Study of Aerodynamic Configuration Design and wind tunnel test for Solar powered Buoyancy-lifting Vehicle in the Near-space
A configuration of buoyancy-lifting vehicle flying in near-space by combination the configuration characteristics of high-altitude airships and solar UAV aerodynamic were proposed.Through the numerical simulation method,the aerodynamic configurations for solar powered buoyancy-lifting vehicle in near-space were investigated.High lift over drag ratio aerodynamic configuration was obtained by optimization design.Aerodynamic performance of the wing with low Reynolds in different altitude and drag performance of air cell fuselage with different generating line were analyzed,which change regulation were summarized.Aerodynamic configuration was tested in wind tunnel by cable mounting testing technology as well,results of aerodynamic coefficient from numerical simulation method and wind tunnel in different Reynolds number were according well,verified the reliability of design results from the numerical simulation method.The design method of aerodynamic configuration and wind tunnel test technology of solar powered buoyancy-lifting vehicle were created from this study.Significance guiding conclusion and experimental data to general design were obtained.
Near-space Buoyancy-lifting High aspect ratio Low Reynolds number Cable mounting
Guangqiang Chen Bingyan Chen Pengfei Li Peng Bai Chunqun Ji
The Institute of aerodynamics theories and application of China Academy of Aerodynamic of Aerospace(CAAA),Beijing,100074,China
国际会议
2014 Asia-Pacific International Symposium on Aerospace Technology(2014亚太航空航天技术学术会议)
上海
英文
1-6
2014-09-24(万方平台首次上网日期,不代表论文的发表时间)