用两种颜色高温测定与等离子体接触的表面温度

Анатолий Викторович Воронин, В.Ю. Горяинов, А.А. Капралов, Владимир Адольфович Токарев, Г.Ю. Сотникова
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引用次数: 0

摘要

开发了一种高速双色高温计,可以测量温度范围为100-3500℃的热辐射强度,时间分辨率为2µs。分析了在等离子体相互作用条件下影响表面温度测量的主要因素。结果表明,当等离子体温度大于10 eV,粒子浓度适中时,壁面等离子体对热辐射是透明的。在Globus-M2型托卡马克和等离子体枪试验台上进行了非接触式测量与等离子体相互作用表面温度的实验研究。在托卡马克腔室外分离支路出口附近的壁面上检测到锯齿状的温度波动。这些闪光的周期为3-4毫秒,持续时间为2毫秒。高速高温计测得的最高壁温超过红外摄像机测得的最高壁温。在模拟托卡马克等离子体电流中断载荷的条件下,在氘等离子体射流循环作用条件下,在等离子体枪试验台对W-Li样品前表面温度进行了测量。样品温度在< 1ms的时间内达到3000℃以上。样品的导热系数随着等离子体暴露次数的增加而下降,这表现为脉冲后目标冷却速率的逐渐降低。提出了利用高速高温计控制与等离子体相互作用表面隔热箔形成的方法。
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Исследование температуры поверхности, контактирующей с плазмой, методом двухцветной пирометрии
A high-speed two-color pyrometer has been developed that allows measuring the intensity of thermal radiation in temperature range of 100-3500 0C with 2 µs time resolution. The analysis of the main factors affecting the measurement of surface temperature in the conditions of its interaction with plasma is carried out. It is shown that at plasma temperature of more than 10 eV and moderate concentration of particles, the wall plasma can be considered transparent to thermal radiation. Experimental studies on non-contact measurement of temperature of surface interacting with plasma on Globus-M2 tokamak and plasma gun test bench have been carried out. Sawtooth temperature fluctuations were detected on the wall of tokamak chamber near the exit of outer separatrix branch. The period of these flashes was 3-4 ms, and duration was 2 ms. The maximum wall temperature measured by a high-speed pyrometer exceeded the temperature measured by infrared camera. Measurements of temperature of the front surface of W-Li sample were carried out at plasma gun test bench under conditions of deuterium plasma jet cyclic action under loads simulating regimes of plasma current disruption in tokamak. The sample temperature reached more than 3000 0C during < 1 ms. The thermal conductivity of the sample degraded with an increase in number of plasma exposure cycles, which was expressed in progressive decrease in target cooling rate after the pulse. Using a high-speed pyrometer, it is proposed to control the formation of heat-insulating foils on surface interacting with plasma.
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