The Stefan moving boundary models for the heat-dissociation hydrate with a density difference

Li Mingchuan; Fan Shuanshi; Su Yuliang; Xu Fuhai; Li Yan; Lu Mingjing; Sheng Guanglong; Yan Ke

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The Stefan moving boundary models for the heat-dissociation hydrate with a density difference

机译：具有密度差的热解水合物的Stefan移动边界模型

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There exists a phase change for hydrate dissociation process during which is accompanied by a density difference, that also known as Stefan moving boundary problem. The conduction equations of the heatdissociation hydrates are derived creatively for a semi-infinite slab reservoir. Based on the Rankine-Hugoniot jump conditions, the moving boundary condition of the dissociation frontier is innovatively deduced from a multidiscipline perspective. Exact solutions are derived in detail for the temperature distribution and the dissociation frontier location. Compared with models of the constant density, laws of the temperature and the frontier location are obtained for a sample hydrate reservoir considering some effect factors, such as various densities, heated-water temperatures and injection times. (C) 2018 Elsevier Ltd. All rights reserved.

机译：水合物解离过程存在一个相变，在此期间伴随着密度差，这也称为Stefan移动边界问题。创造性地推导了半无限平板储层热解水合物的传导方程。基于兰金-Hugoniot跳跃条件，从多学科的角度创新地推论了解离前沿的运动边界条件。详细推导了温度分布和解离前沿位置的精确解。与恒定密度模型相比，考虑了一些影响因素（例如各种密度，热水温度和注入时间），获得了水合物样品的温度和边界位置的定律。（C）2018 Elsevier Ltd.保留所有权利。

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《Energy》 |2018年第1期|1124-1132|共9页
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Li Mingchuan; Fan Shuanshi; Su Yuliang; Xu Fuhai; Li Yan; Lu Mingjing; Sheng Guanglong; Yan Ke;
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The Stefan moving boundary models for the heat-dissociation hydrate with a density difference

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