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射流式水冷镜换热性能及在高能化学激光器中的应用
引用本文:李斌, 李兰, 焦路光, 等. 射流式水冷镜换热性能及在高能化学激光器中的应用[J]. 强激光与粒子束, 2012, 24(01): 51-55.
作者姓名:李斌  李兰  焦路光  刘亮  周琼  袁圣付  刘文广
作者单位:1.国防科学技术大学 光电科学与工程学院, 长沙 41 0073;;;2.中国人民解放军装备学院, 北京 1 01 41 6;;;3.海军航空工程学院 控制工程系, 山东 烟台 264001
摘    要:加工了射流式水冷铜镜模型,采用红外热像仪测量了冷却过程中镜面温度分布云图,证明了射流式水冷镜冷却的均匀性。采用热电偶较精确地测量了铜镜冷却过程中镜面温度的变化,实验结果与数值模拟吻合较好,验证了射流式水冷镜数值模型的可靠性。结合高能化学激光器中水冷镜实际情况,对直线沟槽型水冷镜和射流式水冷镜的形变特性进行了分析。计算结果表明,高能化学激光器水冷镜必须承压加工才能使用,射流式水冷镜可以很好地应用于高能化学激光器。此外,进一步分析了冷却孔直径和数量这两个参数对大口径射流式水冷镜形变的影响,结果表明:在孔数一定的情况下,采用更大口径的冷却孔,镜面冷却速度快、镜面最大温度低,可以获得更小的镜面形变;采用更多的冷却孔可以获得更好的冷却效果。

关 键 词:激光器   射流式水冷铜镜   换热性能   高能化学激光器   数值模拟

Heat transfer performance of water jet cooled mirror and its application in high power chemical lasers
Li Bin, Li Lan, Jiao Luguang, et al. Heat transfer performance of water jet cooled mirror and its application in high power chemical lasers[J]. High Power Laser and Particle Beams, 2012, 24: 51-55.
Authors:Li Bin  Li Lan  Jiao Luguang  Liu Liang  Zhou Qiong  Yuan Shengfu  Liu Wenguang
Affiliation:1. College of Opto-electric Science and Engineering,National University of Defense Technology,Changsha 410073,China;;;2. Academy of Equipment of PLA,Beijing 101416,China;;;3. Department of Control Engineering,Naval Aeronautical and Astronautical University,Yantai 264001,China
Abstract:The test model of water jet cooled copper mirror was made and temperature measurement of the mirror was carried out. The temperature uniformity of the water jet cooled copper mirror was proved by the measurements of infrared camera and experimental results of thermocouples agree well with the results of numerical simulation, which verified the reliability of the numerical model. The deformation characteristics of the water jet cooled mirror and the linear-channel water cooled mirror were analyzed in the scenario of high power chemical lasers. The results show that the water jet cooled mirror can be well used in high power chemical lasers and the mirror must be processed under certain pressure. In addition,the diameter and number of cooling holes were further analyzed to explore their effects on the deformation of water jet cooled mirror in high power chemical lasers. More holes with larger diameter lead to better cooling effects.
Keywords:lasers  water jet cooled copper mirror  heat transfer performance  high power chemical lasers  numerical simulation
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