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Heat transfer characteristics for practical hydrogen pressure vessels being filled at high pressure

机译：实用氢压力容器在高压下的传热特性

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Experiments have been conducted to measure the rise in temperature of hydrogen and vessel wall during filling of commercially available, practical tanks to 35 and 70 MPa. Three test vessels with volumes 205, 130 and 39 liters are investigated. The filling time ranges from 5 to 20 minutes. The heat transfer process is modeled using a one-dimensional unsteady heat conduction equation for the wall coupled with a flow and heat balance for the compressed gas. The model requires heat transfer coefficients between the hydrogen and the wall and the wall and surrounding air. Values of 500 W/(m2K) during filling, 250 W/(m2K) after filling for the inside wall and 4.5 W/(m2K) for the outside tank wall are tentatively assumed based on results from a previous study on a smaller vessel. The measured temperatures for the hydrogen gas and the wall are in good agreement with the calculations.

机译：已经进行了实验，以测量在市售的实用储罐填充至35 MPa和70 MPa期间氢气和容器壁的温度升高。研究了容量为205、130和39升的三个测试容器。填充时间为5到20分钟。使用壁的一维非稳态热传导方程以及压缩气体的流动和热平衡来模拟传热过程。该模型要求氢与壁之间以及壁与周围空气之间的传热系数。根据先前关于较小容器的研究结果，暂定灌装期间为500 W /（m2K），内壁灌装后为250 W /（m2K），外罐壁为4.5 W /（m2K）。氢气和壁的测量温度与计算结果非常吻合。

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L. Woodfield Peter; Monde Masanori; Takano Toshio;
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年度 2008
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Heat transfer characteristics for practical hydrogen pressure vessels being filled at high pressure

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