基于PIV技术的明渠非恒定流试验系统

doi:10.3969/j.issn.1674-0696.2009.02.34

重庆交通大学学报（自然科学版） ›› 2009, Vol. 28 ›› Issue (2): 306-309.DOI: 10.3969/j.issn.1674-0696.2009.02.34

基于PIV技术的明渠非恒定流试验系统

胡江,杨胜发,王涛

重庆交通大学河海学院,重庆400074

收稿日期:2008-11-11 修回日期:2008-11-25 出版日期:2009-04-15 发布日期:2015-04-15
作者简介:胡江(1977—),男,四川绵阳人,博士,主要从事水力学及河流动力学的研究及教学工作。
基金资助:
??十一五国家科技支撑计划项目(2006BAB05B01)

Experimental System for Unsteady Flows of Open-Channel Based on PIV Technology

HU Jiang, YANG Sheng-fa, WANG Tao

School of River ＆ Ocean Engineering, Chongqing Jiaotong University, Chongqing 400074, China

Received:2008-11-11 Revised:2008-11-25 Online:2009-04-15 Published:2015-04-15

摘要/Abstract

摘要： 建立了一套高精度的明渠非恒定流试验系统,通过计算机及变频器控制水泵转速产生非恒定流过程,由电磁流量计、超声水位计实时监测流量和水位变化过程,并通过PIV流场仪进行流场测量。该系统不但能生成连续、稳定的周期性非恒定流过程,很大程度改进了明渠非恒定流的试验手段。

关键词: 明渠非恒定流, 粒子成像速度场, 试验系统

Abstract: One experimental system with high accuracy is established for unsteady flows of open-channel, which can generate continuously unsteady flows through the rotation speed of water pump controlled by computer and transducer. The discharge and the change of water level are monitored in real time by electromagnetic flow meter and ultrasonic water level recorder; and the flow field measurement are carried out by particle imagine velocity （PIV）. It is showed that the experiment system can not only generate unstable flows continuously and stably, but also promote the experimental measures of unsteady flows of open-channel.

Key words: unsteady flows of open channel , PIV（ Particle Imagine Velocity） , experimental system ;

中图分类号:

TV133.2

胡江,杨胜发,王涛. 基于PIV技术的明渠非恒定流试验系统[J]. 重庆交通大学学报（自然科学版）, 2009, 28(2): 306-309.

HU Jiang, YANG Sheng-fa, WANG Tao. Experimental System for Unsteady Flows of Open-Channel Based on PIV Technology[J]. Journal of Chongqing Jiaotong University(Natural Science), 2009, 28(2): 306-309.

参考文献

[1] 李春华,李永祥.明槽非恒定流流量控制及量测试验技术[J].水利水电技术,1995,26( 2):54-58.
[2] 蔡守允,雷学锋,魏延文.河工模型试验测量与控制系统[J].水利水运科学研究,1999( 4):402-407.
[3] 虞邦义,俞国青,马浩,等.非恒定流水力模型流量检测控制系统及其特性分析[J].河海大学学报( 自然科学版),2003,31( 1):33-37.
[4] 吴建纲.非恒定流精确复演方法研究[J].水利水电技术,2004,35( 6) :37-45.
[5] Kundzewicz Z W,Dooge J C I.Attenuation and phase shift in linear flood routing [J].Hydro logical Sciences Journal, 1989,34( 1-2):21-40.
[6] Tu H.Velocity Distribution in Unsteady Flowover Gravel Beds.[PhD Thesis],Lausanne,Sw itzerland:EPFL, 1991.
[7] Song T,Lemmin U,GrafW H.Uniform Flow in open channels with movable gravel bed[J].J.of Hydraulic Research,1994,32( 6):861-876.
[8] Perumal M,Shrestha B K,Chaube U C.Reproduction of hysteresis in rating curves[J].J.of Hydr.Eng in.ASCE, 2004,130( 9):870-878.
[9] Song T,Graf W H.Velocity and turbulence distribution in unsteady openchannel flow s [J].J.of H ydr.Eng in. ASCE,1996,122( 3):141-154.
[10] Nezu I,K adota A,Nakagaw aH.Turbulent structure in unsteady depthvarying openchannel flows [J].J.of H ydr.Eng in.ASCE,1997,123( 9) :752-763.
[11] Nezu I,N akagawa H.Turbulence measurements in unsteady freesurface flow s[J].Flow Measurement and Instrum entation,1995,6( 1):49-59.
[12] Qu Z.Unsteady Openchannel Flow over a Mobile Bed [PhD Thes is] [D].Lausanne,Switze rland:EPFL, 2003.
[13] 刘春晶.明渠非恒定流运动规律及推移质输沙特性的试验研究(博士学位论文) [D].北京:清华大学, 2004.
[14] Jensen B L,Sumer BM,Fredsoe J.Turbulent oscillatory boundary layers at high Reynolds numbers [J]. Journal of Fluids Mechanics,1989( 206):265297.
[15] Akhavan R,Kamm R D,ShapiroA H.An invesfigation of transition to turbulence in bounded oscillatory Stokes flows( Pa rt 1.Experiments) [J].Journal of Fluids Mechanics,1991(225):395422.
[16] Brereton G J,M ankbadi R R.Revies of recent advances in study of unsteady turbulent internal flow s [J].Applied Mechanics Review,1995,48( 4) :189212.
[17] Nagano Y,TagawaM,TsujiT.Effects of adverse pressure gradients on mean flows and turbulence statistics in a boundary layer[C] # Turbulent shear flows 8.New York:Springer Verlay,1993:721.
[18] Spalart P R,Leonard A.Direct numerical simulation of equilibrium turbulent boundary layers [C] # Turbulent shear flows 5.New York:Springer Verlag,1987:234 252.
[19] Spalart P R,Watmuff J H.Experimental and numerical study of a turbulent boundary layers with pressure gradients[J].Journal Fluid Mech,1993( 249):337373.
[20] Nezu I,Nakagawa H.Turbulence in OpenChannel Flows [M].Rooterdam,Nether lands:A.A.Balkema,1993.
[21] Nezu I,Kadota A,Nakagawa H.Exper imental study on the turbulent structure in unsteady openchannel flows [C] In Proc.,Sym p.Fundamentals and Advancements in Hydr.Measurements and Experimentation. New York:ASCE,1994:185193.
[22] Row inski P M,C zernus zenko W,Pretre JM.Timede pendent shear velocities in channel routing [J].H ydrological Sciences Journa,l 2000,45( 6):881895.

基于PIV技术的明渠非恒定流试验系统

Experimental System for Unsteady Flows of Open-Channel Based on PIV Technology

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