Abstract
Basic operational principles of a computer code system calculating the primary circuit corrosion product activities based on actual measured plant chemistry data are presented. The code system consists of two parts: FeSolub.prg: calculates the characteristic iron solubilities based on actual primary water chemistry (H{sub 3}BO{sub 3}KOH, ... etc.) and plant load (MW) data. A developed solubility calculation method has been applied fitted to magnetite solubility data of several authors; RADTRAN.exe: calculates primary circuit water and surface corrosion product activities based on results of FeSolub.prg or planned water chemistry data up to the next shutdown. The computer code system is going to be integrated into a general primary water chemistry monitoring and surveillance system. (author). 15 refs, 4 figs, 3 tabs.
Horvath, G L;
[1]
Civin, V;
[2]
Pinter, T
[3]
- Institute for Electrical Power Research, Budapest (Hungary)
- Hungarian Electricity Generating Board, Budapest (Hungary)
- Nuclear Power Plant PAKS, Budapest (Hungary)
Citation Formats
Horvath, G L, Civin, V, and Pinter, T.
Primary water chemistry monitoring from the point of view of radiation build-up.
IAEA: N. p.,
1997.
Web.
Horvath, G L, Civin, V, & Pinter, T.
Primary water chemistry monitoring from the point of view of radiation build-up.
IAEA.
Horvath, G L, Civin, V, and Pinter, T.
1997.
"Primary water chemistry monitoring from the point of view of radiation build-up."
IAEA.
@misc{etde_462448,
title = {Primary water chemistry monitoring from the point of view of radiation build-up}
author = {Horvath, G L, Civin, V, and Pinter, T}
abstractNote = {Basic operational principles of a computer code system calculating the primary circuit corrosion product activities based on actual measured plant chemistry data are presented. The code system consists of two parts: FeSolub.prg: calculates the characteristic iron solubilities based on actual primary water chemistry (H{sub 3}BO{sub 3}KOH, ... etc.) and plant load (MW) data. A developed solubility calculation method has been applied fitted to magnetite solubility data of several authors; RADTRAN.exe: calculates primary circuit water and surface corrosion product activities based on results of FeSolub.prg or planned water chemistry data up to the next shutdown. The computer code system is going to be integrated into a general primary water chemistry monitoring and surveillance system. (author). 15 refs, 4 figs, 3 tabs.}
place = {IAEA}
year = {1997}
month = {Feb}
}
title = {Primary water chemistry monitoring from the point of view of radiation build-up}
author = {Horvath, G L, Civin, V, and Pinter, T}
abstractNote = {Basic operational principles of a computer code system calculating the primary circuit corrosion product activities based on actual measured plant chemistry data are presented. The code system consists of two parts: FeSolub.prg: calculates the characteristic iron solubilities based on actual primary water chemistry (H{sub 3}BO{sub 3}KOH, ... etc.) and plant load (MW) data. A developed solubility calculation method has been applied fitted to magnetite solubility data of several authors; RADTRAN.exe: calculates primary circuit water and surface corrosion product activities based on results of FeSolub.prg or planned water chemistry data up to the next shutdown. The computer code system is going to be integrated into a general primary water chemistry monitoring and surveillance system. (author). 15 refs, 4 figs, 3 tabs.}
place = {IAEA}
year = {1997}
month = {Feb}
}