基于CAS法的核电工程异形水箱分布质量计算模型

DISTRIBUTED MASS CALCULATION MODEL OF SPECIAL-SHAPED TANK IN NUCLEAR POWER PROJECT BASED ON CAS METHOD

  • 摘要: 对于形状复杂的大型核电工程储液结构,Housner弹簧-质量模型适用性较差,基于有限元法的流-固耦合数值分析模型复杂、计算和存储量大,难以满足工程设计要求。该文基于声学-结构耦合法(CAS)提出了一种兼顾精度和效率的分布质量模型,通过理论推导从CAS计算结果中剥离得到的器壁动水压强脉冲分量,进而提出器壁单元各节点位置的分布式脉冲附加质量计算公式,精确地考虑了储液容器的形状对液体晃动的影响,同时实现了流-固耦合分析的解耦,有效解决了复杂大型核电工程储液结构的动力分析的难题。以矩形刚性水箱为例,将该文模型的结果与Housner分布模型比较,验证了该模型的合理性和可靠性。针对顶部具有复杂形状水箱的AP1000安全壳结构进行地震动分析,将该文模型与精细的流-固耦合模型进行比较,结果显示:两种模型计算结果吻合性好,该文模型前处理简便且在计算时间效率具有明显优势。该文模型可为核电工程考虑结构-地基、流-固耦合的多因素耦合高效分析奠定基础。

     

    Abstract: Housner's spring-mass model has poor applicability to complex large nuclear power project liquid storage structures. The fluid-solid coupling numerical analysis model based on finite element method is complex with large calculation and storage capacity, which is difficult to meet the requirements of engineering design. Based on the Coupled Acoustic-structure method (CAS), the paper proposed a model accounting for both accuracy and efficiency of the distribution of quality. Through theoretical derivation from CAS calculation results of the wall of dynamic water pressure impulse component, the paper put forward the wall unit position of each node of the distributed pulse formula of added mass, which accurately considers the shape of liquid storage containers in analysis of liquid sloshing. At the same time, the decoupling of fluid-structure coupling analysis is realized, which effectively solves the problem of dynamically analyzing complex large nuclear power project liquid storage structure. Taking rectangular rigid water tank as an example, the proposed model is compared with Housner's distribution model to verify the rationality and reliability of the model. The ground motion analysis of AP1000 containment structure with complex water tank at the top is carried out, and the comparison between the proposed model and the refined fluid-structure coupling model shows that the results of the two models agree well, and the proposed model is simple in pre-processing and has obvious advantages in calculation efficiency. This model can lay a foundation for efficient multi-factor coupling analysis of nuclear power project considering structure-foundation and fluid-structure coupling.

     

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