摘要
To study the drag reduction of a jet surface,an experiment is conducted with a gyrorotor model.The aim of this study is to analyze the influence of the jet aperture,the jet angle and the rotational velocity coupled with the jet velocity on the friction torque acting on a jet surface model by using a jet surface drag reduction testing experimental platform.The drag reduction characteristics of the jet surface are also studied.The results show that the maximum drag reduction rate is attained when the jet diameter is 5 mm and the jet velocity is 1.2 m/s.The influence of the jet velocity on the drag reduction rate decreases as the diameter decreases.However,the maximum drag reduction rate can be attained when the angle of the jet is 30° and the velocity of the jet is 1.0 m/s.When the jet diameter is small,the influence of the jet velocity on the drag reduction rate is small,whereas the maximum drag reduction rate is attained when the jet angle is 30° and the jet velocity is 1.0 m/s.When the jet angle is 15°,the drag reduction rate fluctuation is distinct.The maximum drag reduction rate is attained when the rotational velocity is 2 100 r/min and the jet velocity is 1.0 m/s.The results show that the best scheme is A2B2D3 A maximum drag reduction rate of 8.57% can be attained.The effective control of the jet effect on the separation of the boundary layer demonstrates the drag reduction principle of a bionic jet surface.
基金
the Zhejiang Provincial Natural Science Foundation of China (Grant Nos.LY19E050003,LQ15E050005)
the National Natural Science Foundation of China (Grant No.51779226).
