Open Access
Volume 10, 2018
Progress in Flight Dynamics, Guidance, Navigation, and Control – Volume 10
Page(s) 179 - 198
Published online 08 June 2018
  1. Di Matteo, F., and J. Steelant. 2013. Multi-disciplinary propulsion simulations at engineering level by means of the European space propulsion system simulation ESPSS. RTO/AVT/VKI lecture ser. on fluid dynamics associated to launcher developers. St. Genesius-Rode, Belgium: Von Karman Institute. EN-AVT-206-06. [Google Scholar]
  2. ESPSS release 3.1. Available at: (accessed August 23, 2017). [Google Scholar]
  3. EcosimPror. Available at: (accessed August 23, 2017). [Google Scholar]
  4. Koppel, C.R., M. De Rosa, J. Moral, and J. Steelant. 2012. Effects of a satellite mission on the propulsion subsystem. SP2012 2364281 Space Propulsion. Bordeaux, France. [Google Scholar]
  5. Koppel, C.R. 2013. ESPSS satellite library. ESPSS Workshop, ESA/ESTEC. No- ordwijk, The Netherlands. [Google Scholar]
  6. ESA/Space Agencies/Industry Associations. November 15, 2008. European Coop- eration for Space Standardization. Space engineering. Space environment. Standard ECSS-E-ST-10-04C. [Google Scholar]
  7. Lewalle, J. 2006. Incompressible fluid dynamics: Phenomenology, concepts and analytical tools. Lecture notes. Syracuse University. [Google Scholar]
  8. Koppel, C.R., M. De Rosa, F. Rodriguez, and J. Steelant. 2013. The AOCS’ effects on the propulsion subsystem using the ESPSS satellite library. 5th EUCASS. Muenchen, Germany. [Google Scholar]
  9. Koppel, C.R., J. Moral, M. De Rosa, R.P. Vara, J. Steelant, and P. Omaly. 2011. Satellite propulsion modeling with EcosimPro: Comparison between simulation and ground tests. Progress in propulsion physics. Eds. L.T. DeLuca, C. Bonnal, O. Haidn, and S.M. Frolov. EUCASS advances in aerospace sciences book ser. TORUS PRESS–EDP Sciences. 2:743–764. [Google Scholar]