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摘要

地震下AP1000核电厂重力水箱与水发生流固耦合作用，并引起水的晃动，可能会减小核电厂的动力响应，实现核电厂减震。本文采用任意拉格朗日欧拉流固耦合算法，利用LS-DYNA建立AP1000核电厂屏蔽厂房重力水箱有限元模型，设计8种重力水箱水位工况，研究满足RG1.60反应谱的El-Centro地震波作用下重力水箱的动态响应，探究AP1000核岛厂房地震响应与空气高度、水箱水位高度和振荡频率之间的相互作用规律，探讨重力水箱的最优减震水位。结果表明：特定的水箱水位可以实现强震作用下核电厂的减震作用，当水位高度为8.8m，水位高度比为0.75，水位工况3时，AP1000核电厂屏蔽厂房动力响应最小，最优水位为工况3。

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	赵春风陈健云王静峰

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Abstract：The fluid-structure interaction between the water storage tank and water can make the water sloshing, which may provide impulse pressure on the water tank, reduce the dynamic response of the shield building, and then achieve out the seismic reduction of NPP when the structure is subjected to earthquake loading. In this paper, the coupling fine finite element model of AP1000 shield building was established based on the Arbitrary Lagrangian Eulerian ALE algorithm. 8 cases of water levels were designed and dynamic response of water storage tank was investigated when the structure was subjected to El-Centro earthquake which satisfies to RG1.60 spectrum. The interaction rule and mechanism of acceleration and displacement and water height, height of air, height ratio of water level and oscillation frequency of water tank were parametrically analyzed. Finally, the optimal water level for seismic decay was obtained. The numerical results clearly show that a certain water level can effectively reduce the seismic response of NPP under earthquake loading. It is also indicated that the optimal water level is case 3 when the height of water and height ratio are 8.8m and 0.75, respectively, which can reduce seismic response most effectively.

Key words： Nuclear Power Plant NPP')" href="#">

Nuclear Power Plant NPP fluid-structure interaction FSI seismic reduction optimal water level

引用本文:

赵春风陈健云王静峰.

核电厂屏蔽厂房流固耦合模型与动力响应研究[J]. 土木工程学报, 2016, 49(S2): 107-113.
Zhao Chunfeng Chen Jianyun Wang Jingfeng. Study on fluid structure interaction model and dynamical response of NPP shield building. 土木工程学报, 2016, 49(S2): 107-113.

链接本文:

http://manu36.magtech.com.cn/Jwk_tmgcxb/CN/ 或 http://manu36.magtech.com.cn/Jwk_tmgcxb/CN/Y2016/V49/IS2/107

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