Thermal Analysis and Testing of Different Designs of LaB6 Hollow Cathodes to Be Used in Electric Propulsion Applications

Kokal, Ugur; Turan, Nazli; Çelik, Murat

doi:10.3390/aerospace8080215

Cited by 4 publications

(3 citation statements)

References 29 publications

(34 reference statements)

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“…In addition, as the operating temperature increases the thermal conductivity varies. As an example, the molybdenum parts have a low surface emissivity of approximately 0.1 and thermal conductivity of molybdenum decreases as the temperature increases making molybdenum a favourable choice as heat losses need to be drastically reduced [27,29]. In comparison to the predicted results seen in Fig.…”

Section: Methodsmentioning

confidence: 76%

Development of a Modular Hollow Cathode for Ground Testing of Plasma Thrusters

Ahmed

Karadag

Masillo

et al. 2023

Preprint

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Section: Methodsmentioning

confidence: 76%

Development of a Modular Hollow Cathode for Ground Testing of Plasma Thrusters

Ahmed

Karadag

Masillo

et al. 2023

Preprint

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“…This cathode has a unique heater assembly: tantalum wire of 0.25 mm diameter is wrapped around a shapal ceramic tube with external grooves of helical geometry. For electrical connection of the heater circuit, the tantalum wire is continued to wrap around the grooves on a graphite part that is placed coaxially over the cathode tube (Kurt et al 2017;Kokal et al 2021).…”

Section: Bustlab Hollow Cathodementioning

confidence: 99%

Experimental Investigation of the Electrical Wiring Configuration of the HK40 Hall Thruster Operation

Kokal,

Turan,

Celik

2023

J. Aerosp. Technol. Manag.

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Vacuum chambers providing a low pressure environment similar to the vacuum environment in low earth orbit have been used for the testing of plasma thrusters. A significant proportion of research on the effects of vacuum facility on plasma thrusters has focused on the effects of background pressure and plume expansion; however, the electrical interaction of the conductive chamber walls with the plasma thrusters needs to be explored further. In this study, the operation of a prototype Hall thruster, HK40, was investigated to understand the effects of wiring configuration of the thruster-cathode-chamber system. During the tests, the thruster was operated in two different grounding configurations. A resistance analogy regarding the changes in the electrical potentials and measured currents was introduced. The calculated thrust and efficiency values of the two configurations were compared. This study shows that the current extracted from the emitter surface of the cathode, along with the cathode-toground voltage can be used to estimate the thrust and thruster efficiency. In addition, the theoretical predictions were compared with the values based on the measurements made with an in-house-built inverted pendulum type thrust stand. The presented results show that the thrust and efficiency values are predicted with 3.4% and 8.3% uncertainty, respectively.

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“…The CFHT-27 was operated using a LaB6 hollow cathode that is developed at BUSTLab (Kokal et al 2021;Kurt et al 2017). The cathode employs a 2-mm inner diameter, 4-mm outer diameter, LaB6 tube of 10 mm length placed inside a graphite cathode tube of 6 mm outer diameter 48 mm of length.…”

Section: Cfht-27 Cusped-field Hall Effect Thrustermentioning

confidence: 99%

Experimental Investigation of the CFHT-27 Cusped-Field Hall Thruster Performance

Saridede,

Yediyildiz,

Celik

2023

J. Aerosp. Technol. Manag.

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Cusped-field Hall thrusters (CFHT) have significant potential for use in many space missions due to their simplicity, long life and high efficiency. CFHT-27, designed and developed at the Bogazici University Space Technologies Laboratory (BUSTLab), is a prototype CFHT with a 27-mm diameter discharge channel. CFHT-27 utilizes samarium-cobalt (SmCo) permanent magnets. The thrust and efficiency of a cusped-field thruster is closely related to its size and design parameters. In this study, in order to understand the relationships between the design parameters and the thruster performance, the performance tests of the CFHT-27 are carried out for a given magnetic field topology. The thruster was operated at discharge voltages ranging from 250 to 500V with argon propellant with up to 3,000 s of specific impulse. The measurements show that CFHT-27 can achieve thrust values from 1 to 46 mN. Thus, this thruster can be used for a wide range of thrust values allowing throttle capabilities for different missions.

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Thermal Analysis and Testing of Different Designs of LaB6 Hollow Cathodes to Be Used in Electric Propulsion Applications

Cited by 4 publications

References 29 publications

Development of a Modular Hollow Cathode for Ground Testing of Plasma Thrusters

Development of a Modular Hollow Cathode for Ground Testing of Plasma Thrusters

Experimental Investigation of the Electrical Wiring Configuration of the HK40 Hall Thruster Operation

Experimental Investigation of the CFHT-27 Cusped-Field Hall Thruster Performance

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