实验流体力学
實驗流體力學
실험류체역학
JOURNAL OF EXPERIMENTS IN FLUID MECHANICS
2011年
4期
9-14
,共6页
王勋年%王万波%黄勇%张鑫%黄宗波
王勛年%王萬波%黃勇%張鑫%黃宗波
왕훈년%왕만파%황용%장흠%황종파
等离子体%流动控制%激励器%流动分离
等離子體%流動控製%激勵器%流動分離
등리자체%류동공제%격려기%류동분리
plasma%flow control%actuator%flow separation
在低速开口风洞中进行了等离子体激励器对NACA0015翼型流动分离控制的实验研究.采用PIV技术,对翼型绕流流场进行了测量,显示了施加等离子体激励后流场的变化.通过五分量天平对升力和阻力的测量,研究了激励电压和激励频率对翼型流动分离控制的规律.研究表明,低风速下在翼型前缘施加等离子体激励,能够有效地控制翼型流动分离,在来流为20m/s时,最大升力系数增加11%,失速迎角增加6°;在给定的流动状态下,激励电压和激励频率存在一个阈值,不同迎角下该阈值不同,迎角越大,分离越严重,对激励强度的要求也越高.
在低速開口風洞中進行瞭等離子體激勵器對NACA0015翼型流動分離控製的實驗研究.採用PIV技術,對翼型繞流流場進行瞭測量,顯示瞭施加等離子體激勵後流場的變化.通過五分量天平對升力和阻力的測量,研究瞭激勵電壓和激勵頻率對翼型流動分離控製的規律.研究錶明,低風速下在翼型前緣施加等離子體激勵,能夠有效地控製翼型流動分離,在來流為20m/s時,最大升力繫數增加11%,失速迎角增加6°;在給定的流動狀態下,激勵電壓和激勵頻率存在一箇閾值,不同迎角下該閾值不同,迎角越大,分離越嚴重,對激勵彊度的要求也越高.
재저속개구풍동중진행료등리자체격려기대NACA0015익형류동분리공제적실험연구.채용PIV기술,대익형요류류장진행료측량,현시료시가등리자체격려후류장적변화.통과오분량천평대승력화조력적측량,연구료격려전압화격려빈솔대익형류동분리공제적규률.연구표명,저풍속하재익형전연시가등리자체격려,능구유효지공제익형류동분리,재래류위20m/s시,최대승력계수증가11%,실속영각증가6°;재급정적류동상태하,격려전압화격려빈솔존재일개역치,불동영각하해역치불동,영각월대,분리월엄중,대격려강도적요구야월고.
Influence of plasma actuators on the flow separation control of NACA 0015 airfoil was investigated in an open-circuit low-speed wind tunnel.Particle Image Velocimetry(PIV)technology was applied to visualize the modification of the flow structure over the airfoil by the plasma actuators.Lift and drag were measured by a five-component strain gauge balance to investigate the separation control effect of the actuator voltage and excitation frequency.The results show that the leading-edge plasma actuators are effective in controlling the flow separation over the airfoil at low wind speeds.The maximum lift coefficient and stall angle are increased by 11%and 6 deg respectively at the free-stream velocity of 20m/s.However,at a given flow state,there exists threshold values for both the actuator voltage and excitation frequency on the actuators.The threshold values are different with the changing attack angles.At the higher attack angles,the plasma actuator's authority must be increased due to the much stronger flow separation on the airfoil.
