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2018 Volume 35 Issue 5
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Yan-Liang Ji, Ben-Mou Zhou, Ya-Dong Huang. 2018: Mechanism of Electromagnetic Flow Control Enhanced by Electro-Discharge in Water, Chinese Physics Letters, 35(5): 73-77. doi: 10.1088/0256-307X/35/5/055203
Citation: Yan-Liang Ji, Ben-Mou Zhou, Ya-Dong Huang. 2018: Mechanism of Electromagnetic Flow Control Enhanced by Electro-Discharge in Water, Chinese Physics Letters, 35(5): 73-77. doi: 10.1088/0256-307X/35/5/055203
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Mechanism of Electromagnetic Flow Control Enhanced by Electro-Discharge in Water

  • Science and Technology on Transient Physics Laboratory, Nanjing University of Science and Technology,Nanjing 210094

  • Available Online: 01/01/2018
  • Fund Project: the Specialized Research Fund of the Transient Physics Laboratory under Grant No KX21373
  • Pulsed discharge utilized to achieve large current density in the electromagnetic flow control is numerically studied.A mathematic discharge model is established to calculate the plasma channel,and an actuator is designed to generate the Lorentz force in the micro plasma channel.During the discharge process,the resistance in the channel decreases rapidly and a large current density appears between the discharge electrodes.After the actuator is applied in the leading edge of a flat plate,the separation region and downstream turbulent boundary layer on the plate disappear.Meanwhile,a skin-friction drag force reduction is achieved.
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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Mechanism of Electromagnetic Flow Control Enhanced by Electro-Discharge in Water

  • Available Online: 01/01/2018

Abstract: Pulsed discharge utilized to achieve large current density in the electromagnetic flow control is numerically studied.A mathematic discharge model is established to calculate the plasma channel,and an actuator is designed to generate the Lorentz force in the micro plasma channel.During the discharge process,the resistance in the channel decreases rapidly and a large current density appears between the discharge electrodes.After the actuator is applied in the leading edge of a flat plate,the separation region and downstream turbulent boundary layer on the plate disappear.Meanwhile,a skin-friction drag force reduction is achieved.

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