Numerical simulation of vitrification processes: glass homogeneity by gas bubbling study

机译：玻璃化方法的数值模拟：气泡研究玻璃均匀性

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A direct induction process using the cold crucible technology has been developed by the French Atomic Commission and AREVA-NC for 25 years. In this process, walls of the crucible are cooled by internal water circulation which protect them from the corrosion and allow higher temperature of the molten glass. Moreover, a mechanical stirrer and air bubbling system promote a good homogeneity of the melt. This study describes how the air bubbling in the glass is modelled in our simulation and enlightens his important role in the homogenisation of the glass during his elaboration. Air bubbling in liquids as viscous as the glass (viscosity up to 10 Pa.s) is not common and specific models have to be built. Two different models are used, first one is a semi-empirical based model, and the second is a two phase model (VOF).

机译：使用冷坩埚技术的直接感应过程已由法国原子委员会和AREVA-NC开发25年。在该过程中，坩埚的壁通过内部水循环冷却，该内部水循环保护它们免受腐蚀并允许熔融玻璃的温度较高。此外，机械搅拌器和气泡系统促进了熔体的良好均匀性。本研究描述了在我们的模拟中建模的玻璃上的空气冒泡是如何模拟的，并在其阐述期间在玻璃均质化中起着重要作用。在液体中以粘性的液体鼓泡（粘度高达10Pa）的空气不常见，必须建造特定的型号。使用两种不同的型号，首先是一个半经验基于的模型，第二个是两相模型（VOF）。

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《International conference on nuclear chemistry for sustainable fuel cycles》|2012年||共6页
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Emilien Sauvage; Armand Bonnetier; Delphine Gautheron; Patrice Brun; Jacques Lacombe;
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中图分类 O615.5-532;
关键词
Cold crucible; Numerical Simulation; Two-phase model; Hydrodynamic;

机译：冷坩埚;数值模拟;两相模型;流体动力学;

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4. Numerical simulation of vitrification processes: glass homogeneity by gas bubbling study [C] . Emilien Sauvage, Armand Bonnetier, Delphine Gautheron, International conference on nuclear chemistry for sustainable fuel cycles . 2012

机译：玻璃化方法的数值模拟：气泡研究玻璃均匀性
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Numerical simulation of vitrification processes: glass homogeneity by gas bubbling study

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