Analysis on structural stress of tube in steam generator based on fluid-structure interaction

doi:10.3969/j.issn.0438-1157.2014.z1.059

CIESC Journal ›› 2014, Vol. 65 ›› Issue (S1): 364-370.DOI: 10.3969/j.issn.0438-1157.2014.z1.059

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Analysis on structural stress of tube in steam generator based on fluid-structure interaction

SUN Baozhi, ZHENG Lusong, HAN Wenjing, ZHANG Guolei, LIU Shanghua

College of Power and Energy Engineering, Harbin Engineering University, Harbin 150001, Heilongjiang, China

Received:2014-03-07 Revised:2014-03-10 Online:2014-05-30 Published:2014-05-30
Supported by:
supported by the National Natural Science Foundation of China(51109048);the Natural Science Foundation of Heilongjiang Province (E201346).

基于流固耦合的蒸汽发生器换热管结构应力分析

孙宝芝, 郑陆松, 韩文静, 张国磊, 刘尚华

哈尔滨工程大学动力与能源工程学院, 黑龙江哈尔滨 150001

通讯作者: 孙宝芝
基金资助:
国家自然科学基金项目（51109048）；黑龙江省自然科学基金面上项目（E201346）。

Abstract

Abstract: Taken the steam generator of nuclear power plant as the prototype, the vapor-liquid two-phase flow and the boiling heat transfer were simulated by two-fluid model. The coupled flow and heat transfer process between the fluid of the primary and secondary sides and the heat transfer tubes with support plates was numerically simulated using CFX software. Based on the flow and heat transfer calculation, the pressure of fluid in the primary and secondary sides was extracted. The pressure load was transferred to the structure model in Workbench. And the structural stress of tube was calculated. The fluid-structure interaction results show that there is an abrupt increase in secondary velocity at the positions of support plates. The fluid pressure loss of secondary side increases because of the increase of fluid turbulence dissipation. The pressure stress of the heat transfer tube depends on the pressure difference between the primary side and the secondary side. The overall average of the pressure stress is about 58 MPa, which is consistent with the actual measured parameter.

Key words: steam generator, vapor-liquid two-phase flow, pressure stress, fluid-structure interaction

摘要： 以核电站蒸汽发生器为研究对象，采用两流体模型描述二次侧汽液两相流动及沸腾换热，利用CFX对一、二次侧流体与换热管及支撑板的耦合流动换热进行三维数值模拟，在此基础上提取一、二次侧流体压力载荷，在Workbench平台中实现载荷向结构模型的传递，计算换热管结构应力。流固耦合计算结果表明：支撑板位置处二次侧流体流速迅速增大又快速减小，并且流体湍流耗散急剧增大造成二次侧流体压力损失增大；换热管压力应力取决于一、二次侧流体压差，整体平均压力应力约为58 MPa，与实际测量参数相符。

关键词: 蒸汽发生器, 汽液两相流, 压力应力, 流固耦合

CLC Number:

TQ028.8

SUN Baozhi, ZHENG Lusong, HAN Wenjing, ZHANG Guolei, LIU Shanghua. Analysis on structural stress of tube in steam generator based on fluid-structure interaction[J]. CIESC Journal, 2014, 65(S1): 364-370.

孙宝芝, 郑陆松, 韩文静, 张国磊, 刘尚华. 基于流固耦合的蒸汽发生器换热管结构应力分析[J]. 化工学报, 2014, 65(S1): 364-370.

