红外与激光工程, 2019, 48 (7): 0706006, 网络出版: 2019-08-07   

流动分离与涡结构显示的激光诱导荧光水洞实验技术

Flow visualization technique of laser induced fluorescence in water tunnel for flow separation and vortex structure
作者单位
西北工业大学 航空学院, 陕西 西安 710072
摘要
开展激光诱导荧光水洞实验技术研究的目的是为流动分离与涡结构显示提供实用、直观、有效的观测手段。本项工作在 1 m×1 m水洞配置的连续片光设备基础上, 针对 532 nm 波长激光光源特性, 依据光学参数匹配原则选择了罗丹明 B 作为染色剂与荧光剂, 围绕染色剂与荧光剂的配置方法, 连续激光器的激光强度、试验段流速、染色线出孔压力之间的匹配关系, 照相、摄像视场与流动结构对比度匹配关系等问题, 建立了激光诱导荧光实验系统, 对圆柱绕流及尾流结构、运输机全机模型的机翼绕流与尾流结构、运输机尾舱门周围流场旋涡结构开展了实验研究。典型的流动分离与涡结构显示结果表明: 激光诱导荧光技术具备从边界层结构到空间分离以及尾流特性等全覆盖的流场结构显示能力, 值得推广应用。
Abstract
The purpose of the study on experiment technology of laser induced fluorescence in water tunnel is to provide a practical, intuitive, and effective method for flow visualization on separation and vortex structure. Rhodamine B was selected as the stain and fluorescence agent which matched the optical parameter and the characteristics of green laser sheet with 532 nm wavelength in 1 m×1 m water tunnel. The study focused on the key technical problems such as the constitution and preparation method of stain and fluorescent agent, the selection of the optimum intensity of continuous laser, the matching relationship between flow velocity and the pore pressure of dyeing line and the matching relationship between camera field of view and the flow structure in the contrast of fine adjustment. The experiments were carried out to investigate the flow field around a cylinder, the wing of a transport plane model and the cargo door of a transport plane model together with the wake by means of the dedicated laser induced fluorescence experiment technology. The typical experiment results verify that the dedicated laser induced fluorescence technique is suitable for flow visualization on flow separation and vortex structure including boundary layer, spatial separation and wake field which is a promising method worthy of popularization and application.

耿子海, 蔡晋生, 姜裕标. 流动分离与涡结构显示的激光诱导荧光水洞实验技术[J]. 红外与激光工程, 2019, 48(7): 0706006. Geng Zihai, Cai Jinsheng, Jiang Yubiao. Flow visualization technique of laser induced fluorescence in water tunnel for flow separation and vortex structure[J]. Infrared and Laser Engineering, 2019, 48(7): 0706006.

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