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C型换热器管外流体两相自然循环数值模拟 被引量:6

Numerical Simulation of Two-phase Natural Circulation Outside Tube of C-type Tube Heat Exchanger
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摘要 建立了简化的C型换热器管外流体CFD分析模型,模拟了反应堆安全壳内置换料水箱(IRWST)中典型气液两相自然循环特性。首先用公开发表文献中的试验数据对计算方法进行校验,计算中采用的湍流模型、壁面沸腾模型等能较好地捕捉主流流体升温特性、两相自然循环特性。结果表明:C型换热器增加了管外流体流场分布的不均匀性,提高了冷、热流体间的搅混强度,有助于降低管外流体温度差,增加大容积水池内的自然循环能力;但由于壁面对气泡的阻滞作用,换热器弯管及水平管局部区域空泡份额最大,发生了气泡聚集。计算结果可为非能动余热排出换热器的设计提供支持。 A CFD analytical model of flow domain outside the tube of heat exchanger with C-type tubes was established to simulate typical two-phase natural circulation char-acteristics in IRWST of reactor .The analytical model was firstly validated by experi-mental data in open literature ,and proved that the turbulence model and wall boiling model were feasible to describe the heating up process and two-phase flow characteris-tics .T he calculation results show that the natural circulation in large pool is enhanced with C-type tube which increases the flow turbulence by mixing hot and cold water intensively and reduces their temperature difference .Whereas ,bubble accumulation and maximum gas volume fraction occur in some areas of elbow and horizontal pipe ,because of bubbles blocked by walls .The calculation results can contribute to a better under-standing of the processes and give hints for heat exchanger design of the passive residual heat removal system .
作者 陈薇 王盟 丁铜伟
机构地区 国核(北京)科学技术研究院有限公司 国家国防科技工业局核技术支持中心
出处 《原子能科学技术》 EI CAS CSCD 北大核心 2014年第9期1595-1600,共6页 Atomic Energy Science and Technology
关键词 气液两相 自然循环 大容积水池 CFD two-phase natural circulation large pool CFD
分类号 TL364 [核科学技术—核技术及应用]
  • 相关文献

参考文献7

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二级参考文献34

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共引文献40

同被引文献83

  • 1卢川,张勇,鲁剑超,董化平.基于CFD方法的自然循环反应堆冷却剂流动特性分析[J].核动力工程,2012,33(S1):111-114. 被引量:5
  • 2黄代顺,蒋孝蔚,余红星.非能动安全壳冷却系统CFD冷凝和蒸发模型研究[J].核动力工程,2013,34(S1):188-191. 被引量:7
  • 3彭斯亮,侯玉林.自然循环余热锅炉的安装[J].能源与节能,2014,0(2):143-144. 被引量:2
  • 4沈瑾,江光明,唐钢,余红星.先进堆非能动余热排出系统应对全厂断电事故的能力分析[J].核动力工程,2007,28(2):87-90. 被引量:10
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  • 7Sun L, Sun L C, Yan C Q, et al. Conceptual Design and Analysis of a Passive Residual Heat Removal System for a 10MW Molten Salt Reactor Experiment [ J ]. Progress in Nuclear Energy ,2014,70 ( 11 ) : 149 -158.
  • 8Min B Y, Park H S, Shin Y C, et al. Experimental Verification on the Integrity and Performance of the Passive Residual Heat Removal System for a SMART Design with VISTA-ITL[ J ]. Annals of Nuclear Ener- gy,2014,71 (9) :118 - 124.
  • 9Nitin M, Jyeshtharaj B J, Arun K N, et al. Numerical Investigation of Three-dimensional Natural Circulation Phenomenon in Passive Safety Systems for Decay Heat Removal in Large Pools [ J ]. International Journal of Heat and Mass Transfer,2015,81 ( 2 ) :659 - 680.
  • 10Yu Y, Niu F L, Wang S F, et al. One-dimensional Model for Containment in APIO00 Nuclear Power Plant Based on Thermal Stratification [ J ]. Applied Thermal Engineering,2014,70 ( 9 ) :25- 32.

引证文献6

二级引证文献6

原子能科学技术
2014年 第9期

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