Molecular Dynamics Simulation of surface vaporization in beryllium Plasma Facing Components

D. Aquaro; M. Di Prinzio

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Molecular Dynamics Simulation of surface vaporization in beryllium Plasma Facing Components

机译：铍等离子体面对部件表面蒸发的分子动力学模拟

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An important feature of beryllium is its high vapor pressure. Small fluctuations in beryllium vapor pressure produce non-negligible differences in thermal behavior of Plasma Facing Components under high heat flux exposure, during off-normal events and Edge Localized Modes.rnOn the basis of an available pair potential, classical Molecular Dynamics (MD) Simulations have been carried out in order to evaluate beryllium vapor pressure and latent heat of vaporization under tokamak conditions.rnResults from Molecular Dynamics Simulations show a good agreement with the experimental value for the latent heat of vaporization. Vapor pressure, evaluated through Clapeyron's equation on the basis of simulations results, is affected by more uncertainties and shows a poor agreement with the available experimental data.

机译：铍的重要特征是其高蒸气压。铍蒸气压力的微小波动会在非正常事件和边缘局限模式下，在高热通量暴露下，等离子体面对部件的热行为产生不可忽略的差异。rn基于可用的对势，经典分子动力学（MD）模拟为了评估托卡马克条件下的铍蒸气压和汽化潜热，进行了研究。分子动力学模拟的结果与汽化潜热的实验值具有很好的一致性。在模拟结果的基础上通过Clapeyron方程评估的蒸气压受到更多不确定性的影响，并且与现有实验数据的吻合度很差。

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《Fusion Engineering and Design》 |2007年第24期|1681-1687|共7页
作者
D. Aquaro; M. Di Prinzio;
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作者单位

Universita di Pisa, Dipartimento di Ingegneria Nucleare, Meccanica e delta Produzione, Via Diotisalvi 2, 56100 Pisa, Italy;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类原子能技术;
关键词
plasma facing materials; thermal erosion; molecular dynamics;

机译：等离子材料热蚀分子动力学;

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Molecular Dynamics Simulation of surface vaporization in beryllium Plasma Facing Components

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