A prototype divertor armor tile design has been investigated using water-cooled ATJ graphite tiles fitted to a copper heat sink. Two-dimensional steady-state and 1-D time dependent heat transfer codes were developed to determine thermal design characteristics. A steady-state heat flux of 5 MW/m/sup 2/ and a transient disruption load of 140 MJ/m/sup 2/ over 100 /spl mu/s were assumed for an ITER-type device operating in a radiative divertor configuration. For a tile fitted to the heat sink by a bonded-pin mechanism, the optimal armor thickness was determined to be 1.0 cm, with a 2.2 cm diameter coolant channel. The maximum steady state and disruption temperatures of the tile were determined to be 1760 K and 4800 K, respectively. LOCA analysis yielded that a 7 second response time would be needed after loss-of-coolant in the armor tile. The design is predicted to survive approximately 6 disruptions before tile replacement would be necessary.
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机译:使用适用于铜散热器的水冷ATJ石墨瓷砖进行了调查了原型转向铠装瓦片设计。开发了二维稳态和1-D时间依赖传热码以确定热设计特性。假设在辐射偏移器配置中操作的迭代型器件,假设稳态热通量为5mW / m / sup 2 /且瞬态破坏负荷为140mJ / m / sup 2 /超过100 / spl mu / s 。对于通过粘结销机构装配到散热器的瓦片,最佳装甲厚度被确定为1.0cm,直径为2.2cm的冷却剂通道。瓦片的最大稳态和破坏温度分别测定为1760 k和4800 k。 LOCA分析产生了在装甲瓦片损失后需要7秒的响应时间。预计设计将在需要瓷砖替换之前生存大约6个中断。
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