Demonstration of a 600 Watt Hybrid Iodine-Xenon Electric Propulsion System
Demonstration of a 600 Watt Hybrid Iodine-Xenon Electric Propulsion System
- Neue Suche nach: Benavides, G. F.
- Neue Suche nach: Kamhawi, H.
- Neue Suche nach: Mackey, J. A.
- Neue Suche nach: Haag, T. W.
- Neue Suche nach: Benavides, G. F.
- Neue Suche nach: Kamhawi, H.
- Neue Suche nach: Mackey, J. A.
- Neue Suche nach: Haag, T. W.
This paper reviews recent iodine compatible electric propulsion technologies evaluated at the NASA Glenn Research Center. The work culminated in a 1,174-hour hybrid iodine-xenon propulsion system durability demonstration (iodine fed thruster with xenon fed cathode). The test demonstrated that (i) a Hall-effect thruster operates with nearly identical performance whether employing iodine or xenon propellant, (ii) careful selection of propulsion system materials and coatings can result in durable iodine-compatible hardware, and (iii) implementation of appropriate facility improvements and procedures can limit negative impacts of iodine on test hardware and ground support equipment. The work was motivated by advancements in capability of very dense small-spacecraft (<500 kg), but spacecraft still lacking very dense in-space propulsion to provide the large delta-v capabilities (3 to 10 km/s) required for many high-value NASA exploration and science missions. Volume limitations of small-spacecraft not only require dense propulsion systems, but more so dense propellants. NASA identifies xenon and iodine as having both favorable storage densities and propulsive properties to enable many NASA small-spacecraft mission scenarios. While xenon is inert and well-proven in spaceflight applications, iodine has triple the storage density of xenon and stores at low pressures, permitting use of conformal tank designs. Unlike xenon, iodine does raise concerns related to its reactivity with most materials, potential spacecraft-propellant interactions, impact on ground test facilities, and challenges to acceptance test iodine propulsion systems prior to flight. This work begins to address these challenges. This work was conducted under the Advanced In-Space Propulsion (AISP) project funded through the Game Changing Development (GCD) program within NASA's Science Technology Mission Directorate (STMD).
Dokumentinformationen
Demonstration of a 600 Watt Hybrid Iodine-Xenon Electric Propulsion System
JANNAF Propulsion Meeting (JPM)
;
2018
;
Long Beach, CA, United States
Spacecraft Propulsion (SPS) Subcommittees
;
2018
;
Long Beach, CA, United States
Modeling and Simulation (MSS) Subcommittees
;
2018
;
Long Beach, CA, United States
Programmatic Industrial Base (PIB) Subcommittees
;
2018
;
Long Beach, CA, United States
Liquid Propulsion (LPS) Subcommittees
;
2018
;
Long Beach, CA, United States
2018-05-21
Aufsatz (Konferenz)
Keine Angabe
Englisch
Ähnliche Titel
Iodine Small Satellite Propulsion Demonstration-iSAT
| NTRS | 2017
Iodine Small Satellite Propulsion Demonstration-iSAT
| NTIS | 2017
Space electric propulsion system and xenon filling method
| Europäisches Patentamt | 2023