Gas dynamic problems caused by the generation of the radicals in a supersonic jet

Liu Sm-Lin; Zhang Li-Min; Chen Cong-Xiang; Ma Xing-Xiao; Zhu Nian-Lin

doi:10.1088/1004-423X/4/11/005

Gas dynamic problems caused by the generation of the radicals in a supersonic jet

Liu Sm-Lin
, Zhang Li-Min
, Chen Cong-Xiang
, Ma Xing-Xiao
, Zhu Nian-Lin

Research output: Contribution to journal › Article › peer-review

Abstract

A simplified one-dimensional model was proposed to treat the gas dynamic problems in a supersonic jet, which was used to produce radicals cooled by supersonic expansion. Based on this model, the gas dynamic equations can be integrated directly to obtain the evolution of the translational temperature and the rotationeil temperature of free radicals eis well as the molecule density. The results show that the heating position where the reidicals are generated and the initial rotational temperature of radicals have little effect on the rotational temperature at the down stream detection point, if the heating position is close to the nozzle orifice.

Original language	English
Pages (from-to)	825-833
Number of pages	9
Journal	Acta Physica Sinica (overseas Edition)
Volume	4
Issue number	11
DOIs	https://doi.org/10.1088/1004-423X/4/11/005
State	Published - Nov 1995
Externally published	Yes

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title = "Gas dynamic problems caused by the generation of the radicals in a supersonic jet",

abstract = "A simplified one-dimensional model was proposed to treat the gas dynamic problems in a supersonic jet, which was used to produce radicals cooled by supersonic expansion. Based on this model, the gas dynamic equations can be integrated directly to obtain the evolution of the translational temperature and the rotationeil temperature of free radicals eis well as the molecule density. The results show that the heating position where the reidicals are generated and the initial rotational temperature of radicals have little effect on the rotational temperature at the down stream detection point, if the heating position is close to the nozzle orifice.",

author = "Liu Sm-Lin and Zhang Li-Min and Chen Cong-Xiang and Ma Xing-Xiao and Zhu Nian-Lin",

year = "1995",

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AU - Sm-Lin, Liu

AU - Li-Min, Zhang

AU - Cong-Xiang, Chen

AU - Xing-Xiao, Ma

AU - Nian-Lin, Zhu

PY - 1995/11

Y1 - 1995/11

N2 - A simplified one-dimensional model was proposed to treat the gas dynamic problems in a supersonic jet, which was used to produce radicals cooled by supersonic expansion. Based on this model, the gas dynamic equations can be integrated directly to obtain the evolution of the translational temperature and the rotationeil temperature of free radicals eis well as the molecule density. The results show that the heating position where the reidicals are generated and the initial rotational temperature of radicals have little effect on the rotational temperature at the down stream detection point, if the heating position is close to the nozzle orifice.

AB - A simplified one-dimensional model was proposed to treat the gas dynamic problems in a supersonic jet, which was used to produce radicals cooled by supersonic expansion. Based on this model, the gas dynamic equations can be integrated directly to obtain the evolution of the translational temperature and the rotationeil temperature of free radicals eis well as the molecule density. The results show that the heating position where the reidicals are generated and the initial rotational temperature of radicals have little effect on the rotational temperature at the down stream detection point, if the heating position is close to the nozzle orifice.

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Gas dynamic problems caused by the generation of the radicals in a supersonic jet

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