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Dependence of skin-friction reduction on the geometric parameters of blowing jet array

X. Zhang, C. W. Wong, Xiaoqi Cheng, Yu Zhou

2022Physics of Fluids15 citationsDOI

Abstract

Unsteady wall-normal blowing through one array of streamwise slits has been recently demonstrated to reduce substantially skin-friction drag in a turbulent boundary layer [X. Q. Cheng et al., “Skin-friction reduction using periodic blowing through streamwise slits,” J. Fluid Mech. 920, (2021)]. This work aims to understand the dependence of skin-friction drag reduction (DR) on the parameters of the slit array, including the slit width b, length l, and number N or actuation width. The control performance exhibits a dependence on the three parameters in terms of DR, downstream drag recovery, and net-energy saving. It has been found for the first time that DR achieved under high-frequency unsteady blowing may exceed that under steady blowing given the same blowing mass flow rate. Physical mechanisms behind are discussed. The scaling of the drag reduction is also examined empirically, providing valuable insight into the flow physics behind control.

Topics & Concepts

DragParasitic dragPhysicsMechanicsTurbulenceReduction (mathematics)Boundary layerJet (fluid)Flow control (data)ScalingWork (physics)Flow (mathematics)Drag coefficientAerodynamic dragClassical mechanicsThermodynamicsGeometryMathematicsComputer scienceComputer networkFluid Dynamics and Turbulent FlowsPlasma and Flow Control in AerodynamicsHeat Transfer Mechanisms
Dependence of skin-friction reduction on the geometric parameters of blowing jet array | Litcius