Philippe Reulet scite author profile

The present work aims at investigating a particular impinging jet configuration throughout a comprehensive experimental approach. A preheated air jet at 130 • C issues a fully developed circular pipe at Reynolds number 60,000 and discharges in the laboratory room to impinge a flat plate located 3 diameters downstream. The description of the velocity field and the complete Reynolds stress tensor is provided by stereoscopic particle image velocimetry (S-PIV) and laser Doppler velocimetry (LDV) measurements. For the first time, data are reported for the mean and fluctuating temperature of an impinging jet configuration with the help of cold-wire thermometry (CWT) measurements. The heat transfer distribution on the impinged plate is determined through an inverse method based on infrared thermography measurements on the rear face of the plate. The agreement between SPIV and LDV measurements is shown excellent over the whole flow field. The measured Nusselt number distribution exhibits a secondary maximum at r/D = 2, as observed in previous experiments for short impinging distances. Flow dynamics is characterized through a spectral analysis of time-resolved measurements while flow topology features are identified through coherent structure detection based on SPIV spatiallyresolved instantaneous velocity fields. This analysis shows that the jet column mode, associated with a Strouhal number of 0.4, plays a key role in the primary structure dynamics.

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Experimental Validation of a Coupling Method for Transient Conjugate Heat Transfer

Radenac¹,

Millan²,

Gressier³

et al. 2006

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Experimental Characterization of the Flow Within a Transitional Rectangular Cavity

Reulet

Esteve

Millan³

et al. 2002

J Flow Vis Image Proc

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Experimental Assessment of the Effect of Temperature Gradient Across an Aeroacoustic Liner

Méry

Piot

Sebbane

et al. 2019

Journal of Aircraft

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This study investigates the temperature effect on the impedance of conventional singledegree-of-freedom liners, both without and with grazing flow. Experiments are performed in a controlled environment, with a detailed monitoring of the temperature all along the liner sample. The liner impedance is either derived from the reflection coefficient measured in a normal impedance tube, or is educed with an inverse method from acoustic velocity or wall pressure fields measured in the ONERA grazing flow duct. The influence of the acoustic source level on the temperature of the sample is also addressed, which enlights strong multiphysics coupling between acoustics, flow and thermal phenomena.

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Surface temperature measurement of acoustic liners in the presence of grazing flow and thermal gradient

et al. 2021

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Philippe Reulet

Investigation of an impinging heated jet for a small nozzle-to-plate distance and high Reynolds number: An extensive experimental approach

Experimental Validation of a Coupling Method for Transient Conjugate Heat Transfer

Experimental Characterization of the Flow Within a Transitional Rectangular Cavity

Experimental Assessment of the Effect of Temperature Gradient Across an Aeroacoustic Liner

Surface temperature measurement of acoustic liners in the presence of grazing flow and thermal gradient

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