40 / 2021-10-05 23:42:43
Parametric Investigation of High-voltage Plasma Discharge for Aircraft Icing Mitigation
Airfoil,anti-icing,nanosecond pulse,plasma actuator,voltage profile
终稿
Xu Fang / Air Force Engineering University;Northwest Institute of Nuclear Technology
Zhi Su / Air Force Engineering University
Huimin Song / Air Force Engineering University
Hua Liang / Air Force Engineering University
Like Xie / Air Force Engineering University
Xuecheng Liu / Air Force Engineering University
Ice accretion on aircraft coming across supercooled water droplets in cloud greatly harms the flight performance and safety. The streamwise plasma heat knife is a newly developed icing mitigation method based on high-voltage plasma discharge. Aiming at optimizing the streamwise plasma heat knife method, the parametric investigation is carried out in this work. The influence of high voltage profile to the heating effects of the surface dielectric barrier discharge driven by nanosecond pulses (NS-SDBD) is investigated and the anti-icing performance of streamwise plasma heat knife at different configurations is compared. Columnar high-temperature regions produced by the filamentary discharge appears at short pulse rising time (trise), which gets disperse with the trise increasing. An optimal trise exists for a large range and value of temperature, which is 150ns in the current research. Influence of pulse falling time (tfall) is much smaller than that of trise. The range and value of temperature gets small with tfall increasing. The pulse width improves the heating effect by increasing the discharge power. Strong heating effect exists at large pulse widths. When placing a spanwise electrode connecting the streamwise electrodes of the plasma actuator at the airfoil leading edge, the anti-icing performance gets worse, while good performance is achieved when the spanwise electrode is at the edge of the streamwise ones. Obvious ice ridges are formed downstream of the plasma discharge, which needs to be solved by further investigation and optimization.
重要日期
  • 会议日期

    07月11日

    2023

    08月18日

    2023

  • 11月10日 2021

    初稿截稿日期

  • 12月10日 2021

    注册截止日期

  • 12月11日 2021

    报告提交截止日期

主办单位
IEEE IAS
承办单位
IEEE IAS Student Chapter of Southwest Jiaotong University (SWJTU)
IEEE IAS Student Chapter of Huazhong University of Science and Technology (HUST)
IEEE PELS (Power Electronics Society) Student Chapter of HUST
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