玻璃固化用冷坩埚底部结构设计对电磁场影响的模拟分析  

作　　者：钱敏[1,2] 裴广庆 凡思军[1] 陈树彬[1] 唐景平[1] 邹兆松[1] 薛天锋[1] 李忠镝[3] 胡丽丽 QIAN Min;PEI Guangqing;FAN Sijun;CHEN Shubin;TANG Jingping;ZOU Zhaosong;XUE Tianfeng;LI Zhongdi;HU Lili(Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences,Shanghai 201800,China;University of Chinese Academy of Sciences,Beijing 100049,China;China Nuclear Power Engineering Co.,Ltd.,Beijing 100840,China)

机构地区：[1]中国科学院上海光学精密机械研究所,上海201800 [2]中国科学院大学,北京100049 [3]中国核电工程有限公司,北京100840

出　　处：《原子能科学技术》2023年第4期837-849,共13页Atomic Energy Science and Technology

基　　金：国防科工局乏燃料后处理科研专项(FKY1683ZHG001SSJS-B01-001)。

摘　　要：冷坩埚玻璃固化技术是高放废液玻璃固化技术的重点研究方向之一。坩埚底作为冷坩埚的重要部件,影响冷坩埚的透磁性、密封性、强度和漏料工艺。为提高冷坩埚漏料效率,需要增强漏料口附近的磁感应强度。本文使用COMSOL Multiphysics软件建立了冷坩埚电磁感应模型,研究了坩埚底结构设计对冷坩埚内部磁场和电磁损耗的影响。模拟结果显示:改变坩埚底部分瓣数对坩埚内部磁场、坩埚底部磁场和坩埚底电磁损耗的影响较小;增加开缝宽度可有效增强坩埚内部磁场,降低坩埚底的电磁损耗,并使玻璃熔体的加热效率增加约6%;增加开缝深度可增加坩埚底部中心附近玻璃域的磁感应强度和底部玻璃熔体的电磁损耗占比。As the last step of the nuclear fuel cycle,nuclear waste reprocessing is essential to the safe utilization and sustainable development of the nuclear industry and nuclear energy.Vitrification is currently internationally recognized as the best solution for the treatment of high-level radioactive waste,and it is also the only high-level waste disposal method that realizes engineering applications.The cold crucible induction melting(CCIM)vitrification technology is one of the key research directions of high-level waste liquid vitrification technologies.As an important part of the cold crucible,the bottom affects the magnetic permeability,sealing,strength and leakage process of the cold crucible.In order to improve the pouring efficiency during cold crucible melting process,the magnetic induction intensity near the discharge port needs to be enhanced.The effects of the design of the crucible bottom on the magnetic induction intensity and electromagnetic loss inside the cold crucible were studied.The 3D electromagnetic induction models of cold crucibles with different bottom structures were established by using the AC/DC module of COMSOL Multiphysics software.The simulation results show that changing the number of slits has little effect neither on the magnetic field inside the crucible,nor on the magnetic field and the electromagnetic loss at the bottom of the crucible.The slit width of crucible bottom increasing from 5 mm to 20 mm,the magnetic flux density inside the crucible increases by about 4%,and the electromagnetic loss of the glass melt domain in the crucible increases by about 1.7 kW(the proportion increased by about 6%).Increasing the length of the slits from 90 mm to 115 mm,the magnetic flux density near the center of the crucible bottom increases by 0.1-1.25 mT,and the electromagnetic loss of the glass melt near the bottom increases by 1.6%(about 0.4 kW).Accordingly,the magnetic permeability and the heating efficiency of the cold crucible can be improved by increasing the slit width.The magnetic inductio

关 键 词：玻璃固化 冷坩埚 电磁场 坩埚底设计 数值模拟 

分 类 号：TL941.11[核科学技术—辐射防护及环境保护]