PCS内部换热器外低浓度氢气燃烧及其影响分析OA北大核心CSTPCD
Low Concentration Hydrogen Combustion and Its Influence Analysis outside PCS Internal Heat Exchanger
为研究严重事故条件下对华龙一号非能动安全壳冷却系统(PCS)内部换热器的影响,以华龙一号PCS内部换热器为研究对象,使用商业流体计算软件ANSYS对低浓度氢气燃烧工况及其影响进行了分析.利用西安交通大学的圆柱形实验作为验证实验,证明了选用燃烧模型的正确.选取经验证的氢气燃烧模型对氢气浓度为 8%、10%、12%分别进行分析,得到PCS内部换热器换热管表面的最高温度及最大压力分别为 676 K与 1.95 MPa,并利用得到的温度、压力载荷对PCS内部换热器进行应力分析,按照ASME规范第Ⅲ卷第 1分卷NC分册、第 1分篇附录进行应力评定校核,结果表明应力水平满足标准的要求.本文研究结果表明,在严重事故下安全壳内浓度为 12%的氢气燃烧后不影响PCS内部换热器的安全使用.
In severe accidents,the zirconium water reaction produces a large amount of hydrogen and inevitably releases a large amount of heat.Passive containment cooling system(PCS)internal heat exchanger is a nuclear safety class equipment and an important component of PCS,which could export heat from the containment.Vapor condenses near PCS internal heat exchangers when heat is removed in response to severe incidents.This process leads to an increase in the concentration of hydrogen and air,which increases the possibility of hydrogen combustion near the internal heat exchanger of PCS.Therefore,the commercial fluid calculation software ANSYS was used to conduct hydrogen combustion outside PCS internal heat exchanger and its influence analysis.The hydrogen combustion model was verified by experiment data before use.Liu Yinhe's cylindrical experiment in Xi'an Jiaotong University was choosed to verify the numerical model of hydrogen combustion.The Fluent module in ANSYS was used to simulate the flame propagation velocity and peak combustion pressure under the initial conditions of 10%initial hydrogen concentration,0.1 MPa initial pressure and 323 K initial temperature.The calculated results are in good agreement with experimental data.Therefore,the hydrogen combustion model selected in this paper can effectively simulate the hydrogen combustion outside PCS internal heat exchanger.The influence of initial hydrogen concentration,convective heat transfer coefficient in heat exchanger tube and tube bundle on thermal characteristics of the heat exchanger was studied by using Fluent module in ANSYS.The initial hydrogen concentration was 8%,10%and 12%.The range of convective heat transfer coefficient in heat exchange tubes was 200-2 000 W/(m2·K).The tube bundle consisted of three heat exchange tubes.It is found that the most important factors affecting the thermal characteristics of the heat exchanger are the initial hydrogen concentration and the convective heat transfer coefficient in the heat exchange tube.The static structural module of ANSYS was used to simulate the stress of the heat exchanger under external hydrogen combustion condition.Primary membrane stress,local membrane stress and local membrane stress plus bending stress were obtained after stress linearization on the path including upper and lower header shell along wall thickness direction and the maximum stress point along the heat exchanger tube wall thickness direction.Then,compared them with ASME Code Section ⅢDivision 1,Division NC,and Division 1 Appendices.It is found that the stress level of the evaluation path meets the requirement of the evaluation standard under the condition analyzed in this paper.The research results indicate that under severe accidents,the hydrogen combustion with a concentration of 12%inside the containment does not affect the safe use of the internal heat exchanger of the PCS.
张东;丁铭;邵晓宙;郝晓华;李龙
中国辐射防护研究院,山西太原 030006哈尔滨工程大学,黑龙江哈尔滨 150001
核科学
非能动安全壳冷却系统内部换热器氢气燃烧应力分析
passive containment cooling systeminternal heat exchangerhydrogen combustionstress analysis
《原子能科学技术》 2024 (007)
1540-1547 / 8
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