D-T充气PF1000装置随压力变化的数值实验

IF 1.3 Q3 ORTHOPEDICS Plasma Research Express Pub Date : 2020-10-30 DOI:10.1088/2516-1067/abc097

G. S. Rakib, M. A. Malek, K. Kabir, M. K. Islam

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引用次数: 0

摘要

利用Lee模型程序进行了数值研究，计算了PF1000等离子体聚焦装置中子产率Yn随操作气体压力P的函数。所得结果与已有实验数据进行了比较。在数值研究中，将工作气体氘(D)替换为氘-氚(D- t)(1:1)混合气体，然后将Yn与p函数结合，研究了轴向速度va、径向激波前速度vs、活塞速度vp和最大夹紧温度Tpinch(max)等相关等离子体动力学特性，并建立了这些参数与压力变化的相关性。相关的等离子体聚焦特性，如峰值放电电流Ipeak、夹尖电流Ipinch、离子密度ni和输入到夹尖EINP的能量作为压力的函数进行了讨论，从而提供了Yn与工作气体压力范围内其他相关等离子体聚焦特性的相关性。比较了D- t混合气体与D气体的中子产率性能，确定了中子产率最高的最佳气体压力。

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Numerical experiments on D-T gas filled PF1000 device with pressure variation

Numerical studies have been conducted using the Lee model code to compute the neutron yield Yn of the PF1000 plasma focus device as a function of operating gas pressure ( P ). The result is compared with the available experimental data. The operating gas Deuterium (D) is substituted with Deuterium-Tritium (D-T) (1:1) gas mixture in the numerical studies and then the Yn is investigated with the function of P. Associated plasma dynamic properties such as axial velocity va, radial shock front speed vs, piston speed vp, and maximum pinch temperature Tpinch(max) are studied and correlations of the parameters with the pressure variation are established. Relevant plasma focus properties such as peak discharge current Ipeak, pinch current Ipinch, ion density ni, and energy input into the pinch EINP are discussed as functions of pressure thus provide correlation of Yn with other relevant plasma focus properties over the operating gas pressure range. The neutron yield performance of the D-T gas mixture is compared to that of the D gas and the optimum gas pressure for the highest neutron yield is identified.

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来源期刊

Plasma Research Express Energy-Nuclear Energy and Engineering

CiteScore

2.60

自引率

0.00%

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