2021
DOI: 10.3390/fluids6040166
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Fluidic-Oscillator-Based Pulsed Jet Actuators for Flow Separation Control

Abstract: The control of flow separation on aerodynamic surfaces remains a fundamental goal for future air transportation. On airplane wings and control surfaces, the effects of flow separation include decreased lift, increased drag, and enhanced flow unsteadiness and noise, all of which are detrimental to flight performance, fuel consumption, and environmental emissions. Many types of actuators have been designed in the past to counter the negative effects of flow separation, from passive vortex generators to active me… Show more

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Cited by 10 publications
(4 citation statements)
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“…Schematics of: (a) fluidic oscillators, 102 (b) wall-normal pulsed jets, 108 (c) hybrid SJA, 119 (d) DBD actuators, 129 (e) moving walls, 13 and (f) deforming wall patch. 155 …”
Section: Classification and Description Of Flow Control Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…Schematics of: (a) fluidic oscillators, 102 (b) wall-normal pulsed jets, 108 (c) hybrid SJA, 119 (d) DBD actuators, 129 (e) moving walls, 13 and (f) deforming wall patch. 155 …”
Section: Classification and Description Of Flow Control Methodsmentioning
confidence: 99%
“…Their oscillatory operation is usually achieved mechanically, or, in recent years, by fluidic oscillators (actuators constituted of a flow vane with no moving parts, using steady suction and oscillatory blowing, have been thoroughly investigated in previous years). More analytical and explanatory material on fluidic oscillators is available in Lo¨ffler et al 102 (Figure 4(a)). Various types of PJAs are mentioned here, and their applications are truly extensive.…”
Section: Active Flow Controlmentioning
confidence: 99%
“…This Special Issue, titled "Fluidic Oscillators-Devices and Applications", captures a few examples of current topics involving fluidic oscillators, ranging from flow control over combustion applications to various industrial systems. The use of fluidic oscillators for active flow control purposes remains a focus area of the scientific community, as showcased by Löffler et al [18] and Koklu [19]. Liebsch and Paschereit [20] discuss the use of active flow control with fluidic oscillators for an industrial application to reduce flow separation and recirculation of harmful gases in laboratory fume hoods.…”
Section: Figurementioning
confidence: 99%
“…Previous work on synthetic jet actuators (SJAs) has proven their potential to delay flow separation over critical aerodynamic surfaces [1][2][3][4]. Like many other active flow control techniques [5,6], SJAs have the promising aspect of being tuned to control-separated flow in different conditions. In this technology, flow control is achieved by injecting flow via the external excitation of an enclosed cavity volume.…”
Section: Introductionmentioning
confidence: 99%