Transactions of Nanjing University of Aeronautics & Astronautics
Drag Reducing and Increasing Mechanism on Triangular Riblet Surface
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Abstract:
Drag reducing and increasing mechanism on riblet surface has been studied through computational fluid dynamics (CFD). Drag reduction is achieved through the optimization of riblet geometry which would affect flow structure inside riblet grooves. Force and flow structure on riblet surface are analyzed and compared with those of smooth surface based on thek-εturbulence model. Drag reducing and increasing mechanism is proved to be related to microvortexes induced inside riblets which lead to Reynolds shear stress reduction significantly and is considered to be the dominant factor resulting in wall friction reduction. Simulation results also show that the pressure drag generating from the deviation of static pressure on the front and rear ends of riblets occurs and grows exponentially with Mach number, which can cause drag increasing. Furthermore, near-wall vortical structures, Reynolds shear stress and static pressure on riblet surfaces are also analyzed in detail.
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CHINA AERO-SCIENCES
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