Abstract
The paper presents a computational analysis of regularities in the accumulation of slags during the interaction of lead and lead-bismuth coolants with oxygen gas. Oxidation of lead-containing coolants will cause the formation of lead oxide, while the formation of bismuth oxide is unlikely. Dosed supply of oxidizing gas to lead-containing coolants makes it possible to oxidize, selectively, chromium and nickel to their oxides without the slag formation from solid lead oxide. Regularities were studied which are involved in the lead oxide formation during the interaction of lead-containing coolants with oxygen gas. It has been found that, in the process of interacting with oxygen gas, a lead-bismuth alloy is oxidized 1.7 times as intensively as lead, this being explained by the presence of bismuth in the alloy. Bismuth is oxidized more intensively than both lead and the lead-bismuth alloy. The inert gas overpressure during depressurization does not prevent air oxygen from entering the circuit, and the dependence of the nitrogen and oxygen flow into the circuit on the argon flow out of the loop is close to linear regardless of the circuit state (cold, without coolant; heated, without coolant; heated, with circulating coolant). Oxygen is a chemically active impurity and is absorbed by the circuit; it is therefore important to control nitrogen in the gas spaces of the reactor and research plant circuits with lead-containing coolants. This will make it possible to signal, in a timely manner, the ingress of oxygen into the circuit and to take measures required to avoid or reduce the scale of the slag formation from lead oxides.
Highlights
The choice of liquid metals as nuclear reactor coolants made by A.I
Sodium was selected as the coolant for civilian fast neutron reactors because of a shorter fuel doubling time, and lead-bismuth eutectic was selected as the coolant to be used in reactor plants for small-displacement ships and high-power plants, which has made it possible to achieve such specific weight and dimension parameters as are not possible in water-cooled plants (Fleitman and Weeks 1971, Weeks 1971, Antonovskiy et al 1997, Pioro et al 2019)
The dependence of the nitrogen flow into the circuit on the argon flow out of the circuit is close to direct proportionality, and the nature of the argon outflow from the circuit and the ingress of nitrogen into the circuit did not practically change independent of the test facility operation mode: QN2 = 0.032 QAr, (12)
Summary
Investigations of regularities in the accumulation of hydrogen-reduced slags in circulation circuits with lead-containing coolants*. Academic editor: Yury Kazansky ♦ Received 20 January 2021 ♦ Accepted 15 June 2021 ♦ Published 23 September 2021
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.