Heavy plasma NAPALM propulsion simulation code - Archive ouverte HAL
Communication Dans Un Congrès Année : 2010

Heavy plasma NAPALM propulsion simulation code

Résumé

The NAPALM project addresses a new and revolutionary space propulsion system, able to deliver a very high specific impulse through a new working fluid and accelerator principle for the electric plasma thruster. The new motor will impressively exceed, by between ten and sixty percent, the vacuum specific impulse of all existing electric and thermo-electric rocket engines. The accomplishment is based on a new working medium, comprised of relatively high-mass gasified nanoparticles that will be accelerated up to very high kinetic energies. While all current electric thrusters are only able to deliver up to 15.000s specific impulse, the new thruster is expected to deliver between 18.000 and over 30.000s specific impulse. This extraordinary property will increase in the equal amount the deliverable ideal velocity during an interplanetary mission. This increased exit velocity conveys into an equal amount of propellant saving, for any equivalent mission performance. Within the range of low thrust levels, a particularly efficient application of the new thruster is in the attitude control of orbital spacecraft, which will save large amounts of propellant, in comparison to the chemical attitude control units and to other existing electrical thrusters. Additionally, the NAPALM thruster will deliver an absolute thrust of more than 0.1 Newton for every mass flow rate of 1 milligram/second and thus an absolute vacuum thrust exceeding 18 Newton is expected
Fichier non déposé

Dates et versions

hal-01309254 , version 1 (29-04-2016)

Identifiants

  • HAL Id : hal-01309254 , version 1

Citer

Istvan Lorincz, Radu Dan Rugescu, Alina Bogoi, Josephine Kohlenberg, Mahendiran Prathaban. