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高速流动中PIV示踪粒子松弛特性研究 被引量:6

Research on the relaxation characteristics of PIV tracer particles in supersonic flow
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摘要 示踪粒子的随流能力是PIV技术在高速流动中应用的关键点之一。在上海交通大学变马赫数高速风洞中开展了PIV实验研究,重点提出一种评价示踪粒子随流能力的松弛特性分析模型。在马赫数4条件下尖锥、尖劈等模型PIV实验研究中,可以准确分析粒子的松弛特性,粒径分析结果与实验吻合较好,并验证了高速流动PIV的测试精度和示踪粒子布撒能力。 The tracking capability of tracer particles is one of the key points to the applications of PIV technique in supersonic flow. In this paper, the experiment research of PIV technique was developed in Multi-Mach number High-speed Wind Tunnel of SJTU, and an analytical model of relaxation characteristics was specially proposed, which used to evaluate the tracking capability of tracer particles. In the supersonic flow of Ma4, the results of the PIV experiments on typical models, including a sharp cone and two wedges with different semiapex angles, agree well with the analytical results of the particle diameters, and demonstrate the measurement accuracy and the seeding efficiency of PIV in the supersonic flow. It indicates that the proposed model is prac- tically credible to analyze the relaxation characteristics of tracer particles.
作者 张亚 陈方 刘洪 王新元
机构地区 上海交通大学航空航天学院
出处 《实验流体力学》 CAS CSCD 北大核心 2013年第6期70-75,共6页 Journal of Experiments in Fluid Mechanics
基金 国家自然基金(基金号A020403-11102111)
关键词 高速流动 PIV 示踪粒子 随流能力 松弛特性 supersonic flow PIV tracer particles tracking capability~ relaxation characteristics
分类号 V211.7 [航空宇航科学与技术—航空宇航推进理论与工程]
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  • 1Bergmann V, Meier W, Wolff D, et al. Application of spontaneous raman and rayleigh scattering and 2D LIF for the characterization of a turbulent CH4/H2/N2 jet diffusion flame. App1 Phys B, 1998, 66(4): 489--502.
  • 2Forkey J N, Lempert W R, Miles R B. Accuracy limits for planar measurement of flow field velocity, temperature and pressure using filtered rayleigh scattering. Exp Fluids, 1998, 24(2): 151 -- 162.
  • 3Boguszko M, Elliott G S. On the use of filtered rayleigh scattering for measurements in compressible flows and thermal fields. Exp Fluids, 2005, 38(1): 33--49.
  • 4Watsona K A, Lyons K M, Donbarb J M, et al. Simultaneous rayleigh imaging and CH-PLIF measurements in a lifted jet diffusion flame. Combust Flame, 2000, 123(2): 252--265.
  • 5Stanislas M, Okamoto K, Kahler C J, et al. Main results of the second international PIV challenge. Exp Fluids, 2005, 39(2): 170--191.
  • 6Stier B, Koochesfahani M M. Molecular tagging velocimetry (MTV) measurements in gas phase flows. Exp Fluids, 1999, 26(3): 297--304.
  • 7Herring G C, Hillard M E. Flow visualization by elastic light scattering in the boundary layer of a supersonic flow. NASA/TM-2000-210121, 2000.
  • 8Elliott G S, Glurnac N, Carter C D. Molecular rayleigh scattering applied to combustion and turbulence. AIAA Paper 99-0643, 1999.
  • 9Haertig J, Havermann M, Rey C, et al. Particleimagevelocimetryinmach 3.5and 4.5 shock-tunnel flows. AIAAJ, 2002,40(6):1056-- 1060.
  • 10Khalitov D A, Longmire E K. Simultaneous two phase PIV by two-parameter phase discrimination. Exp Fluids, 2002, 32(2): 252--268.

共引文献24

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二级引证文献32

实验流体力学
2013年 第6期

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