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引用次数: 1
摘要
在核聚变装置中,长脉冲操作对致动器和内部组件增加了一组特定的限制。其中一些问题通过Tore Supra 20年的经验进行了分析,Tore Supra是迄今为止能够运行长时间放电(数百秒)的最大托卡马克。讨论了超导磁体运行、射频加热和电流驱动以及粒子加注问题。对主动冷却环境运行的影响也进行了评估。材料侵蚀和燃料保留的结果倾向于放弃碳作为聚变反应堆的装甲材料。对等离子体控制系统中关键部件的表面温度进行实时调查,使ITER的相关热通量和场景控制接近极限,从而安全运行。
Performance issues for actuators and internal components during long pulse operation Tore Supra experience
In a fusion device, long pulse operation adds a set of specific constraints on actuators and internal components. Some of these issues are analyzed through the 20 years experience of Tore Supra which is to date the largest Tokamak able to run long duration discharges (hundreds of seconds). Superconducting magnet operation, RF heating and current drive as well as particle fuelling issues are discussed. The impact on operation of the actively cooled environment is also assessed. Material erosion and fuel retention results tend to discard the carbon as armor material for a fusion reactor. Real time survey of the surface temperature of critical components integrated into the plasma control systems allows for safe operation at ITER relevant heat fluxes and scenario control close to the limits.
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