Role Of Shielding In Modelling Cryogenic Deuterium Pellet Ablation

K. Gal; E. Belonohy; G. Kocsis; P.T. Lang; G. Veres

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Role Of Shielding In Modelling Cryogenic Deuterium Pellet Ablation

机译：屏蔽在低温氘球消融建模中的作用

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For the better characterization of pellet ablation, the numerical LLP code has been enhanced by combining two relevant shielding mechanisms: that of the spherically expanding neutral cloud surrounding the pellet and that of the field elongated ionized material forming a channel flow. In contrast to our expectation the presence of the channel flow can increase the ablation rate although it reduces the heat flux travelling through it. The contribution of the different shielding effect in the ablation process is analysed for several pellet and plasma parameters and an ablation rate scaling is presented based on simple regression in the ASDEX Upgrade pellet and plasma parameter range. Finally the simulated results are compared with experimental data from typical ASDEX Upgrade discharges.

机译：为了更好地表征颗粒烧蚀，已通过结合两种相关的屏蔽机制来增强数字LLP代码：围绕颗粒的球形膨胀中性云的机制和形成通道流的电场细长电离物质的机制。与我们的预期相反，通道流的存在可以增加烧蚀速率，尽管它会减少流经通道的热通量。针对几种颗粒和血浆参数，分析了不同屏蔽效果在烧蚀过程中的作用，并基于ASDEX升级颗粒和血浆参数范围内的简单回归，给出了烧蚀速率的缩放比例。最后，将模拟结果与来自典型ASDEX升级排放的实验数据进行比较。

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《Nuclear fusion》 |2008年第8期|89-98|共10页
作者
K. Gal; E. Belonohy; G. Kocsis; P.T. Lang; G. Veres;
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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
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plasma-material interactions; boundary layer effects; tokamaks; spherical tokamaks; fueling; heating and ignition;

机译：等离子体与材料的相互作用边界层效应;托卡马克;球形托卡马克;加油;加热和点火;
入库时间 2022-08-18 00:45:35

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1. Cryogenic pellets with controlled length for pellet ablation studies [J] . I. da S. Rego, K.N. Sato, T. Aoki, Fusion Engineering and Design . 2006,第23a24期

机译：长度可控的低温球团用于球团消融研究
2. Shatter Thresholds and Fragment Size Distributions of Deuterium-Neon Mixture Cryogenic Pellets for Tokamak Thermal Mitigation [J] . T. E. Gebhart, L. R. Baylor, S. J. Meitner Fusion Science and Technology . 2020,第7期

机译：氘氖混合物低温粒料的碎阈值和片段尺寸分布，用于趾卡肟热缓解
3. Heating and ablation of high-Z cryogenic pellets in high temperature plasmas [J] . Fontanilla Adrian K., Breizman Boris N. Nuclear fusion . 2019,第9期

机译：高温等离子体中高Z低温微丸的加热和烧蚀
4. Observation of Cryogenic Hydrogen Pellet Ablation with a Fast-frame Camera System in the TJ II Stellarator [C] . N. Panadero, K. J. McCarthy, E. de la Cal, EPS Conference on Plasma Physics . 2016

机译：用TJ II螺筋管中快速框架相机系统的低温氢颗粒消融的观察
5. A PELLET ABLATION MODEL IN THE PRESENCE OF MULTIPLE ENERGY CARRIERS AND ANALYSES OF PELLET INJECTION EXPERIMENTS [D] . Nakamura, Yuji 1987

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6. Drosophila mini-white model system: new insights into positive position effects and the role of transcriptional terminators and gypsy insulator in transgene shielding [O] . Margarita Silicheva, Anton Golovnin, Ekaterina Pomerantseva, 2010

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7. Development of Pellet Ablation Model Considering the Effect of the Plasma Shielding [O] . M. Hoshino, R. Sakamoto, H. Yamada, 100

机译：考虑等离子体屏蔽效应的球团烧蚀模型研究
8. Assessment of Pellet Injection for NET. Pt. 1 and 2. Pt. 1: Penetration Depth Calculations for Single Pellets on the Basis of Available Ablation Models. Pt. 2: Pellet Sizes and Velocities Required for Central Fuelling Based on Available Ablation Models: Feasibility Considerations [R] . Lengyel, L. L. 1984

机译：NET的颗粒注射评估。铂。 1和2. pt。 1：基于可用消融模型的单颗粒的穿透深度计算。铂。 2：基于可用消融模型的中央加油所需的颗粒尺寸和速度：可行性考虑因素

Role Of Shielding In Modelling Cryogenic Deuterium Pellet Ablation

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