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Influence of the leading-edge bluntness radius of a plate on the response of flat-plate boundary layer to an N-wave at Mach number M = 2

А. Д. Косинов, Н. В. Семёнов, A. A. Yatskikh, V. L. Kocharin, A. V. Shmakova

2023Thermophysics and Aeromechanics12 citationsDOI

Abstract

An experimental study of the influence of the leading-edge radius of a blunt plate on the response of boundary layer on this plate to an N-wave at Mach 2 was carried out. Three flat-plate models with different leading-edge bluntness radii, r = 0.05, 0.5, and 2.5 mm, were used in the experiments. The oncoming-flow disturbances were created using a generator provided on the sidewall of the test section of the T-325 wind tunnel of ITAM SB RAS. It is found that behind the N-wave in the oncoming flow, there forms an extended region with an increased level of flow pulsations whose spectrum contains the amplitudes increased both in low-frequency and high-frequency range of the spectrum compared to the undisturbed freestream. It was shown that, under experimental conditions, the flow non-uniformity generated by the N-wave can exert a greater influence on the flat-plate boundary layer laminar-turbulent transition with increasing leading-edge bluntness radius.

Topics & Concepts

Boundary layerRADIUSMach numberLaminar flowLeading edgePhysicsWind tunnelOpticsFreestreamMechanicsFlow (mathematics)Enhanced Data Rates for GSM EvolutionTurbulenceReynolds numberTelecommunicationsComputer scienceComputer securityFluid Dynamics and Turbulent FlowsComputational Fluid Dynamics and AerodynamicsWind and Air Flow Studies
Influence of the leading-edge bluntness radius of a plate on the response of flat-plate boundary layer to an N-wave at Mach number M = 2 | Litcius