Modeling of corrosion product migration in the secondary circuit of nuclear power plants with WWER-1200
- Авторы: Kritskii V.1, Berezina I.1, Gavrilov A.1, Motkova E.1, Zelenina E.1, Prokhorov N.1, Gorbatenko S.2, Tsitser A.2
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Учреждения:
- ATOMPROEKT Research and Design Institute of Power Engineering
- Kalinin Atomic Power Plant
- Выпуск: Том 63, № 4 (2016)
- Страницы: 299-307
- Раздел: Water Preparation and Water Chemistry Conditions
- URL: https://journals.rcsi.science/0040-6015/article/view/172257
- DOI: https://doi.org/10.1134/S0040601516040042
- ID: 172257
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Аннотация
Models of corrosion and mass transfer of corrosion products in the pipes of the condensate-feeding and steam paths of the secondary circuit of NPPs with WWER-1200 are presented. The mass transfer and distribution of corrosion products over the currents of the working medium of the secondary circuit were calculated using the physicochemical model of mass transfer of corrosion products in which the secondary circuit is regarded as a cyclic system consisting of a number of interrelated elements. The circuit was divided into calculated regions in which the change in the parameters (flow rate, temperature, and pressure) was traced and the rates of corrosion and corrosion products entrainment, high-temperature рН, and iron concentration were calculated. The models were verified according to the results of chemical analyses at Kalinin NPP and iron corrosion product concentrations in the feed water at different NPPs depending on рН at 25°С (рН25) for service times τ ≥ 5000 h. The calculated рН values at a coolant temperature t (рНt) in the secondary circuit of NPPs with WWER-1200 were presented. The calculation of the distribution of рНt and ethanolamine and ammonia concentrations over the condensate feed (CFC) and steam circuits is given. The models are designed for developing the calculation codes. The project solutions of ATOMPROEKT satisfy the safety and reliability requirements for power plants with WWER-1200. The calculated corrosion and corrosion product mass transfer parameters showed that the model allows the designer to choose between the increase of the correcting reagent concentration, the use of steel with higher chromium contents, and intermittent washing of the steam generator from sediments as the best solution for definite regions of the circuit.
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Об авторах
V. Kritskii
ATOMPROEKT Research and Design Institute of Power Engineering
Автор, ответственный за переписку.
Email: kritsky@givnipiet.ru
Россия, ul. Savushkina 82, St. Petersburg, 197183
I. Berezina
ATOMPROEKT Research and Design Institute of Power Engineering
Email: kritsky@givnipiet.ru
Россия, ul. Savushkina 82, St. Petersburg, 197183
A. Gavrilov
ATOMPROEKT Research and Design Institute of Power Engineering
Email: kritsky@givnipiet.ru
Россия, ul. Savushkina 82, St. Petersburg, 197183
E. Motkova
ATOMPROEKT Research and Design Institute of Power Engineering
Email: kritsky@givnipiet.ru
Россия, ul. Savushkina 82, St. Petersburg, 197183
E. Zelenina
ATOMPROEKT Research and Design Institute of Power Engineering
Email: kritsky@givnipiet.ru
Россия, ul. Savushkina 82, St. Petersburg, 197183
N. Prokhorov
ATOMPROEKT Research and Design Institute of Power Engineering
Email: kritsky@givnipiet.ru
Россия, ul. Savushkina 82, St. Petersburg, 197183
S. Gorbatenko
Kalinin Atomic Power Plant
Email: kritsky@givnipiet.ru
Россия, Affiliation of Rosenergoatom, Udomlya, Tver oblast, 171841
A. Tsitser
Kalinin Atomic Power Plant
Email: kritsky@givnipiet.ru
Россия, Affiliation of Rosenergoatom, Udomlya, Tver oblast, 171841