典型文献
Experimental and numerical investigation on opposing plasma synthetic jet for drag reduction
文献摘要:
Experimental and numerical studies are carried out to validate the potential of opposing Plasma Synthetic Jet(PSJ)for drag reduction for a hemisphere.Firstly,flow field changes of oppos-ing PSJ are analyzed by comparing the experimental schlieren images and simulation results in a supersonic free stream of Mach number 3.As PSJ is a kind of unsteady pulsed jet,the shock stand-off distance increases initially and then decreases under the control of PSJ,which corresponds to the change of the strength of PSJ.Accordingly,the amount of drag reduction of the hemisphere increases initially and then decreases.It is found that there is a short period of"drag rise"during the formation of PSJ before the drag reduction,which is induced by the generation of normal shock waves and the area difference of the cavity wall of PSJ Actuator(PSJA).Secondly,the effects of five parameters,including exit diameter,discharge energy of PSJA,Mach number,static pressure of incoming flow and angle of attack,on drag reduction of opposing PSJ were studied in detail by using numerical method.It is found that the Maximum Pressure Ratio(MPR)has a significant impact on the average drag reduction for a configuration-determined PSJA.For the configuration selected in this study,the flow field of opposing PSJ shows typical Short Penetration Mode(SPM)in a control cycle of PSJ when the MPR is less than 0.89.However,the flow field shows typical Long Penetration Mode(LPM)at some time when the MPR is bigger than 0.89.Relatively better drag reduction is achieved in this case.
文献关键词:
中图分类号:
作者姓名:
Wei XIE;Zhenbing LUO;Yan ZHOU;Wenqiang PENG;Qiang LIU;Dengpan WANG
作者机构:
College of Aerospace Engineering,National University of Defense Technology,Changsha 410073,China;Beijing Special Engineering Design and Research Institute,Beijing 100000,China
文献出处:
引用格式:
[1]Wei XIE;Zhenbing LUO;Yan ZHOU;Wenqiang PENG;Qiang LIU;Dengpan WANG-.Experimental and numerical investigation on opposing plasma synthetic jet for drag reduction)[J].中国航空学报(英文版),2022(08):75-91
A类:
oppos,schlieren,PSJA
B类:
Experimental,numerical,investigation,opposing,plasma,synthetic,jet,drag,reduction,studies,carried,out,validate,potential,Plasma,Synthetic,Jet,hemisphere,Firstly,flow,field,changes,analyzed,by,comparing,experimental,images,simulation,results,supersonic,free,stream,Mach,number,kind,unsteady,pulsed,shock,stand,off,distance,increases,initially,then,decreases,under,control,which,corresponds,strength,Accordingly,amount,It,found,that,there,short,period,rise,during,formation,before,induced,generation,normal,waves,area,difference,cavity,wall,Actuator,Secondly,effects,five,parameters,including,exit,diameter,discharge,energy,static,pressure,incoming,angle,attack,were,studied,detail,using,method,Maximum,Pressure,Ratio,MPR,has,significant,impact,average,configuration,determined,For,selected,this,study,shows,typical,Short,Penetration,Mode,SPM,cycle,when,less,than,However,Long,LPM,some,bigger,Relatively,better,achieved,case
AB值:
0.505574
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