二维任意几何耦合共振计算方法研究

Study on 2D Arbitrary Geometry Coupling Resonance Method

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摘要首次提出将子群方法用于密集峰区域,小波方法用于孤立峰区域的耦合共振计算方法。首先,对子群方法和小波方法的理论模型进行优化,然后在共振能区通过散射源项的计算进行耦合,达到精确计算包含孤立峰和密集峰的整个共振能区的有效共振自屏截面的目的。对压水堆栅元问题等共振基准题的计算结果表明:该耦合方法和其他传统的多群共振计算模型以及连续能量共振计算模型相比,可保证较高的计算效率,同时能精确计算整个共振能区的有效共振自屏截面,为后续的组件计算提供精确的输入参数。 The paper firstly proposes a coupling resonance method in which subgroup method is employed in the serried peak energy region, and wavelet expansion method is employed in single peak energy region. The original subgroup model and wavelet expansion model are improved and coupled through the calculation of scattering source from subgroup to wavelet expansion, so that the self-shielding cross section in the whole energy region can be calculated accurately. To verify these theories and to prove the improvements, a PWR cell benchmark problem is calculated. It is demonstrated that, compared with other traditional multi-group resonance methods and continuous energy resonance method, this coupling resonance method has the ability to accurately calculate the whole energy region＇s self-shielding cross section while keeping enough efficiency and finally has an ability to offer the accurate self-shielding parameters for latter transport calculation.

作者贺雷吴宏春曹良志

机构地区西安交通大学核工程与计算物理实验室

出处《核动力工程》 EI CAS CSCD 北大核心 2014年第6期1-5,共5页 Nuclear Power Engineering

关键词小波展开子群耦合精度 Wavelet expansion, Subgroup, Coupling, Accuracy

分类号 TL323 [核科学技术—核技术及应用]

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二维任意几何耦合共振计算方法研究

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