A dielectric barrier discharge ion source increases thrust and efficiency of electroaerodynamic propulsion

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Abstract

Electroaerodynamic (EAD) propulsion, which produces a thrust force by electrostatic means, has been proposed as a method of electric airplane propulsion which is solid-state and nearly silent and produces no combustion emissions. Previous work demonstrated that EAD is capable of sustaining flight of heavier-than-air airplanes. The most successful EAD propulsion devices have thus far used a direct current (DC) corona discharge to produce ions and the same DC field to accelerate them. However, these corona discharge EAD devices are subject to a performance trade-off where increasing thrust reduces efficiency (thrust-to-power ratio). This is a key barrier to practical adoption. Here, we show that by using a dielectric barrier discharge (DBD) instead of a corona discharge to produce ions, while still using a DC field to accelerate them, higher thrust and thrust-to-power can be achieved. We identify operating regimes for this thruster, optimize the electrical characteristics of the DBD ion source, and find that the thrust-to-power can reach up to 20 N/kW at a thrust of 50 mN/m and up to 10 N/kW at 150 mN/m - in both cases, approximately twice that of the equivalent corona discharge devices. With lower power draw for the same thrust, DBD enhanced EAD propulsion devices could increase the endurance of EAD airplanes and begin to enable the design of practically useful solid-state aircraft.

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Xu, H., He, Y., & Barrett, S. R. H. (2019). A dielectric barrier discharge ion source increases thrust and efficiency of electroaerodynamic propulsion. Applied Physics Letters, 114(25). https://doi.org/10.1063/1.5100524

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