
Cho, Man, Kim, Yeong Cheol, Kim, Shi Hwan, Choi, Yeong Myeong, Sho, Dong Seop, Kim, Yeong In, Park, Joo Hwan, Kim, Yeong Kyoon, Song, Hoon, Kim, Yeong In, Cho, Chang Yeon, Cho, Seok Hong, Lee, Dong Jin, Kim, Jong Sook, Jeon, Hyeong Ryeon, Kim, Jeong Do, Kim, Deok In, Lee, Ui Jin, Kil, Chung Seop, Choi, Yeong Rok, Moon, Kap Seok, Yoo, Bong, Lee, Hyeong Yeon, Seo, Uk Hwan, Lee, Jae Han, Park, Yeon Pyo, Nam, Ho Yoon, Kim, Yong Ik, Min, Byeong Tae, Choi, Seok Ki, Kim, Yoo Kon, Lee, Yong Beom, Hwang, Jong Seon, An, Do Hui, Kang, Hui Seok, Choi, Byeong Hae, Kang, Yeong Hwan, Ryoo, Uh Seok, Joo, Ki Nam, Kim, Dae Hwan, Ji, Shee Hwan, Park, Deok Keun, Kim, Seong Soo, Maeng, Wan Yeong, Park, Shee Jin, Kim, Yeong Seok, Jang, Moon Hui, Hong, Joon Hwa, Han, Jeong Ho, No, Kyee Ho, Park, Ji Yeon, Jeong, Yong Hwan, Lee, Deok Hyeon, Jeong, Chung Hwan, Cho, Shee Hyeon, Kim, Dong Hwa, Seong, Ki Ung, Lee, Ki Yeong, Kim, Ui Kwang, & Hong, Sang Hee.
Liquid metal reactor development.
Korea, Republic of.
Cho, Man, Kim, Yeong Cheol, Kim, Shi Hwan, Choi, Yeong Myeong, Sho, Dong Seop, Kim, Yeong In, Park, Joo Hwan, Kim, Yeong Kyoon, Song, Hoon, Kim, Yeong In, Cho, Chang Yeon, Cho, Seok Hong, Lee, Dong Jin, Kim, Jong Sook, Jeon, Hyeong Ryeon, Kim, Jeong Do, Kim, Deok In, Lee, Ui Jin, Kil, Chung Seop, Choi, Yeong Rok, Moon, Kap Seok, Yoo, Bong, Lee, Hyeong Yeon, Seo, Uk Hwan, Lee, Jae Han, Park, Yeon Pyo, Nam, Ho Yoon, Kim, Yong Ik, Min, Byeong Tae, Choi, Seok Ki, Kim, Yoo Kon, Lee, Yong Beom, Hwang, Jong Seon, An, Do Hui, Kang, Hui Seok, Choi, Byeong Hae, Kang, Yeong Hwan, Ryoo, Uh Seok, Joo, Ki Nam, Kim, Dae Hwan, Ji, Shee Hwan, Park, Deok Keun, Kim, Seong Soo, Maeng, Wan Yeong, Park, Shee Jin, Kim, Yeong Seok, Jang, Moon Hui, Hong, Joon Hwa, Han, Jeong Ho, No, Kyee Ho, Park, Ji Yeon, Jeong, Yong Hwan, Lee, Deok Hyeon, Jeong, Chung Hwan, Cho, Shee Hyeon, Kim, Dong Hwa, Seong, Ki Ung, Lee, Ki Yeong, Kim, Ui Kwang, and Hong, Sang Hee.
1993.
"Liquid metal reactor development."
Korea, Republic of.
