实验流体力学
實驗流體力學
실험류체역학
JOURNAL OF EXPERIMENTS IN FLUID MECHANICS
2010年
1期
26-29,54
,共5页
田立丰%易仕和%赵玉新%何霖%程忠宇
田立豐%易仕和%趙玉新%何霖%程忠宇
전립봉%역사화%조옥신%하림%정충우
超声速%PIV%跟随性%光学性能%光学头罩
超聲速%PIV%跟隨性%光學性能%光學頭罩
초성속%PIV%근수성%광학성능%광학두조
supersonic%PIV%flow-following ability%optical performance%optical bow cap
在马赫数Ma=3. 8超声速风洞中.采用PIV(Particle Image Velocimetry,粒子图像测速)技术测量了超声速光学头罩流场的速度分布.PIV技术应用于超声速流场时,对系统的硬件配备、示踪粒子的跟随性以及PIV算法的精度有很高的要求.本文PIV系统选用高精度的同步控制器和高能量激光器;以纳米级粒径的粒子作为示踪粒子,通过斜激波响应实验分析了其在超声速流场中的跟随性;并采用多种高精度速度场算法对粒子图像进行处理.实验结果表明,示踪粒子在超声速流场中有很好的跟随性,采用的高精度速度场算法能够很好地反映超声速光学头罩流场的速度分布.
在馬赫數Ma=3. 8超聲速風洞中.採用PIV(Particle Image Velocimetry,粒子圖像測速)技術測量瞭超聲速光學頭罩流場的速度分佈.PIV技術應用于超聲速流場時,對繫統的硬件配備、示蹤粒子的跟隨性以及PIV算法的精度有很高的要求.本文PIV繫統選用高精度的同步控製器和高能量激光器;以納米級粒徑的粒子作為示蹤粒子,通過斜激波響應實驗分析瞭其在超聲速流場中的跟隨性;併採用多種高精度速度場算法對粒子圖像進行處理.實驗結果錶明,示蹤粒子在超聲速流場中有很好的跟隨性,採用的高精度速度場算法能夠很好地反映超聲速光學頭罩流場的速度分佈.
재마혁수Ma=3. 8초성속풍동중.채용PIV(Particle Image Velocimetry,입자도상측속)기술측량료초성속광학두조류장적속도분포.PIV기술응용우초성속류장시,대계통적경건배비、시종입자적근수성이급PIV산법적정도유흔고적요구.본문PIV계통선용고정도적동보공제기화고능량격광기;이납미급립경적입자작위시종입자,통과사격파향응실험분석료기재초성속류장중적근수성;병채용다충고정도속도장산법대입자도상진행처리.실험결과표명,시종입자재초성속류장중유흔호적근수성,채용적고정도속도장산법능구흔호지반영초성속광학두조류장적속도분포.
Velocity field of supersonic optical bow cap was studied using PIV (Particle Image Velocimetry) in Ma =3.8 supersonic wind tunnel. The application of PIV to supersonic flow de-mands good performance of PIV hardware, fine flow-following ability of tracer particle and high accuracy of PIV algorithms.Synchronizer with high accuracy and high energy laser were chosen for the PIV system in this paper; tracer particle with diameter at nanometer scale was selected and its performance in supersonic flow was assessed through measurements of particle lag down-stream of a two-dimensional oblique shock wave; several high-accuracy PIV algorithms were used for particle image processing.The results revealed that the tracer particle performed very well in supersonic flow, and the algorithms yielded the velocity field of the supersonic optical bow cap faithfully.
