火药燃气作用下电离种子产生等离子体研究
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摘要
为研究电离种子在火药燃气作用下产生等离子体的规律,建立了密闭爆发器(定容)条件下电离种子产生等离子体的数学模型,设计了火药燃气作用下电离种子产生等离子体的试验系统。采用某型火炮发射药和不同种类的电离种子分别进行了试验,结果表明:电离种子在火药燃气作用下可以产生等离子体,加入钾盐和铯盐后电子密度分别为2.25×1018m-3和4.63×1018m-3,铯盐电离效果优于钾盐。通过试验数据和仿真结果比对,发现它们保持在同一数量级内。
In order to study the plasma generation of ionized seeds under the action of gunpowder gas, a mathematical model under the condition of closed bomb(constant volume) was established, and a plasma test system was designed. Experiments were carried out with a certain type of artillery propellant and different kinds of ionized seeds. The results show that the ionized seeds can generate plasma under the action of gunpowder gas,and the electron densities are 2.25×1018 m-3 and 4.63×1018 m-3 after adding potassium salt and barium salt,respectively. The strontium salt ionization effect is better than the potassium salt. Under the test conditions, the simulation results are roughly in agreement with the test data.
In order to study the plasma generation of ionized seeds under the action of gunpowder gas, a mathematical model under the condition of closed bomb(constant volume) was established, and a plasma test system was designed. Experiments were carried out with a certain type of artillery propellant and different kinds of ionized seeds. The results show that the ionized seeds can generate plasma under the action of gunpowder gas,and the electron densities are 2.25×1018 m-3 and 4.63×1018 m-3 after adding potassium salt and barium salt,respectively. The strontium salt ionization effect is better than the potassium salt. Under the test conditions, the simulation results are roughly in agreement with the test data.
引文
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[5]周霖,廖英强,徐更光.爆轰产物导电性的实验测量[J].含能材料,2005,13(3):148-149,154-133.
[6]李益文,张百灵,高岭,等.磁流体发电高温燃气的产生与控制研究[J].推进技术,2017,28(6):1419-1426.
[7]谢中元,周霖.燃烧型脉冲磁流体发电机实验研究[J].北京理工大学学报,2011,31(2):182-186.
[8]袁忠才,时家明,汪家春.大气中固体燃烧等离子体与微波相互作用的实验研究[J].强激光与粒子束,2005,17(5):707-710.
[9]李贞晓,金涌,田慧,等.电热化学发射中的过电压现象与机理研究[J].电工技术学报,2018,33(5):1177-1184.
[10]倪琰杰,程年恺,金涌,等.30mm电热化学炮膛内压力波数值模拟研究[J].兵工学报,2016,37(9):1578-1584.
[11]Winfrey A L,Al-Halim M A A,Mittal S,et al.Study of high-enthalpy electrothermal energetic plasma source concept[J].IEEE Transactions on Plasma Science,2015,43(7):2195-2200.
[12]Peratt A L.Advances in numerical modeling of astrophysical and space plasmas[J].Astrophysics&Space Science,1996,242(1-2):93-163.
[13]刘晓东,郑晓泉,张要强,等.低温等离子体的诊断方法[J].绝缘材料,2006,(2):43-46.
[14]陶潇杭,苏宝根,张治国,等.热等离子体温度诊断方法研究进展[J].高校化学工程学报,2017,31(5):1001-1008.
[15]吴蓉,李燕,朱顺官,等.等离子体电子温度的发射光谱法诊断[J].光谱学与光谱分析,2008,28(4):731-735.
[16]金志明.枪炮内弹道学[M].北京:北京理工大学出版社,2004.
[17]郭宇翔,李晓霞.硝酸铯热分解性能研究[J].火工品,2007,(1):24-27.
[18]Fricker M B,Günther D.Instrumentation,fundamentals,and application of laser ablation-inductively coupled plasma-mass spectrometry[M].Springer Berlin Heidelberg,2016.
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