Retention of 100 eV Tritium in Tungsten at High Fluxes

机译：高通量钨在钨中保留100 eV tention

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

Tungsten ideally suited for many fusion applications due to its high threshold for sputtering as well as its very high melting point. If tungsten is to be used as a plasma-facing material in a fusion reactor, it is necessary to know its hydrogen isotope recycling and retention characteristics. The Tritium Plasma Experiment (TPE) has been used in a research program to determine the retention of tritium in 99.95 percent pure tungsten exposed to high fluxes of 100 eV tritons. Plasma exposures were performed at a temperature of 623 deg K. The flux of ions ranged from 10~(21) to 10~(22) ions/m~2/sec. After exposure to the tritium plasma, the samples were transferred to an outgassing system containing an ionization chamber for detection of the released tritium. The retention results closely followed a power law. Modeling was performed on the retention as a function of flux and the outgassing characteristics.

机译：钨具有很高的溅射阈值和极高的熔点，因此非常适合许多融合应用。如果将钨用作聚变反应堆中面向等离子体的材料，则必须了解其氢同位素的循环利用和保留特性。 a等离子体实验（TPE）已用于一项研究计划中，以确定暴露于100 eV ton高通量的99.95％纯钨中的the保留。等离子体暴露是在623摄氏度的温度下进行的。离子通量范围为10〜（21）至10〜（22）个离子/ m〜2 / sec。暴露于plasma等离子体后，将样品转移到包含电离室的脱气系统中，以检测释放的tri。保留结果严格遵循幂定律。对保留率作为通量和除气特性的函数进行了建模。

著录项

来源
《NATO Advanced Research Workshop on Hydrogen Recycling at Plasma Facing Materials Sep 15-19, 1999, St. Petersburg, Russia》|1999年|p.289-299|共11页
会议地点 Petersburg(RU)
作者
Thomas J. Venhaus; Rion A. Causey;
展开▼
作者单位

Sandia National Laboratories Livermore, CA 94550;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类一般工业技术;
关键词

相似文献

外文文献
中文文献
专利

1. Tritium retention in tungsten exposed to intense fluxes of 100 eV tritons [J] . R. Causey, K. Wilson, T. Venhaus, Journal of Nuclear Materials: Materials Aspects of Fission and Fusion . 1999,第0期

机译：暴露于100 eV Triton的强通量的钨中的retention保留
2. Tritium retention in displacement-damaged tungsten exposed to deuterium-tritium gas mixture at elevated temperatures [J] . Alimov V. Kh, Torikai Y., Hatano Y., Fusion Engineering and Design . 2021,第Jana期

机译：在升高的温度下暴露于氘 - 氚气体混合物的位移受损钨中的氚保留
3. Dust sampling in WEST and tritium retention in tokamak-relevant tungsten particles [J] . S. Peillon, G. Dougniaux, M. Payet, Nuclear Materials and Energy . 2020,第1期

机译：西部的粉尘采样和氚内保留的Tokamak相关钨粒子
4. Tritium retention behavior in tungsten exposed to off-normal plasma condition [C] . Nakamura, H., Ohira, Fusion Engineering, 1999. 18th Symposium on . 1999

机译：暴露于非正常等离子体条件下的钨中retention的保留行为
5. DIFFUSION AND EVAPORATION OF NITROGEN ON TUNGSTEN (100). [D] . COULMAN, DONALD JAMES. 1984

机译：氮在钨（100）上的扩散和蒸发。
6. The mobility of small vacancy/helium complexes in tungsten and its impact on retention in fusion-relevant conditions [O] . Danny Perez, Luis Sandoval, Sophie Blondel, -1

机译：小空位/氦配合物在钨中的迁移性及其对融合相关条件下保留的影响
7. Tritium retention in tungsten exposed to intense fluxes of 100 eV tritons [O] . Causey, R., Wilson, K., Venhaus, T., 1998

机译：钨中的氚保留暴露于100 eV氚的强通量
8. Tritium retention in tungsten exposed to intense fluxes of 100 eV tritons [R] . Causey, R., Wilson, K., Venhaus, T., 1998

机译：钨中的氚保留暴露于100 eV氚的强通量

Retention of 100 eV Tritium in Tungsten at High Fluxes

摘要

著录项

相似文献

相关主题

期刊订阅