Numerical Simulation of Gap Length Influence on Energy Deposition in Spark Discharge

K. Korytchenko, O. Shypul, D. Samoilenko, I. Varshamova, А.A. Lisniak, S. Harbuz, K. Ostapov
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引用次数: 1

Abstract

The aim of the work is to study the influence of the length of the spark gap on energy input into the discharge channel during its gas-dynamic expansion. Methodology. The research is carried out by numerical modeling of the process of spark discharge development at variable values of the discharge gap length and at invariable other discharge conditions. The length of the gap was set in the range from 1 mm to 20 mm. The study was conducted using a numerical model of spark development, which takes into account the processes of nonstationary gas-dynamic expansion of the spark channel, the transient process in the electric circuit, nonequilibrium chemical processes, gas ionization, heat transfer and electrons thermal conductivity. The simulation was performed in atmospheric pressure nitrogen. The calculation was performed for various parameters of the RLC circuit, such as capacitance, inductance, resistance and voltage across the capacitor. Results. The study evaluates the influence of the spark length on the discharge current, the resistance of the spark channel, the energy deposited in the spark channel, and the distribution of thermodynamic parameters of the gas during the development of the spark discharge. It is confirmed that increasing the length of the gap increases the resistance of the spark. The deviation from the linear relationship between the deposited energy or the radiated energy and the length of the spark gap is estimated. Scientific novelty. A linear relationship between the gap length and the deposited energy is revealed when the total energy is above tens of Joules. Deviations from the linear dependence were detected in the discharge circuit when the total energy is below one of Joules. Practical value. The research results allow predicting the effect of the spark gap length on the energy input into the discharge channel under conditions of a slight change in the discharge current. In the conditions of essential change of amplitude of discharge current it is expedient to apply numerical researches for specification of changes in the energy deposited into a spark discharge.
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火花放电中间隙长度对能量沉积影响的数值模拟
本文的目的是研究火花间隙长度对放电通道气体动力膨胀过程中输入能量的影响。方法。对不同放电间隙长度和其他放电条件下的火花放电发展过程进行了数值模拟研究。间隙的长度设置在1mm到20mm之间。采用火花发展的数值模型进行了研究,该模型考虑了火花通道的非稳态气体-动态膨胀过程、电路中的瞬态过程、非平衡化学过程、气体电离、传热和电子导热等过程。模拟是在常压氮气条件下进行的。计算了RLC电路的各种参数,如电容、电感、电阻和电容两端的电压。结果。研究了火花长度对放电电流、火花通道电阻、火花通道中沉积的能量以及火花放电发展过程中气体热力学参数分布的影响。经证实,增加间隙的长度会增加火花的电阻。估计了沉积能量或辐射能量与火花间隙长度之间的线性关系的偏差。科学的新奇。当总能量大于几十焦耳时,间隙长度与沉积能量呈线性关系。当总能量低于1焦耳时,在放电电路中检测到偏离线性依赖关系。实用价值。研究结果可以预测在放电电流略有变化的情况下,火花间隙长度对输入放电通道能量的影响。在放电电流幅值发生本质变化的情况下,用数值方法研究火花放电能量的变化是比较方便的。
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