Abstract
In case of operating both Wolsung Nuclear Units 1 and 2 without operating tritium removal facilities, it is estimated that tritium in 2013 would be accumulated up to about 30 million Ci that would result in about 2,300 man-rem of tritium exposure to operators. The basic technologies for cryogenic distillation for tritium removal are mainly cryogenics, chemical equilibration of hydrogen isotope molecule, ortho-para hydrogen conversion, purification of hydrogen gas, electrolysis of water, recombination of water, and storage of tritium. Among them, the cryogenics, ortho-para hydrogen conversion and equilibration are the core technologies for development of tritium removal process. Establishment of these technologies through R and D in this field will contribute to localization of a tritium removal facility for Wolsung nuclear safety. (Author).
Kim, Young Ik;
Sung, Ki Woong;
Na, Jung Won;
Jung, Heung Suk;
Lee, Han Soo;
Ann, Do Hee;
Baik, Seung Woo
[1]
- Korea Atomic Energy Res. Inst., Taejon (Korea, Republic of)
Citation Formats
Kim, Young Ik, Sung, Ki Woong, Na, Jung Won, Jung, Heung Suk, Lee, Han Soo, Ann, Do Hee, and Baik, Seung Woo.
The core technologies for Tritium removal processes (I).
Korea, Republic of: N. p.,
1992.
Web.
Kim, Young Ik, Sung, Ki Woong, Na, Jung Won, Jung, Heung Suk, Lee, Han Soo, Ann, Do Hee, & Baik, Seung Woo.
The core technologies for Tritium removal processes (I).
Korea, Republic of.
Kim, Young Ik, Sung, Ki Woong, Na, Jung Won, Jung, Heung Suk, Lee, Han Soo, Ann, Do Hee, and Baik, Seung Woo.
1992.
"The core technologies for Tritium removal processes (I)."
Korea, Republic of.
@misc{etde_10136794,
title = {The core technologies for Tritium removal processes (I)}
author = {Kim, Young Ik, Sung, Ki Woong, Na, Jung Won, Jung, Heung Suk, Lee, Han Soo, Ann, Do Hee, and Baik, Seung Woo}
abstractNote = {In case of operating both Wolsung Nuclear Units 1 and 2 without operating tritium removal facilities, it is estimated that tritium in 2013 would be accumulated up to about 30 million Ci that would result in about 2,300 man-rem of tritium exposure to operators. The basic technologies for cryogenic distillation for tritium removal are mainly cryogenics, chemical equilibration of hydrogen isotope molecule, ortho-para hydrogen conversion, purification of hydrogen gas, electrolysis of water, recombination of water, and storage of tritium. Among them, the cryogenics, ortho-para hydrogen conversion and equilibration are the core technologies for development of tritium removal process. Establishment of these technologies through R and D in this field will contribute to localization of a tritium removal facility for Wolsung nuclear safety. (Author).}
place = {Korea, Republic of}
year = {1992}
month = {Jun}
}
title = {The core technologies for Tritium removal processes (I)}
author = {Kim, Young Ik, Sung, Ki Woong, Na, Jung Won, Jung, Heung Suk, Lee, Han Soo, Ann, Do Hee, and Baik, Seung Woo}
abstractNote = {In case of operating both Wolsung Nuclear Units 1 and 2 without operating tritium removal facilities, it is estimated that tritium in 2013 would be accumulated up to about 30 million Ci that would result in about 2,300 man-rem of tritium exposure to operators. The basic technologies for cryogenic distillation for tritium removal are mainly cryogenics, chemical equilibration of hydrogen isotope molecule, ortho-para hydrogen conversion, purification of hydrogen gas, electrolysis of water, recombination of water, and storage of tritium. Among them, the cryogenics, ortho-para hydrogen conversion and equilibration are the core technologies for development of tritium removal process. Establishment of these technologies through R and D in this field will contribute to localization of a tritium removal facility for Wolsung nuclear safety. (Author).}
place = {Korea, Republic of}
year = {1992}
month = {Jun}
}