Liquid micro pulsed plasma thruster

Szelecka, Agnieszka; Kurzyna, Jacek; Daniłko, Dariusz; Barral, Serge

Liquid micro pulsed plasma thruster

Nukleonika

Volume 60 (2015): Issue 2 (June 2015)

By:

Agnieszka Szelecka, Jacek Kurzyna, Dariusz Daniłko and Serge Barral

Open Access

|Jun 2015

References

1. Barral, S., Kurzyna, J., Szelecka, A., Rachubiński, H., Remírez, E., Martín, R., Ortiz, P., Alonso, J., Bottinelli, S., Mabillard, Y., Zaldívar, A., Rangsten, P., & Koppel, C. (2014). First experimental characterization of a pulsed plasma thruster with non-volatile liquid propellant. In Proceedings of Space Propulsion Conference, 19–22 May 2014. Cologne, Germany.
Search in Google Scholar
2. Rezaeiha, A., & Schönherr, T. (2013). Overview of alternative propellants for use in PPT. In 29th International Symposium on Space Technology and Science ISTS, 2–9 June 2013. Nagoya, Japan.
Search in Google Scholar
3. Barral, S., Kurzyna, J., Remírez, E., Martín, R., Ortiz, P., Alonso, J., Bottinelli, S., Mabillard, Y., Zaldívar, A., Rangsten, P., & Koppel, C. R. (2013). Development status of an open capillary pulsed plasma thruster with non-volatile liquid propellant. In Proceedings of the 33rd International Electric Propulsion Conference, 6–10 October 2013 (paper IEPC-2013-291). Worthington, OH: The Electric Rocket Propulsion Society.
Search in Google Scholar
4. Koizumi, H., Kakami, A., Furuta, Y., Komurasaki, K., & Arakawa, Y. (2003). Liquid propellant pulsed plasma thruster. In Proceedings of 28th International Electric Propulsion Conference, Toulouse, France (no. 2003-87). Worthington, OH: The Electric Rocket Propulsion Society.
Search in Google Scholar
5. Koizumi, H., Kawazoe, Y., Komurasaki, K., & Arakawa, Y. (2005). Performance improvement of a liquid propellant pulsed plasma thruster. In Proceedings of 29th International Electric Propulsion Conference, Princeton, NJ (no. 2005-69). Worthington, OH: The Electric Rocket Propulsion Society.
Search in Google Scholar
6. Scharlemann, C. (2003). Investigation of thrust mechanism in a water fed pulsed plasma thruster. Ph. D. dissertation, The Ohio State University.
Search in Google Scholar
7. Krejci, D., Seifert, B., & Scharleman, C. (2013). Endurance testing of pulsed plasma thruster for nanosatellites. Acta Astronomica, 91, 187–193.10.1016/j.actaastro.2013.06.012
Search in Google Scholar
8. Haag, T. (1997). Thrust stand for pulsed plasma thrusters. Rev. Sci. Instrum., 68, 2060–2067.10.1063/1.1148097
Search in Google Scholar

DOI: https://doi.org/10.1515/nuka-2015-0057 | Journal eISSN: 1508-5791 | Journal ISSN: 0029-5922

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Language: English

Page range: 257 - 261

Submitted on: Nov 27, 2014

Accepted on: Mar 24, 2015

Published on: Jun 22, 2015

Published by: Institute of Nuclear Chemistry and Technology

In partnership with: Paradigm Publishing Services

Publication frequency: 4 issues per year

Keywords:

electric propulsion,

pulsed plasma thruster,

liquid propellant

Related subjects:

Chemistry,

Nuclear chemistry,

Physics,

Astronomy and astrophysics,

Physics, other

© 2015 Agnieszka Szelecka, Jacek Kurzyna, Dariusz Daniłko, Serge Barral, published by Institute of Nuclear Chemistry and Technology
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

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