References 17

[1]	Ding Xunshen (丁训慎). Natural circulation steam generator operating principles and operating parameters [J]. Nucl. Power Plant(核电站), 2003(2):15-21
[2]	Ding Xunshen (丁训慎). Fretting wear and protection of steam generator tubes [J]. Nuclear Safety(核安全), 2006(3): 27-32
[3]	Zhang Ronghua (张荣华),Xu Jijian (徐济鉴),Chen Jun (陈军). The thermal-hydraulic simulation of compact reactor system [J]. Nuclear Science and Engineering(核科学与工程), 2004, 24(2): 129-133
[4]	Jiang Xing (蒋兴), Zhang Ming (张明), Xie Yongcheng (谢永诚), Yao Weida (姚伟达).Three-dimensional numerical simulation of secondary side flow flied in steam generator [J]. Atomic Energy Science and Technology(原子能科学技术), 2008, 42(S1): 438-443
[5]	Ferng Y M, Chang H Jou. CFD investigating the impacts of changing operating conditions on the thermal-hydraulic characteristics in a steam generator [J]. Applied Thermal Engineering, 2008, 28: 414-422
[6]	Yang Yuanlong (杨元龙), Sun Baozhi (孙宝芝), Yang Longbin (杨龙滨), Zhang Yu (张羽). Numerical simulation on vapor-liquid two-phase flow of the secondary circuit in steam generator [J].Atomic Energy Science and Technology(原子能科学技术), 2012, 46(1): 51-56
[7]	Sun Baozhi,Yang Yuanlong. Numerically investigating the influence of tube support plates on thermal-hydraulic characteristics in a steam generator [J]. Applied Thermal Engineering,2013,51:611-622
[8]	Feng Weimin (冯卫民),Song Li (宋立),Xiao Guangyu (肖光宇). Coupling analysis of fluid-structure interaction in pressure pipes based on ADINA [J]. Engineering Journal of Wuhan University(武汉大学学报),2009,42(2):264-267
[9]	Steffen Basting,Martin Weismann. A hybrid level set-front tracking finite element approach for fluid-structure interaction and two-phase flow applications [J]. Journal of Computational Physics,2013,255:228-244
[10]	Liu Y,Lee D Y,Roy T,Ishii M,Buchanan J R Jr. The development of two-phase flow structures in air-water planar bubble jets [J]. International Journal of Multiphase Flow,2013,56:25-39
[11]	Zhang Hongbin (张红斌),Li Shoujun (李守军),Hu Yaohe (胡尧和). Research status in foreign about Inconel690 alloy for steam generator heat transfer tubes [J]. Special Steel Technology(特钢技术),2003,8(4):2-9
[12]	Tao Wenquan (陶文铨). Numerical Heat Transfer(数值换热学)[M]. Xi'an: Xi'an Jiaotong University Press, 2002: 1-6, 347-352
[13]	Yang Yuanlong (杨元龙),Sun Baozhi (孙宝芝),Wang Linchuan (王林川),Yang Longbin(杨龙滨).Numerical investigation on thermal-hydraulic steady-state characteristics of steam generator in different operating conditions [J]. Atomic Energy Science and Technology(原子能科学技术),2013,47(5):761-767
[14]	Li Weite (李维特),Huang Baohai (黄保海),Bi Zhongbao (毕仲波). Theoretical Analysis and Application of Thermal Stress(热应力理论分析及应用)[M]. Beijing: Electric Power Press of China,2004:8-28,157-160,175-241
[15]	Wagner W, Cooper J R. The IAPWS industrial formulation 1997 for the thermodynamic properties of water and steam [J]. Transactions of the ASME, 2000, 122: 150-182
[16]	Dang Shasha (党沙沙),Xu Yang (许洋),Zhang Hongsong (张红松).Coupled Multi-physics Finite Element Analysis in ANSYS12.0(ANSYS 12.0 多物理耦合场有限元分析)[M].Beijing: Machinery Industry Press,2010: 30-37,99-120
[17]	Ding Xunshen (丁训慎). IGA/IGSCC and protection on secondary side of steam generator tubes in nuciear power piants [J]. Corrosion and Protection(腐蚀与防护),2002, 23 (10) : 441-444

Analysis on structural stress of tube in steam generator based on fluid-structure interaction

基于流固耦合的蒸汽发生器换热管结构应力分析

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