Abstract
Samples of the secondary system in the Yong Gwang 1 Plant were sampled and analysed once a month at 13 sampling points. The main components of materials in the secondary system and corrosion products consisted of iron. Therefore, iron component was used with the index of corrosion products. The weight of iron which was accumulated in the bottom of stea generator can be calculated from the iron concentration and flow rates. That is, the weight of iron which was flowed into the steam generator belonging to the feedwater and the weight of iron which was discharged out from the steam generator was calculated. From these data, the weight of iron which was accumulated in the steam generator was calculated. According to the calculation, it was found that the amount of accumulated iron was 2.01 kg / year for the steam generator A, 1.73 kg / year for the steam generator B and 1.84 kg / year for the steam generator C. (Author).
Yang, Kyung Rin;
Koo, Je Hyoo;
Lee, Eun Hee;
Hong, Kwang Bum;
Kang, Hee Suck
[1]
- Korea Atomic Energy Research Inst., Daeduk (Korea, Republic of)
Citation Formats
Yang, Kyung Rin, Koo, Je Hyoo, Lee, Eun Hee, Hong, Kwang Bum, and Kang, Hee Suck.
Study on the computerization of PWR secondary side chemistry monitoring.
Korea, Republic of: N. p.,
1991.
Web.
Yang, Kyung Rin, Koo, Je Hyoo, Lee, Eun Hee, Hong, Kwang Bum, & Kang, Hee Suck.
Study on the computerization of PWR secondary side chemistry monitoring.
Korea, Republic of.
Yang, Kyung Rin, Koo, Je Hyoo, Lee, Eun Hee, Hong, Kwang Bum, and Kang, Hee Suck.
1991.
"Study on the computerization of PWR secondary side chemistry monitoring."
Korea, Republic of.
@misc{etde_10113212,
title = {Study on the computerization of PWR secondary side chemistry monitoring}
author = {Yang, Kyung Rin, Koo, Je Hyoo, Lee, Eun Hee, Hong, Kwang Bum, and Kang, Hee Suck}
abstractNote = {Samples of the secondary system in the Yong Gwang 1 Plant were sampled and analysed once a month at 13 sampling points. The main components of materials in the secondary system and corrosion products consisted of iron. Therefore, iron component was used with the index of corrosion products. The weight of iron which was accumulated in the bottom of stea generator can be calculated from the iron concentration and flow rates. That is, the weight of iron which was flowed into the steam generator belonging to the feedwater and the weight of iron which was discharged out from the steam generator was calculated. From these data, the weight of iron which was accumulated in the steam generator was calculated. According to the calculation, it was found that the amount of accumulated iron was 2.01 kg / year for the steam generator A, 1.73 kg / year for the steam generator B and 1.84 kg / year for the steam generator C. (Author).}
place = {Korea, Republic of}
year = {1991}
month = {Jan}
}
title = {Study on the computerization of PWR secondary side chemistry monitoring}
author = {Yang, Kyung Rin, Koo, Je Hyoo, Lee, Eun Hee, Hong, Kwang Bum, and Kang, Hee Suck}
abstractNote = {Samples of the secondary system in the Yong Gwang 1 Plant were sampled and analysed once a month at 13 sampling points. The main components of materials in the secondary system and corrosion products consisted of iron. Therefore, iron component was used with the index of corrosion products. The weight of iron which was accumulated in the bottom of stea generator can be calculated from the iron concentration and flow rates. That is, the weight of iron which was flowed into the steam generator belonging to the feedwater and the weight of iron which was discharged out from the steam generator was calculated. From these data, the weight of iron which was accumulated in the steam generator was calculated. According to the calculation, it was found that the amount of accumulated iron was 2.01 kg / year for the steam generator A, 1.73 kg / year for the steam generator B and 1.84 kg / year for the steam generator C. (Author).}
place = {Korea, Republic of}
year = {1991}
month = {Jan}
}