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反应堆直接安注结构热工影响分析 被引量:2

Analysis of Reactor Direct Safety Injection Tube Structure on Thermal Impact
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摘要 建立了反应堆压力容器直接安注的实验模型,进行传热和流动实验。实验对比研究了文丘里管和直管两种不同安注管结构下压力容器不同区域的流动混合、传热系数以及相应的温度变化,并通过可视化实验对比验证了不同安注模型的流场,对不同结构下安注管的阻力特性进行了分析。研究结果表明,不同安注管在流动阻力上存在较大差异。研究结果为反应堆压力容器安注管的设计选择提供了重要依据。 The experimental model of direct safety injection of the reactor pressure vessel was established and the heat transfer and flow experiments were carried out.The flow mixing,heat transfer coefficient and the corresponding temperature variation of two different injection tube structures,namely Venturi injection tube and straight tube,in different regions of the pressure vessel were studied in comparative experiment.The flow fields of different safety injection models were verified by visual experiment and the flow resistance characteristics of safety injection under different structures were analyzed.The results show that there is a big difference in flow resistance of different safety injection tubes.The study results provide an important basis for the reactor pressure vessel safety injection tube design.
作者 曹方方 蒋兴 翁羽 王燕燕 王海军 CAO Fang-fang JIANG Xing WENG Yu WANG Yan-yan WANG Hai-jun(State Key Laboratory of Multiphase Flow in Power Engineering, Xi' an Jiaotong University, Xi' an 710049, China Shanghai Nuclear Engineering Research ~ Design Institute, Shanghai 200233, China)
机构地区 西安交通大学动力工程多相流国家重点实验室 上海核工程研究设计院
出处 《原子能科学技术》 EI CAS CSCD 北大核心 2017年第1期46-51,共6页 Atomic Energy Science and Technology
关键词 压力容器 安注 文丘里 阻力 传热 pressure vessel safety injection Venturi resistance heat transfer
分类号 TL334 [核科学技术—核技术及应用]
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  • 1陈听宽,罗毓珊,王海军,吴海玲,卢冬华.反应堆压力容器安注过程瞬态传热特性研究[J].工程热物理学报,2005,26(5):789-792. 被引量:7
  • 2Bass B R, Pugh C E, Sivers J, et al. Overview of the International Comparative Assessment Study of Pressurized Thermal Shock in Reactor Pressure Vessel. Int. J.of Pressure Vessel and Piping, 2001, 78:197-211.
  • 3Reyes J N, Groome J T, Lafi A Y, et al. PTS Thermal Hydraulic Testing in the OSU APEX Facility. Int. J. of Pressure Vessel and Piping, 2001, 78:185-196.
  • 4Kakac S, Shah R K, Anug W. Handbook of Single-Phase Convective Heat Transfer. John Wiley & Sons Inc., 1987.
  • 5Siegele D, Hodulak L, Varfolomeyev 1, et al. Failure assessment of RPV nozzle under loss of coolant accident[J]. Nuclear Engineering and Design, 1999, 193: 265-272.
  • 6Rohde U, HOhne T, Kliem S, et al. Fluid mixing and flow distribution in a primary circuit of a nuclear pressurized water reactor-Validation of CFD codes[J]. Nuclear Engineering and Design, 2007, 237: 1639-1655.
  • 7Rohde U, Hhne T, Kliem S, et al. Fluid mixing and flow distrbution in the primary circuit[R]. Dresden: 5th Euratom Framework Programme, 2002.
  • 8ANSYS CFX-Solver theory guide[M]. Southpointe: ANSYS, Inc, 2011.
  • 9Pemldaov B S. Heat transfer and friction in turbulent pipe flow with variable physical properties[J]. Advances in Heat Transfer, 1970, 6: 503-564.
  • 10Donghua Lua, Haijun Wangb, Jun Chen, et al. Flow and heat transfer experiment in a RPV with direct safety injection[J]. Nuclear Engineering and Design, 2013, 261: 212-224.

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原子能科学技术
2017年 第1期

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