@misc{etde_10111620,
title = {Liquid metal reactor development}
author = {Cho, Man, Kim, Yeong Cheol, Kim, Shi Hwan, Choi, Yeong Myeong, Sho, Dong Seop, Kim, Yeong In, Park, Joo Hwan, Kim, Yeong Kyoon, Song, Hoon, Kim, Yeong In, Cho, Chang Yeon, Cho, Seok Hong, Lee, Dong Jin, Kim, Jong Sook, Jeon, Hyeong Ryeon, Kim, Jeong Do, Kim, Deok In, Lee, Ui Jin, Kil, Chung Seop, Choi, Yeong Rok, Moon, Kap Seok, Yoo, Bong, Lee, Hyeong Yeon, Seo, Uk Hwan, Lee, Jae Han, Park, Yeon Pyo, Nam, Ho Yoon, Kim, Yong Ik, Min, Byeong Tae, Choi, Seok Ki, Kim, Yoo Kon, Lee, Yong Beom, Hwang, Jong Seon, An, Do Hui, Kang, Hui Seok, Choi, Byeong Hae, Kang, Yeong Hwan, Ryoo, Uh Seok, Joo, Ki Nam, Kim, Dae Hwan, Ji, Shee Hwan, Park, Deok Keun, Kim, Seong Soo, Maeng, Wan Yeong, Park, Shee Jin, Kim, Yeong Seok, Jang, Moon Hui, Hong, Joon Hwa, Han, Jeong Ho, No, Kyee Ho, Park, Ji Yeon, Jeong, Yong Hwan, Lee, Deok Hyeon, Jeong, Chung Hwan, Cho, Shee Hyeon, Kim, Dong Hwa, Seong, Ki Ung, Lee, Ki Yeong, Kim, Ui Kwang, and Hong, Sang Hee}
abstractNote = {On this year the study was performed in two parts : The establishment of LMR development plan, and the development of LMR coolant technology 1. The establishment of LMR technologies, the domestic political and technical environment, economics and technical maturity were duly considered for comparative analysis. In this year technologies specific to LMRs and technologies common to both PWRs and LMRs were identified to understand the inter-relationships between those two categorized technologies. Including those two categories, an overall LMR technology tree was drawn up taking into consideration technologies and tasks necessary to the pool type design of the primary and secondary cooling systems. And technology options that should be thoroughly evaluated their comparative feasibilities and applicabilities in trade-off study were derived as a preliminary procedure for the selection of the reactor type. 2. The development of LMR coolant technology. Many relevant basic technologies should be developed for LMR to have the inherent safety characteristics and to be economical. Since the sodium(Na) being used as the coolant in LMR has several thermo-hydraulic characteristics differing from water, the sodium handling technique which provides the maximum utilization of the thermo-hydraulic merits of the sodium and the protection measures against its defects is one of the most important technologies for the development of LMR. In the present study many problems associated with the establishment of the technology for measuring and controlling the impurity in the Na-facility have been investigated. The conceptual design of the purity control system in the Na-facility and related purity control system have been also made. The test-run of the Na-loop facility constructed last year has been performed, which provided the technology necessary for operation and repair of the Na-facility.}
place = {Korea, Republic of}
year = {1993}
month = {May}
}
title = {Liquid metal reactor development}
author = {Cho, Man, Kim, Yeong Cheol, Kim, Shi Hwan, Choi, Yeong Myeong, Sho, Dong Seop, Kim, Yeong In, Park, Joo Hwan, Kim, Yeong Kyoon, Song, Hoon, Kim, Yeong In, Cho, Chang Yeon, Cho, Seok Hong, Lee, Dong Jin, Kim, Jong Sook, Jeon, Hyeong Ryeon, Kim, Jeong Do, Kim, Deok In, Lee, Ui Jin, Kil, Chung Seop, Choi, Yeong Rok, Moon, Kap Seok, Yoo, Bong, Lee, Hyeong Yeon, Seo, Uk Hwan, Lee, Jae Han, Park, Yeon Pyo, Nam, Ho Yoon, Kim, Yong Ik, Min, Byeong Tae, Choi, Seok Ki, Kim, Yoo Kon, Lee, Yong Beom, Hwang, Jong Seon, An, Do Hui, Kang, Hui Seok, Choi, Byeong Hae, Kang, Yeong Hwan, Ryoo, Uh Seok, Joo, Ki Nam, Kim, Dae Hwan, Ji, Shee Hwan, Park, Deok Keun, Kim, Seong Soo, Maeng, Wan Yeong, Park, Shee Jin, Kim, Yeong Seok, Jang, Moon Hui, Hong, Joon Hwa, Han, Jeong Ho, No, Kyee Ho, Park, Ji Yeon, Jeong, Yong Hwan, Lee, Deok Hyeon, Jeong, Chung Hwan, Cho, Shee Hyeon, Kim, Dong Hwa, Seong, Ki Ung, Lee, Ki Yeong, Kim, Ui Kwang, and Hong, Sang Hee}
abstractNote = {On this year the study was performed in two parts : The establishment of LMR development plan, and the development of LMR coolant technology 1. The establishment of LMR technologies, the domestic political and technical environment, economics and technical maturity were duly considered for comparative analysis. In this year technologies specific to LMRs and technologies common to both PWRs and LMRs were identified to understand the inter-relationships between those two categorized technologies. Including those two categories, an overall LMR technology tree was drawn up taking into consideration technologies and tasks necessary to the pool type design of the primary and secondary cooling systems. And technology options that should be thoroughly evaluated their comparative feasibilities and applicabilities in trade-off study were derived as a preliminary procedure for the selection of the reactor type. 2. The development of LMR coolant technology. Many relevant basic technologies should be developed for LMR to have the inherent safety characteristics and to be economical. Since the sodium(Na) being used as the coolant in LMR has several thermo-hydraulic characteristics differing from water, the sodium handling technique which provides the maximum utilization of the thermo-hydraulic merits of the sodium and the protection measures against its defects is one of the most important technologies for the development of LMR. In the present study many problems associated with the establishment of the technology for measuring and controlling the impurity in the Na-facility have been investigated. The conceptual design of the purity control system in the Na-facility and related purity control system have been also made. The test-run of the Na-loop facility constructed last year has been performed, which provided the technology necessary for operation and repair of the Na-facility.}
place = {Korea, Republic of}
year = {1993}
month = {May}
}