Pierric Joseph scite author profile

Pierric Joseph

4Publications

101Citation Statements Received

93Citation Statements Given

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Affiliations

Laboratoire de Mécanique des Fluides de Lille - Kampé de Fériet, Arts et Metiers Institute of Technology, University of Lille

Publications

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Drag reduction on the 25° slant angle Ahmed reference body using pulsed jets

2011

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This paper highlights steady and unsteady measurements and flow control results obtained on an Ahmed model with slant angle of 25°in wind tunnel. On this high-drag configuration characterized by a large separation bubble along with energetic streamwise vortices, time-averaged and time-dependent results without control are first presented. The influence of rear-end periodic forcing on the drag coefficient is then investigated using electrically operated magnetic valves in an open-loop control scheme. Four distinct configurations of flow control have been tested: rectangular pulsed jets aligned with the spanwise direction or in winglets configuration on the roof end and rectangular jets or a large open slot at the top of the rear slant. For each configuration, the influence of the forcing parameters (non-dimensional frequency, injected momentum) on the drag coefficient has been studied, along with their impact on the static pressure on both the rear slant and vertical base of the model. Depending on the type and location of pulsed jets actuation, the maximum drag reduction is obtained for increasing injected momentum or well-defined optimal pulsation frequencies.

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Flow control using MEMS pulsed micro-jets on the Ahmed body

Joseph

Amandolèse

Edouard³

et al. 2013

Exp Fluids

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Active flow control in an axial compressor for stability improvement: on the effect of flow control on stall inception

2021

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In this paper, the effect of an active flow control system on the onset mechanisms of rotating stall in an axial compressor is experimentally investigated. A particular emphasis is thus given on the flow patterns present in the tip region right before stall and how they evolve when active flow control is applied. The mechanisms involved during stall formation without control are carefully assessed and compared to the literature. To this purpose, the development of the first instability into rotating stall is discussed by monitoring its speed inside the compressor. This analysis also relies on instantaneous pressure measurements at the casing of the compressor.

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Comparison and Sensibility Analysis of Warning Parameters for Rotating Stall Detection in an Axial Compressor

Margalida

Joseph

Roussette

2020

IJTPP

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The present paper aims at evaluating the surveillance parameters used for early stall warning in axial compressors, and is based on unsteady pressure measurements at the casing of a single stage axial compressor. Two parameters—Correlation and Root Mean Square (RMS)—are first compared and their relative performances discussed. The influence of sensor locations (in both radial and axial directions) is then considered, and the role of the compressor’s geometrical irregularities in the behavior of the indicators is clearly highlighted. The influence of the throttling process is also carefully analyzed. This aspect of the experiment’s process appears to have a non-negligible impact on the stall warning parameters, despite being poorly documented in the literature. This last part of this research work allow us to get a different vision of the alert parameters compared to what is classically done in the literature, as the level of irregularity that is reflected by the magnitude of the parameters appears to be an image of a given flow rate value, and not a clear indicator of the stall inception.

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Pierric Joseph

Drag reduction on the 25° slant angle Ahmed reference body using pulsed jets

Flow control using MEMS pulsed micro-jets on the Ahmed body

Active flow control in an axial compressor for stability improvement: on the effect of flow control on stall inception

Comparison and Sensibility Analysis of Warning Parameters for Rotating Stall Detection in an Axial Compressor

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