Abstract
Embrittlement processes in reactor pressure vessel (RPV) metal have been investigated by neutron dosimetry. A software package for fluence calculations has been developed and used for evaluation of the accumulated neutron fluence, the critical temperature of radiation embrittlement and the RPV lifetime. A digital reactivity meter DR-8 has been introduced for continuous neutron fluence monitoring. Estimates of the neutron fluence and the radiation state of all 6 units of the Kozloduy NPP are presented. The Unit 4 RPV is in the best state regarding metal embrittlement, while the Units 2 and 3 can be safely operated up to the end of their design lifetime only using dummy cassettes. The neutron fluence accumulation in the Unit 1 RPV is quite big and can not be reduced with annealing. Activity measurements of the Unit 1 internal wall shavings are made after the 14-th cycle which show a good agreement with calculated values (1.10{sup 5} Bq/g). The critical embrittlement temperature of the Units 1 - 4 is estimated as a function of the working cycles. 11 figs., 1 tab.
Apostolov, T;
Ilieva, K;
Belousov, S;
Petrova, T;
Antonov, S;
Ivanov, K;
Prodanova, R;
Penev, I;
Taskaev, E;
[1]
Ivanov, I;
Tsokov, P;
Nelov, N;
Lilkov, B;
Tsocheva, V;
Monev, M;
Velichkov, V;
Kharalampieva, Ts
[2]
- Bylgarska Akademiya na Naukite, Sofia (Bulgaria). Inst. za Yadrena Izsledvaniya i Yadrena Energetika
- Kombinat Atomna Energetika, Kozloduj (Bulgaria)
Citation Formats
Apostolov, T, Ilieva, K, Belousov, S, Petrova, T, Antonov, S, Ivanov, K, Prodanova, R, Penev, I, Taskaev, E, Ivanov, I, Tsokov, P, Nelov, N, Lilkov, B, Tsocheva, V, Monev, M, Velichkov, V, and Kharalampieva, Ts.
Neutron fluence determination for operation effectiveness assessment and prediction of WWER pressure vessel lifetime at the Kozloduy NPP.
Bulgaria: N. p.,
1995.
Web.
Apostolov, T, Ilieva, K, Belousov, S, Petrova, T, Antonov, S, Ivanov, K, Prodanova, R, Penev, I, Taskaev, E, Ivanov, I, Tsokov, P, Nelov, N, Lilkov, B, Tsocheva, V, Monev, M, Velichkov, V, & Kharalampieva, Ts.
Neutron fluence determination for operation effectiveness assessment and prediction of WWER pressure vessel lifetime at the Kozloduy NPP.
Bulgaria.
Apostolov, T, Ilieva, K, Belousov, S, Petrova, T, Antonov, S, Ivanov, K, Prodanova, R, Penev, I, Taskaev, E, Ivanov, I, Tsokov, P, Nelov, N, Lilkov, B, Tsocheva, V, Monev, M, Velichkov, V, and Kharalampieva, Ts.
1995.
"Neutron fluence determination for operation effectiveness assessment and prediction of WWER pressure vessel lifetime at the Kozloduy NPP."
Bulgaria.
@misc{etde_462936,
title = {Neutron fluence determination for operation effectiveness assessment and prediction of WWER pressure vessel lifetime at the Kozloduy NPP}
author = {Apostolov, T, Ilieva, K, Belousov, S, Petrova, T, Antonov, S, Ivanov, K, Prodanova, R, Penev, I, Taskaev, E, Ivanov, I, Tsokov, P, Nelov, N, Lilkov, B, Tsocheva, V, Monev, M, Velichkov, V, and Kharalampieva, Ts}
abstractNote = {Embrittlement processes in reactor pressure vessel (RPV) metal have been investigated by neutron dosimetry. A software package for fluence calculations has been developed and used for evaluation of the accumulated neutron fluence, the critical temperature of radiation embrittlement and the RPV lifetime. A digital reactivity meter DR-8 has been introduced for continuous neutron fluence monitoring. Estimates of the neutron fluence and the radiation state of all 6 units of the Kozloduy NPP are presented. The Unit 4 RPV is in the best state regarding metal embrittlement, while the Units 2 and 3 can be safely operated up to the end of their design lifetime only using dummy cassettes. The neutron fluence accumulation in the Unit 1 RPV is quite big and can not be reduced with annealing. Activity measurements of the Unit 1 internal wall shavings are made after the 14-th cycle which show a good agreement with calculated values (1.10{sup 5} Bq/g). The critical embrittlement temperature of the Units 1 - 4 is estimated as a function of the working cycles. 11 figs., 1 tab.}
place = {Bulgaria}
year = {1995}
month = {Dec}
}
title = {Neutron fluence determination for operation effectiveness assessment and prediction of WWER pressure vessel lifetime at the Kozloduy NPP}
author = {Apostolov, T, Ilieva, K, Belousov, S, Petrova, T, Antonov, S, Ivanov, K, Prodanova, R, Penev, I, Taskaev, E, Ivanov, I, Tsokov, P, Nelov, N, Lilkov, B, Tsocheva, V, Monev, M, Velichkov, V, and Kharalampieva, Ts}
abstractNote = {Embrittlement processes in reactor pressure vessel (RPV) metal have been investigated by neutron dosimetry. A software package for fluence calculations has been developed and used for evaluation of the accumulated neutron fluence, the critical temperature of radiation embrittlement and the RPV lifetime. A digital reactivity meter DR-8 has been introduced for continuous neutron fluence monitoring. Estimates of the neutron fluence and the radiation state of all 6 units of the Kozloduy NPP are presented. The Unit 4 RPV is in the best state regarding metal embrittlement, while the Units 2 and 3 can be safely operated up to the end of their design lifetime only using dummy cassettes. The neutron fluence accumulation in the Unit 1 RPV is quite big and can not be reduced with annealing. Activity measurements of the Unit 1 internal wall shavings are made after the 14-th cycle which show a good agreement with calculated values (1.10{sup 5} Bq/g). The critical embrittlement temperature of the Units 1 - 4 is estimated as a function of the working cycles. 11 figs., 1 tab.}
place = {Bulgaria}
year = {1995}
month = {Dec}
}