Plurality of radiation-chemical steady states during the radiolysis of water coolant in nuclear reactor


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A computational study has been performed on the radiolysis of an aqueous solution that has the chemical composition and irradiation parameters typical of the primary coolant of pressurized water reactors. In this work, in contrast to previous studies on this subject, it has been taken into account that temporary fluctuations of the reactor radiation parameters, such as the composition of reactor n, γ]-radiation and the absorbed dose rate in the coolant, may occur in an actual real reactor during irradiation. The feasibility of spontaneous switching of the radiation-chemical system from one steady state with low concentrations of oxidizing products of radiolysis to another state with high concentrations resulting from a spike of the reactor radiation dose rate against the background of constant dose rate before and after the spike has been shown. The event triggering the switch is an increase in the concentration of oxygen and HO2 (O2) radicals during the spike, after which the positive feedback does not allow the system to return back to the initial steady state. In practice, this effect can be caused by phenomena associated with local irregularities in the reactor core: the composition and dose rate of reactor radiation, the presence of steam–gas bubbles due to local subcooled nucleate boiling of the coolant in the core, and the perturbation of the water radiolysis mechanism at the surface of fuel rods because of an increased contribution of heterogeneous reactions etc.

Sobre autores

S. Kabakchi

Kurchatov Institute National Research Center

Autor responsável pela correspondência
Email: kabakchi@yandex.ru
Rússia, pl. Akademika Kurchatova 1, Moscow, 123182

O. Arkhipov

Dollezhal Research and Design Institute for Power Engineering

Email: kabakchi@yandex.ru
Rússia, ul. Malaya Krasnosel’skaya 2/8, Moscow, 101000

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