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The Investigation on Heat Transfer Characteristics of Steam Condensation in Presence of Noncondensable Gas under Natural Convection
Science and Technology of Nuclear Installations ( IF 1.1 ) Pub Date : 2021-03-26 , DOI: 10.1155/2021/6689597 Xizhen Ma 1, 2 , Jiang Ma 2 , Heng Tong 2 , Haijun Jia 3
Science and Technology of Nuclear Installations ( IF 1.1 ) Pub Date : 2021-03-26 , DOI: 10.1155/2021/6689597 Xizhen Ma 1, 2 , Jiang Ma 2 , Heng Tong 2 , Haijun Jia 3
Affiliation
The NHR-200 reactor in China adopts the noncondensable gas self-stabilizing control and the noncondensable gas used for pressure stabilization control can weaken steam condensation heat transfer in the integrated steam-gas pressurizer. A condensation experimental system was established and the heat transfer characteristics of steam-nitrogen and steam-argon condensation under natural convection had been investigated. The pressure ranged from 0.516 to 5.10 MPa. The distributions of nitrogen and argon in the steam/gas mixture were obtained in the experiments, and the results showed that nitrogen and argon were evenly distributed in the steam under different pressure, respectively. The effects of heat transfer temperature difference had also been investigated and it is found that the total heat transfer coefficient difference had little influence on the total condensation heat transfer coefficient. However, the steam condensation heat transfer coefficient decreased with the increase of the degree of supercooling of the wall. The condensation heat transfer coefficient was reduced by approximately 0.11 kW/(m2·K) as the degree of supercooling of the wall changed from 14°C to 36°C. The condensation heat transfer coefficient also decreased with the mass/molar fraction of noncondensable gas increasing and a certain difference between the effect of the mass fraction of noncondensable gas and the effect of the molar fraction of noncondensable gas was discussed in this paper.
更新日期:2021-03-26
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