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Neutralizer Hollow Cathode Simulations and Validation with Experiments (2009)

Snyder, John S. ; Goebel, Dan M. ; Mikellides, Ioannis G. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The fidelity of electric propulsion physics-based models depends largely on the validity of their predictions over a range of operating conditions and geometries. In general, increased complexity of the physics requires more extensive comparisons with laboratory data to identify the region(s) that lie outside the validity of the model assumptions and to quantify the uncertainties within its range of application. This paper presents numerical simulations of neutralizer hollow cathodes at various operating conditions and orifice sizes. The simulations were performed using a two-dimensional axisymmetric model that solves numerically a relatively extensive system of conservation laws for the partially-ionized gas in these devices. The results for the plasma are compared directly with Langmuir probe measurements. The computed keeper voltages are also compared with the observed values. Wherever model inputs and/or specific physics of the cathode discharge are uncertain, additional sensitivity calculations have been performed to quantify the uncertainties.

Keywords: Plasma Physics; Numerical Analysis

Type: AIAA/ASME/SAE/ASEE Joint Propulsion Conference &amp; Exhibit; Aug 03, 2009 - Aug 05, 2009; Denver, CO; United States

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Results of a XIPS(copyrighted) 25-cm Thruster Discharge Cathode Wear Test (2009)

Goebel, Dan M. ; Polk, James E. ; Tighe, William

In: Other Sources

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Publication Date: 2019-07-13

Description: The Xenon Ion Propulsion System (XIPS(c)) 25-cm thruster produced by L-3 Communications Electron Technologies, Inc. offers a number of potential benefits for planetary missions, including high efficiency and high Isp over a large power throttling range and availability from an active product line. The thruster is qualified for use on commercial communications satellites, which have requirements differing from those for typical planetary missions. In particular, deep space missions require longer service life over a broad range of throttling conditions. A XIPS (c) discharge cathode assembly was subjected to a long duration test to extend operating experience at the maximum power point and at throttled conditions unique to planetary mission applications. A total of 16079 hours were accumulated at conditions corresponding to the full power engine operating point at 4.2 kWe, an intermediate power point at 2.76 kWe and the minimum power point at 0.49 kWe. Minor performance losses and cathode keeper erosion were observed at the full power point, but there were no changes in performance and negligible erosion at the intermediate and minimum power points.

Keywords: Space Communications, Spacecraft Communications, Command and Tracking; Spacecraft Propulsion and Power

Type: International Electric Propulsion Conference; Sep 20, 2009 - Sep 24, 2009; Ann Arbor, MI; United States

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