Model computations of ionization relaxation in rare gas shock waves accounting for impurities
作者:
D. Klages,
F. Demmig,
期刊:
AIP Conference Proceedings
(AIP Available online 1990)
卷期:
Volume 208,
issue 1
页码: 402-407
ISSN:0094-243X
年代: 1990
DOI:10.1063/1.39431
出版商: AIP
数据来源: AIP
摘要:
Chemical reactions in shock waves can be strongly affected by minute impurity concentrations. Thus it is not adequate to take into account the additional impurity electron production in relaxation studies simply by global adjustment of the atom‐atom excitation cross section constant to the measured electron density.A definite improvement, however, can only be achieved if the ionization relaxation model is extended to comprise all relevant impurity atom reactions. Consequently we treated the real test gas as a mixture of Krypton and impurity Carbon atoms. A comprison with experimental electron density profiles yielded 3.0*10−6m2/J for the Kr‐Kr excitation cross section constant as well as values for the C‐Kr constants.For a temperature of about 8000 K and an impurity concentration of about 40 ppm it is shown that the impurity reactions dominate the electron production in the initial relaxation zone. This effect causes a pronounced decreasing of the relaxation time with increasing concentration.By comparing computational results of the Kr‐C model with those of the simplistic pure Kr model it is possible to explain the dependence of the Kr‐Kr excitation cross section constant on the impurity concentration and the plasma temperature.
点击下载:
PDF
(307KB)
返 回