电工技术学报2025,Vol.40Issue(10):3030-3043,14.DOI:10.19595/j.cnki.1000-6753.tces.240710
磁力提升型CRDM的动态等效磁网络模型建立与多场耦合计算方法
Establishment of Dynamic Equivalent Magnetic Network Model and Multi-Field Coupling Calculation Method for Magnetic Lift CRDM
摘要
Abstract
The magnetic lift control rod drive mechanism(CRDM)is a critical electromagnetic actuator for regulating nuclear reaction rates.Its dynamic process is complex to predict due to the cross-coupling among current response,magnetic circuit saturation,and motion state.The latest equivalent magnetic network(EMN)model exhibits inaccuracies and relies on flux distribution during modeling,lacking generality.In multi-field coupling analysis,researchers often employ multi-software collaborative or semi-simulation methods,which incur significant time and hardware costs.This paper proposes a dynamic equivalent magnetic network(DEMN)model and a multi-physics field coupling calculation method considering transient current changes and saturation. Firstly,the structure of the magnetic lift CRDM is introduced,and its lift solenoid valve is selected to analyze the electromagnetism-mechanics coupling during dynamic processes.Then,the mechanism is partitioned using orthogonal grid lines,and mesh units of multiple media are consolidated into a single medium to unify the reluctance calculation formula.During dynamic changes,only the grid size or position in the motion region is altered,thereby eliminating redundant modeling and reducing computational errors caused by mesh discrepancies.A connection relationship and calculation method for branch reluctance are established to address the misalignment between fixed and moving mesh units,facilitating continuous armature movement.A multi-physics field coupling calculation method is proposed by combining circuit models and kinematic formulas,which consider transient current changes and saturation.Finally,Compared with 3D finite element analysis(FEA)and experiments,the DEMN model and the proposed multi-field coupling calculation method are verified. 3D FEA results show that the magnetic density distribution,inductance,and electromagnetic force are highly consistent with the DEMN results,where the maximum error of inductance is 5.7%,and the maximum error of electromagnetic force is 3.4%.The experiments show that linear and saturated inductance variations are similar.The calculation accuracy of the release and suction currents under various loads exceeds 91%.Additionally,the dynamic results closely align with experimental results,with motion time calculation errors at 28 A and 40 A currents of 0.99%and 2.99%,respectively. The conclusion is as follows.(1)By using orthogonal grid lines,the unified calculation of reluctance is achieved,accelerating the modeling speed.(2)By changing the grid size or position of local areas,the dynamic changes of the EMN model are achieved,avoiding the problem of repeated modeling in the multi-field coupling calculation process and reducing the calculation errors caused by differences in mesh partitioning.(3)Compared with FEA,the proposed DEMN model requires less computational resources and shorter computation time while ensuring accuracy.Compared with the experimental results,the effectiveness and accuracy of the DEMN model and multi-field coupling calculation method are verified.It can be extended to EMN modeling,performance analysis,and rapid optimization design of the entire CRDM.关键词
反应堆/控制棒驱动机构/等效磁网络/多场耦合Key words
Reactor/control rod drive mechanism/equivalent magnetic network/multi-field coupling分类
核科学引用本文复制引用
杨云,徐奇伟,苗轶如,于天达,陈西南..磁力提升型CRDM的动态等效磁网络模型建立与多场耦合计算方法[J].电工技术学报,2025,40(10):3030-3043,14.基金项目
中央高校基本科研业务费专项资金(2024CDJGF-004)、重庆市自然科学基金(CSTB2022NSCQ-MSX0430)和核反应堆系统设计技术重点实验室开放基金(KFKT-05-FWHT-WU-2023001)资助项目. (2024CDJGF-004)
