Load optimal design for a primary test stand facility based on a zero-dimensional load model

doi:10.1088/1674-1056/20/10/105201

摘要/Abstract

摘要： In order to couple the numerical simulation of a primary test stand driver with an optimal load design, a zero-dimensional wire array load model is designed based on the Saturn load model using PSPICE, which is an upgraded version of the Simulation Program with Integrated Circuit Emphasis (SPICE) designed by the ORCAD Corporation to perform circuit simulations. This paper calculates different load parameters and discusses factors influencing the driving current curve. With appropriate driving current curves chosen, further magneto-hydrodynamic calculations are carried out and discussed to provide the best results for experiments. The suggested optimal load parameters play an important role in experimental load design.

Abstract: In order to couple the numerical simulation of a primary test stand driver with an optimal load design, a zero-dimensional wire array load model is designed based on the Saturn load model using PSPICE, which is an upgraded version of the Simulation Program with Integrated Circuit Emphasis (SPICE) designed by the ORCAD Corporation to perform circuit simulations. This paper calculates different load parameters and discusses factors influencing the driving current curve. With appropriate driving current curves chosen, further magneto-hydrodynamic calculations are carried out and discussed to provide the best results for experiments. The suggested optimal load parameters play an important role in experimental load design.

Key words: Z pinch simulation, wire array load optimal design, load model

中图分类号: (Plasma simulation)

52.65.-y

52.65.Kj (Magnetohydrodynamic and fluid equation)

赵海龙, 邓建军, 王刚华, 邹文康. Load optimal design for a primary test stand facility based on a zero-dimensional load model[J]. 中国物理B, 2011, 20(10): 105201-105201.

Zhao Hai-Long(赵海龙)$†$, Deng Jian-Jun(邓建军),Wang Gang-Hua(王刚华), and Zou Wen-Kang(邹文康) . Load optimal design for a primary test stand facility based on a zero-dimensional load model[J]. Chin. Phys. B, 2011, 20(10): 105201-105201.

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