HL-2A上H模脱靶与芯部约束兼容性的集成模拟与实验验证  

Integrated modeling and experimental validation of H-mode divertor detachment and core confinement compatibility on HL-2A tokamak

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作  者:舒宇坤 王占辉 徐欣亮 吴雪科 王卓 吴婷[1] 周雨林 付彩龙 钟翊君 余鑫 李永高[1] 何小雪[1] 杨曾辰 昆仑集成模拟设计组 SHU Yukun;WANG Zhanhui;XU Xinliang;WU Xueke;WANG Zhuo;WU Ting;ZHOU Yulin;FU Cailong;ZHONG Yijun;YU Xin;LI Yonggao;HE Xiaoxue;YANG Zengchen;Kunlun Integrated Simulation and Design Group(Center for Fusion Science,Southwest Institute of Physics,Chengdu 610041,China;School of Nuclear Science and Technology,University of South China,Hengyang 421001,China)

机构地区:[1]核工业西南物理研究院聚变科学所,成都610041 [2]南华大学核科学技术学院,衡阳421001

出  处:《物理学报》2025年第9期228-240,共13页Acta Physica Sinica

基  金:国家自然科学基金(批准号:12375210);国家磁约束核聚变能发展研究专项(批准号:2022YFE03010004);四川省科技创新人才项目(批准号:2022JDRC0014)资助的课题.

摘  要:托卡马克高约束H模条件下偏滤器脱靶和热流控制是当前磁约束核聚变研究中的关键物理问题.脱靶对H模边界输运物理尤其是对芯部约束兼容性的影响是研究偏滤器脱靶物理的关键问题.本文获得了HL-2A装置H模等离子体偏滤器脱靶与芯部约束兼容的实验结果,采用OMFIT集成模拟平台,新发展了偏滤器靶板区的神经网络快速集成模拟方法,率先采用该快速集成模拟方法开展HL-2A第39007炮高约束模式下,边界偏滤器脱靶与芯部约束兼容性的集成模拟研究,经验证集成模拟结果与实验结果相吻合.通过进一步分析发现:HL-2A装置H模脱靶情况下,在芯部0.1<ρ≤0.5的区域内高极向波数(κθρs>1)模式下的湍性输运以离子温度梯度(ITG)模主导,在芯部0.5<ρ≤0.7的区域内的湍性输运以电子湍流主导;而边界则是在归一化极向波数的情况下由电子湍流主导,κθρs>2的情况下则以ITG为主,并伴有少量的电子湍流.本文研究结果为托卡马克装置芯边耦合物理研究提供了一定的集成模拟与实验验证基础.The divertor detachment and heat flux control under high-confinement H-mode conditions in tokamaks represent critical physical challenges in current magnetic confinement fusion research.Understanding the influence of detachment on H-mode boundary transport physics,particularly its compatibility with core confinement,is central to resolving divertor detachment physics.In this study,experimental results on divertor detachment and core confinement compatibility in H-mode plasma from the HL-2A tokamak are presented.On the objective magnetohydrodynamic framework for integrated tasks(OMFIT)integrated modeling platform,a novel neural network-based fast integrated modeling method for the divertor target region is developed by integrating a new edge neural network module(Kun-Lun Neural Networks,KLNN)to enhance divertor,scrapeofflayer and edge pedestal fast prediction capability.For the first time,this method is used to conduct integrated simulations of divertor detachment and core confinement compatibility in HL-2A discharge#39007 under high-confinement mode.The simulation results are validated with experimental measurements,demonstrating that they are well consistent.Further analysis reveals that in HL-2A H-mode detachment scenarios,turbulent transport in the core region(0.1<ρ≤0.5)with high poloidal wave numbers(κθρs>1)is dominated by ion temperature gradient(ITG)mode,while electron-driven turbulence prevails in the region(0.5<ρ≤0.7).In the boundary region,electron turbulence dominates at low normalized poloidal wave numbers(κθρs>2)whereas ITG modes become predominant at higher wave numbers(κθρs>2)accompanied by minor electron turbulence contributions.The research results of this work provide a certain foundation for integrated simulation and experimental verification in the study of core-edge coupling physics in tokamak devices and some insights for understanding detachment-compatible H-mode scenarios in the next-step fusion devices.

关 键 词:托卡马克 脱靶 H  集成模拟 

分 类 号:O53[理学—等离子体物理]

 

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