The testing of assemblies for use in cryogenic systems commonly includes evaluation at or near operating (therefore cryogenic) temperature. Typical assemblies include valves and pumps for use in liquid oxygen-liquid hydrogen rocket engines. One frequently specified method of cryogenic external leakage testing requires the assembly, pressurized with gaseous helium (GHe), be immersed in a bath of liquid nitrogen (LN2) and allowed to thermally stabilize. Component interfaces are then visually inspected for leakage (bubbles). Unfortunately the liquid nitrogen will be boiling under normal, bench-top, test conditions. This boiling tends to mask even significant leakage.\ud\udOne little known and perhaps under-utilized property of helium is the seemingly counter-intuitive thermodynamic property that when ambient temperature helium is bubbled through boiling LN2 at a temperature of -195.8 °C, the temperature of the liquid nitrogen will reduce.\ud\udThis paper reports on the design and testing of a novel proof-of-concept helium injection control system confirming that it is possible to reduce the temperature of an LN2 bath below boiling point through the controlled injection of ambient temperature gaseous helium and then to efficiently maintain a reduced helium flow rate to maintain a stabilized liquid temperature, enabling clear visual observation of components immersed within the LN2. Helium saturation testing is performed and injection system sizing is discussed
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机译:用于低温系统的组件的测试通常包括在工作(或因此低温)温度或接近工作温度的评估。典型的组件包括用于液态氧-液态氢火箭发动机的阀门和泵。一种经常指定的低温外部泄漏测试方法,要求将组件用气态氦(GHe)加压,浸入液氮(LN2)的浴中并使其热稳定。然后目视检查组件接口是否有泄漏(气泡)。不幸的是,液氮在正常的台式测试条件下会沸腾。这种沸腾趋向于掩盖甚至显着的泄漏。\ ud \ ud氦的一个鲜为人知的特性,也许是利用不足的特性,是当室温氦在-195.8°C的沸腾状态下通过沸腾的LN2鼓泡时,似乎与直觉相反的热力学特性, \ ud \ ud本文报告了一种新颖的概念验证氦气注入控制系统的设计和测试,该系统证实可以通过加热将LN2浴的温度降至沸点以下。控制注入环境温度的气态氦气,然后有效地维持降低的氦气流速,以保持稳定的液体温度,从而能够清晰直观地观察浸入LN2内的组件。进行氦气饱和度测试并讨论喷射系统的尺寸
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