Deep filed nose in holographic particle image velocimetry (HPIV): numerical and experimental particle image field modelling

H. Hinrichs; K. D. Hinsch; J. Kickstein; M. Bohmer

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Deep filed nose in holographic particle image velocimetry (HPIV): numerical and experimental particle image field modelling

机译：全息粒子图像测速仪（HPIV）中的深鼻：数值和实验粒子图像场建模

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Holographic recording overcomes the limits in 2-D particle image velocimetry (PIV) to cover a 3-D flow field volume. Interrogation by focusing on single planes in a reconstructed particle field is disturbed by noise from out-of-focus particles. A numerical simulation models image reconstruction and shows how validation rates depend on aperture and volume depth. An experimental model environment of scattering particles in moveable plastic slices gives support to the numerical results. Simulations and tests are carried out for interrogation by autocorrelation and crosscorrelation techniques and furnish guidelines for system design.

机译：全息记录克服了2-D颗粒图像测速（PIV）的局限性，可以覆盖3-D流场体积。通过聚焦在重构粒子场中的单个平面上的审讯会受到散焦粒子的噪声的干扰。数值模拟对图像重建进行建模，并显示验证率如何取决于孔径和体积深度。在可移动塑料片中散射颗粒的实验模型环境为数值结果提供了支持。通过自相关和互相关技术对模拟进行了仿真和测试，并提供了系统设计指南。

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《Experiments in Fluids: Experimental Methods and Their Applications to Fluid Flow》 |1998年第4期|共7页
作者
H. Hinrichs; K. D. Hinsch; J. Kickstein; M. Bohmer;
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正文语种 eng
中图分类流体力学;
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1. Deep filed nose in holographic particle image velocimetry (HPIV): numerical and experimental particle image field modelling [J] . H. Hinrichs, K. D. Hinsch, J. Kickstein, Experiments in Fluids: Experimental Methods and Their Applications to Fluid Flow . 1998,第4期

机译：全息粒子图像测速仪（HPIV）中的深鼻：数值和实验粒子图像场建模
2. Numerical and experimental comparison of 3D Particle Tracking Velocimetry (PTV) and Particle Image Velocimetry (PIV) accuracy for indoor airflow study [J] . Fu Sijie, Biwole Pascal Henry, Mathis Christian Building and Environment . 2016,第may期

机译：用于室内气流研究的3D粒子跟踪测速（PTV）和粒子图像测速（PIV）精度的数值和实验比较
3. Digital holographic particle image velocimetry: eliminating a sign-ambiguity error and a bias error from the measured particle field displacement [J] . Thomas Ooms, Wouter Koek, Jerry Westerweel Measurement Science & Technology . 2008,第7期

机译：数字全息粒子图像测速：从测量的粒子场位移中消除符号歧义误差和偏差误差
4. Improvements of Holographic Particle Image Velocimetry (HPIV) by Light-in-Flight Holography [C] . M.Boehmer, H.Hinrichs, K.D.Hinsch, Developments in laser techniques and fluid mechanics . 1996

机译：飞行中全息术对全息粒子图像测速技术（HPIV）的改进
5. Development of holographic particle image velocimetry and its application in three-dimensional velocity measurement and modeling of high Reynolds number turbulent flows. [D] . Tao, Bo. 2001

机译：全息粒子图像测速技术的发展及其在三维速度测量和高雷诺数湍流建模中的应用。
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7. 1 TACKLING TURBULENCE WITH HOLOGRAPHIC PARTICLE IMAGE VELOCIMETRY (HPIV) [O] . Hui Meng 2014

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8. Explosively Driven Particle Fields Imaged Using a High-Speed Framing Camera and Particle Image Velocimetry [R] . Jenkins, C. M., Horie, Y., Ripley, R. C., 2011

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Deep filed nose in holographic particle image velocimetry (HPIV): numerical and experimental particle image field modelling

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