本发明提供了一种氦氙冷却反应堆的参数优化方法、装置及电子设备,涉及核反应堆技术领域,上述氦氙冷却反应堆的参数优化方法包括以下步骤：获取氦氙冷却反应堆的有效样本集；其中,有效样本集中包括氦氙冷却反应堆的待优化参数；基于有效样本集确定待优化参数与氦氙冷却反应堆的全堆效率及全堆质量的参数关系；基于预设的多目标优化算法及参数关系确定待优化参数的最优解。本发明能够快速得到待优化参数的最优解,在氦氙冷却反应堆在全堆质量尽可能小的基础上提升全堆效率,提升了氦氙冷却反应堆的参数优化效果。

The present invention provides a parameter optimization method, a device and an electronic device for a helium-xenon cooling reactor, and relates to the technical field of nuclear reactors, and the above parameter optimization method for a helium-xenon cooling reactor comprises the steps of: obtaining an effective sample set of a helium-xenon cooling reactor; wherein the effective sample set comprises the parameters to be optimized for the helium-xenon cooling reactor; determining a parametric relationship between the parameters to be optimized and a full reactor efficiency and a full reactor quality of the helium-xenon cooling reactor based on the effective sample set; determining the optimal solution for the parameters to be optimized based on a preset multi-objective optimization algorithm and parametric relationship. the effective sample set; determining a parametric relationship between the parameters to be optimised and the full reactor efficiency and the full reactor mass of the helium-xenon cooled reactor; and determining an optimal solution for the parameters to be optimised based on a predefined multi-objective optimisation algorithm and the parametric relationship. The optimal solutions of the parameters to be optimised can be obtained quickly, and the efficiency of the helium-xenon cooled reactor can be improved on the basis of the smallest possible mass of the reactor, which improves the optimisation effect of the parameters of the helium-xenon cooled reactor.