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引用次数: 6
摘要
一个基于金属氢化物的循环手套箱清理系统原型进行了调试,并对其进行了氚测试。吸气材料SAES St 198之所以被选中,是因为它能够有效地从惰性气体或氮气手套箱盖气体中去除氚和微量杂质,并且易于通过加热到高温回收氚。次级外壳清理(SEC)系统利用可编程控制器进行过程控制和系统隔离,并在异常情况下发出警报。当床层被绕过时,该系统通过跟踪手套箱内的湿度水平来检测手套箱中的泄漏空气。将0.5 Ci的氚故意释放到手套箱中以演示系统性能,在大约20分钟或大约7个系统时间常数内被吸气床有效地去除。
Development of a secondary enclosure clean-up system for tritium systems
A prototypical metal hydride based recirculating glovebox cleanup system was commissioned and tested with tritium. Getter material SAES St 198 was selected for its ability to effectively remove tritium and trace impurities from inert or nitrogen glovebox cover gases and its ease of tritium recovery by heating to elevated temperatures. The Secondary Enclosure Clean-up (SEC) system utilizes a programmable controller for process control and system isolation and alarm in the event of an abnormal condition. The system was used to detect glovebox air in leakage by tracking the moisture level within the glovebox when the bed is bypassed. An aliquot of 0.5 Ci of tritium, intentionally released into a glovebox to demonstrate the system performance, was effectively removed by the getter bed in about 20 minutes or about 7 system time constants.
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