Pulsating Heat Pipes (PHP) are passive two-phase heat transfer devices consisting of a long capillary tube bent into many U-turns connecting the condenser part to the evaporator part. They are thermally driven by an oscillatory flow of liquid slugs and vapor plugs coming from phase changes and pressure differences along the tube. The coupling of hydrodynamic and thermodynamic effects allows high heat transfer performances. Three closed-loop pulsating heat pipes have been developed by the DACM (Department of Accelerators, Cryogenics and Magnetism) of CEA Paris-Saclay, France. Each PHP measures 3.7 meters long (0.35 m for the condenser and the evaporator and 3 m for the adiabatic part), being almost 20 times longer than the longest cryogenic PHP tested. These PHPs have 36, 22 and 12 parallel channels. Numerous tests have been performed in horizontal position (the closest configuration to non-gravity) using nitrogen as working fluid, operating between 75 and 90 K. The inner and outer diameters of the stainless steel capillary tubes are 1.5 and 2 mm respectively. The PHPs were operated at different filling ratios (20 to 90 %), heat input powers (3 to 20 W) and evaporator and condenser temperatures (75 to 90 K). As a result, the PHP with 36 parallel channels achieves a certain level of stability during more than thirty minutes with an effective thermal conductivity up to 200 kW/m.K at 10 W heat load and during forty minutes with an effective thermal conductivity close to 300 kW/m.K at 5 W heat load.
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机译:脉动热管(PHP)是被动的两相传热装置,其由长的毛细管弯曲成将冷凝器部件连接到蒸发器部件的许多U转。它们由液体槽的振荡流动热驱动,并且来自相变的蒸汽塞和沿管的压力差异。流体动力学和热力学效应的耦合允许高热传递性能。 Cea Paris-Saclay,法国的DACM(加速器,低温和磁性)开发了三个闭环脉动热管。每个PHP测量3.7米长(电容器为0.35米,绝热部件为蒸发器和3米),比测试的最长低温PHP长20倍。这些PHP具有36,22和12个平行通道。使用氮气作为工作流体的水平位置(最近的非重力)在水平位置(最近的配置)进行了许多测试,在75和90k之间工作。不锈钢毛细管的内径分别为1.5和2mm。在不同的填充比(20至90%),热输入功率(3至20W)和蒸发器和冷凝器温度(75至90k)以不同的填充比(3至90k)操作。结果,具有36个平行通道的PHP在超过30分钟内实现一定水平的稳定性,其有效的导热率高达200 kW / mk,在10W加热负荷,并且在四十分钟内,有效的导热率接近300kW / mk为5 w加热负荷。
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