2000
DOI: 10.21236/ada387454
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Gas-Fed Pulsed Plasma Thrusters: Fundamentals, Characteristics and Scaling Laws

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Cited by 4 publications
(4 citation statements)
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“…15 International Journal of Aerospace Engineering Compared to MPD, the power requirement for PPT is lower (a few watts of power). Choueiri's research [74] indicates that the power ratio of PPT using N 2 is between tens of mN/kW, which is the maximum at low energy (158 J) and high mass (348 μg). If the propellant is sufficient, the thrust efficiency is not so important to the design, and the above thrust power ratio becomes the main design criterion.…”
Section: 23mentioning
confidence: 99%
“…15 International Journal of Aerospace Engineering Compared to MPD, the power requirement for PPT is lower (a few watts of power). Choueiri's research [74] indicates that the power ratio of PPT using N 2 is between tens of mN/kW, which is the maximum at low energy (158 J) and high mass (348 μg). If the propellant is sufficient, the thrust efficiency is not so important to the design, and the above thrust power ratio becomes the main design criterion.…”
Section: 23mentioning
confidence: 99%
“…However, all the flight-qualified PPTs have benefited from one solid propellant (PTFE) and other propellants have merely been experimented in laboratories. As a result of the fact that the present paper has intended to focus on ablative PPTs, therefore liquid propellant PPTs and gas-fed PPTs are not discussed here and they are extensively discussed elsewhere (Rezaeiha and Schö nherr, 2012;Choueiri et al, 2001).…”
Section: Propellant Materialsmentioning
confidence: 99%
“…In the final analysis and based on the research presented above, nominal solid Teflon is the propellant of choice for ablative PPT so far and no alternative solid propellant with better performance has ever been investigated. As previously mentioned, because of the fact that we narrowed our research on ablative PPTs, other alternatives including liquid and gaseous propellants were excluded; although there have been numerous studies conducted on liquid and gas propellants as alternatives for Teflon which are reviewed elsewhere (Rezaeiha and Schö nherr, 2012;Choueiri et al, 2001), but none of them has ever been flight tested.…”
Section: Propellant Materialsmentioning
confidence: 99%
“…It has been widely used in research and is the only propellant so far to be used in space with a PPT. Although liquid propellants [3] and gaseous propellants [4] have been tested for feasibility, the change from an ablation-type discharge to an injection-type discharge and the limited reported experimental data impede a proper comparison of the performance and, hence, have limited their application.…”
Section: Introductionmentioning
confidence: 99%