非平衡等离子体流场相干反斯托克斯拉曼散射光谱计算及振转温度测量  

作　　者：杨文斌 张华磊 齐新华[1] 车庆丰[1] 周江宁 白冰 陈爽 母金河[1] Yang Wen-Bin;Zhang Hua-Lei;Qi Xin-Hua;Che Qing-Feng;Zhou Jiang-Ning;Bai Bing;Chen Shuang;Mu Jin-He(Facility Design and Instrumentation Institute,China Aerodynamic Research and Development Center,Mianyang 621000,China;Aviation University of Air Force,Changchun 130012,China;College of Physics and Optoelectronic Engineering,Harbin Engineering University,Harbin 150001,China)

机构地区：[1]中国空气动力研究与发展中心设备设计与测试技术研究所,绵阳621000 [2]空军航空大学,长春130012 [3]哈尔滨工程大学物理与光电学院,哈尔滨150001

出　　处：《物理学报》2024年第15期80-89,共10页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:12202478)资助的课题.

摘　　要：高温非平衡问题是高超声速流动中最基本的科学问题之一,而热力学非平衡特性的准确表征是理解高温非平衡问题和高超声速空气动力学的基础,如何准确可靠地表征流场的热力学非平衡特性是解决高超声速飞行器在稀薄流域高温非平衡问题的关键.本文基于相干反斯托克斯拉曼散射基本原理,开发了面向非平衡流场的振转温度反演算法,并在宽温度范围静态环境开展验证.搭建了非平衡等离子体流场相干反斯托克斯拉曼散射测温实验平台并开展实验验证,结果表明微波等离子体处于热力学非平衡状态,并且振动温度和转动温度与微波功率成正比,而热力学非平衡度与微波功率成反比,当微波功率从80W增加至180 W时,等离子体电子数密度增加,中性粒子通过与电子碰撞获得能量使振动温度从(2201±43)K增加至(2452±56)K、转动温度从(382±20)K增加至(535±49)K;而处于振动激发态的分子通过振动-平动弛豫过程(对于N2分子弛豫速率与温度成正比)将部分振动能转化为平动能,导致振动温度与转动温度的差异降低,等离子体热力学非平衡度从0.83降低至0.78.How to characterize thermodynamic non-equilibrium characteristics of flow field accurately and reliably is the key to solving the thermal and chemical non-equilibrium problem,which is one of the most basic scientific problems in hypersonic aerodynamcis.Based on the principles of coherent anti-Stokes Raman scattering(CARS)and modified exponential gap(MEG)Raman linewidth model,a CARS spectral computation and vibrotational temperature inversion program is proposed for characterizing the thermodynamic non-equilibrium properties of high-temperature gas flow field.The influence of vibrational temperature and rotational temperature on Raman linewidth and CARS spectral characteristics are studied theoretically.A CARS system is built and the corresponding accuracy in a wide temperature range is verified in a static environment that is established by using a high-temperature tube furnace and a McKenna burner.The results show that the average relative deviation of the vibration temperature Tv and rotational temperature Tr from the equilibrium temperature Teq are 4.28%and 3.34%respectively in a range of 1000 to 2300 K,and the corresponding average repeatability is 1.95%and 3.03%respectively.These results indicate that the vibrational temperature and rotational temperature obtained by the non-equilibrium program are in good agreement with those obtained from the thermal equilibrium program.Finally,a non-equilibrium microwave plasma flow is built and its vibrational temperature and rotational temperature are obtained by using the developed program.The results show that the microwave plasma is in thermodynamic non-equilibrium,and the vibrational temperature and rotational temperature are proportional to microwave power,while the thermodynamic non-equilibrium degree exhibits an opposite trend.With microwave power increasing from 80 to 180 W,the vibrational temperature of plasma increases from(2201±43)K to(2452±56)K,the rotational temperature increases from(382±20)K to(535±49)K,for which the principal reasons are that the inc

关 键 词：热力学非平衡 振动温度 转动温度 相干反斯托克斯拉曼散射 

分 类 号：V211[航空宇航科学与技术—航空宇航推进理论与工程] V411