Martin Hecklau scite author profile

Martin Hecklau

4Publications

92Citation Statements Received

21Citation Statements Given

How they've been cited

106

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Affiliations

Technische Universität Berlin, Fraunhofer Institute for Production Systems and Design Technology

Publications

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Active flow control by means of synthetic jets on a highly loaded compressor cascade

Zander

Hecklau

Nitsche

et al. 2011

Proceedings of the Institution of Mechanical Engineers, Part A:

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This article presents the potential of active flow control to increase the aerodynamic performance of highly loaded turbomachinery compressor blades. Experimental investigations on a large-scale compressor cascade equipped with 30 synthetic jet actuators mounted to the sidewalls and the blades themselves have been carried out. Results for a variation of the inflow angle, the jet amplitude, and the actuation frequency are presented. The wake measurements show total pressure loss reductions of nearly 10 per cent for the synthetic jet actuation. An efficiency calculation reveals that the energy saved by actuation is nearly twice the energy consumption of the synthetic jets.

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Active Flow Control Concepts on a Highly Loaded Subsonic Compressor Cascade: Résumé of Experimental and Numerical Results

Gmelin

Zander

Hecklau

et al. 2012

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This paper presents experimental and numerical results for a highly loaded, low speed, linear compressor cascade with active flow control. Three active flow control concepts employing steady jets, pulsed jets, and zero mass flow jets (synthetic jets) are investigated at two different forcing locations: at the end walls and the blade suction side. Investigations are performed at the design incidence for jet-to-inlet velocity ratios of approximately 0.7 to 3.0 and two different Reynolds numbers. Detailed flow field data are collected using a five-hole pressure probe, pressure tabs on the blade surfaces, and time-resolved particle image velocimetry. Unsteady Reynolds-Averaged Navier-Stokes simulations are performed for a wide range of flow control parameters. The experimental and numerical results are used to understand the interaction between the jet and the passage flow. Variation of jet amplitude, forcing frequency and blowing angle of the different control concepts at both locations allows determination of beneficial control parameters and offers a comparison between similar control approaches. This paper combines the advantages of an expensive yet reliable experiment and a fast but limited numerical simulation. Excellent agreement in control effectiveness is found between experiment and simulation.

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Active Separation Control with Pulsed Jets in a Critically Loaded Compressor Cascade

Hecklau

Wiederhold

Zander

et al. 2010

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Particle image velocimetry of active flow control on a compressor cascade

et al. 2010

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Martin Hecklau

Active flow control by means of synthetic jets on a highly loaded compressor cascade

Active Flow Control Concepts on a Highly Loaded Subsonic Compressor Cascade: Résumé of Experimental and Numerical Results

Active Separation Control with Pulsed Jets in a Critically Loaded Compressor Cascade

Particle image velocimetry of active flow control on a compressor cascade

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