Applied Sciences (Nov 2021)

Icing Mitigation by MEMS-Fabricated Surface Dielectric Barrier Discharge

  • Matthias Lindner,
  • Andrei V. Pipa,
  • Norbert Karpen,
  • Rüdiger Hink,
  • Dominik Berndt,
  • Rüdiger Foest,
  • Elmar Bonaccurso,
  • Robert Weichwald,
  • Alois Friedberger,
  • Ralf Caspari,
  • Ronny Brandenburg,
  • Rupert Schreiner

DOI
https://doi.org/10.3390/app112311106
Journal volume & issue
Vol. 11, no. 23
p. 11106

Abstract

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Avoiding ice accumulation on aerodynamic components is of enormous importance to flight safety. Novel approaches utilizing surface dielectric barrier discharges (SDBDs) are expected to be more efficient and effective than conventional solutions for preventing ice accretion on aerodynamic components. In this work, the realization of SDBDs based on thin-film substrates by means of micro-electro-mechanical-systems (MEMS) technology is presented. The anti-icing performance of the MEMS SDBDs is presented and compared to SDBDs manufactured by printed circuit board (PCB) technology. It was observed that the 35 μm thick electrodes of the PCB SDBDs favor surface icing with an initial accumulation of supercooled water droplets at the electrode impact edges. This effect was not observed for 0.3 μm thick MEMS-fabricated electrodes indicating a clear advantage for MEMS-technology SDBDs for anti-icing applications. Titanium was identified as the most suitable material for MEMS electrodes. In addition, an optimization of the MEMS-SDBDs with respect to the dielectric materials as well as SDBD design is discussed.

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