Stall control by plasma actuators: Characterization along the airfoil span

Giulia Zoppini; Marco Belan; Alex Zanotti; Lorenzo Di Vinci; Giuseppe Campanardi

doi:10.3390/en13061374

Stall control by plasma actuators: Characterization along the airfoil span

Giulia Zoppini, Marco Belan^*, Alex Zanotti, Lorenzo Di Vinci, Giuseppe Campanardi

^*Corresponding author for this work

Aerodynamics

Research output: Contribution to journal › Article › Scientific › peer-review

6 Citations (Scopus)

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Abstract

A dielectric barrier discharge actuator (DBD) is considered and studied as a stall recovery device. The DBD is installed on the nose of a NACA0015 airfoil with chord × span 300 × 930 mm. The geometry of the exposed electrode has periodic triangular tips purposely designed for the case under study. Wind tunnel tests have been carried out over a range of airspeeds up to 35 m/s with a Reynolds number of 700 k. The flow morphology has been characterized by means of the particle image velocimetry technique, obtaining velocity fields and pressure coefficients. By exploring different planes along the model span, the three-dimensional effect of the DBD has been reconstructed, identifying the flow region mainly sensitive to the plasma actuation. Finally, the actuator effectiveness has been quantified accounting for the power consumption data, leading to defining further design improvements in view of a better efficiency.

Original language	English
Article number	1374
Number of pages	20
Journal	Energies
Volume	13
Issue number	6
DOIs	https://doi.org/10.3390/en13061374
Publication status	Published - 2020

Keywords

Dielectric barrier discharge
Flow control
Plasma actuators
Separation control

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3390/en13061374

energies-13-01374Final published version, 1.32 MBLicence: CC BY

Cite this

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title = "Stall control by plasma actuators: Characterization along the airfoil span",

abstract = "A dielectric barrier discharge actuator (DBD) is considered and studied as a stall recovery device. The DBD is installed on the nose of a NACA0015 airfoil with chord × span 300 × 930 mm. The geometry of the exposed electrode has periodic triangular tips purposely designed for the case under study. Wind tunnel tests have been carried out over a range of airspeeds up to 35 m/s with a Reynolds number of 700 k. The flow morphology has been characterized by means of the particle image velocimetry technique, obtaining velocity fields and pressure coefficients. By exploring different planes along the model span, the three-dimensional effect of the DBD has been reconstructed, identifying the flow region mainly sensitive to the plasma actuation. Finally, the actuator effectiveness has been quantified accounting for the power consumption data, leading to defining further design improvements in view of a better efficiency.",

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T1 - Stall control by plasma actuators

T2 - Characterization along the airfoil span

AU - Zoppini, Giulia

AU - Belan, Marco

AU - Zanotti, Alex

AU - Di Vinci, Lorenzo

AU - Campanardi, Giuseppe

PY - 2020

Y1 - 2020

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AB - A dielectric barrier discharge actuator (DBD) is considered and studied as a stall recovery device. The DBD is installed on the nose of a NACA0015 airfoil with chord × span 300 × 930 mm. The geometry of the exposed electrode has periodic triangular tips purposely designed for the case under study. Wind tunnel tests have been carried out over a range of airspeeds up to 35 m/s with a Reynolds number of 700 k. The flow morphology has been characterized by means of the particle image velocimetry technique, obtaining velocity fields and pressure coefficients. By exploring different planes along the model span, the three-dimensional effect of the DBD has been reconstructed, identifying the flow region mainly sensitive to the plasma actuation. Finally, the actuator effectiveness has been quantified accounting for the power consumption data, leading to defining further design improvements in view of a better efficiency.

KW - Dielectric barrier discharge

KW - Flow control

KW - Plasma actuators

KW - Separation control

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JO - Energies

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Stall control by plasma actuators: Characterization along the airfoil span

Abstract

Keywords

UN SDGs

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