Axisymmetric Hybrid Plasma Model for Hall Effect Thrusters

Abstract: Hall Effect Thrusters (HETs) are nowadays widely used for satellite applications because of their efficiency and robustness compared to other electric propulsion devices. Computational modelling of plasma in HETs is interesting for several reasons: it can be used to predict thrusters’ operative life; moreover, it provides a better understanding of the physical behaviour of this device and can be used to optimize the next generation of thrusters. In this work, the discharge within the accelerating channel and n… Show more

“…Accordingly, in this section, we present the results of our pseudo-2D axial-radial simulations and compare the results against 1D axial PIC simulations with and without a model to account for the plasma-wall interactions. To have a point of reference, the setup of all simulations is similar to a recent 2D hybrid fluid/PIC simulation from the literature [31], and our results are compared against those from the hybrid code. In this regard, it is important to highlight that an axial or axial-radial PIC simulation is not self-consistent with respect to electron mobility and, as a result, the same model as that in Ref.…”

“…In this regard, it is important to highlight that an axial or axial-radial PIC simulation is not self-consistent with respect to electron mobility and, as a result, the same model as that in Ref. [31] to account for the enhanced electrons' cross-field transport is included in our 1D and pseudo-2D simulations in this section. As such, since the choice of electrons' mobility model can have a dominant influence on the plasma dynamics, it was expected that the results would be mostly comparable, which will be seen in "Results and discussion" section to has been the case.…”

“…It is also important to recall that, as mentioned in "Introduction" section, by performing the single-region pseudo-2D axial-radial simulations, we aim to demonstrate preliminarily that this approach can provide a self-consistent method to capture an average effect of the plasma-wall collisions and the associated particles' momentum and energy loss in lieu of the ad-hoc models that have been proposed in the literature for this purpose [3,31].…”

“…The axial extent of the domain was chosen to be 3 cm compared to 6 cm in Ref. [31] in order to speed up the simulation by reducing the number of macroparticles. In the y-direction, however, the same extent of 1.5 cm as in Ref.…”

“…In the y-direction, however, the same extent of 1.5 cm as in Ref. [31] was used. The simulated operating condition is the same as that adopted in Ref.…”

Resolving multi-dimensional plasma phenomena in Hall thrusters using the reduced-order particle-in-cell scheme

“…Accordingly, in this section, we present the results of our pseudo-2D axial-radial simulations and compare the results against 1D axial PIC simulations with and without a model to account for the plasma-wall interactions. To have a point of reference, the setup of all simulations is similar to a recent 2D hybrid fluid/PIC simulation from the literature [31], and our results are compared against those from the hybrid code. In this regard, it is important to highlight that an axial or axial-radial PIC simulation is not self-consistent with respect to electron mobility and, as a result, the same model as that in Ref.…”

“…In this regard, it is important to highlight that an axial or axial-radial PIC simulation is not self-consistent with respect to electron mobility and, as a result, the same model as that in Ref. [31] to account for the enhanced electrons' cross-field transport is included in our 1D and pseudo-2D simulations in this section. As such, since the choice of electrons' mobility model can have a dominant influence on the plasma dynamics, it was expected that the results would be mostly comparable, which will be seen in "Results and discussion" section to has been the case.…”

“…It is also important to recall that, as mentioned in "Introduction" section, by performing the single-region pseudo-2D axial-radial simulations, we aim to demonstrate preliminarily that this approach can provide a self-consistent method to capture an average effect of the plasma-wall collisions and the associated particles' momentum and energy loss in lieu of the ad-hoc models that have been proposed in the literature for this purpose [3,31].…”

“…The axial extent of the domain was chosen to be 3 cm compared to 6 cm in Ref. [31] in order to speed up the simulation by reducing the number of macroparticles. In the y-direction, however, the same extent of 1.5 cm as in Ref.…”

“…In the y-direction, however, the same extent of 1.5 cm as in Ref. [31] was used. The simulated operating condition is the same as that adopted in Ref.…”

Resolving multi-dimensional plasma phenomena in Hall thrusters using the reduced-order particle-in-cell scheme

Particle-In-Cell Simulation of Heavy Species in Hall Effect Discharge

Scaling of Magnetic Circuit for Magnetically Shielded Hall Effect Thrusters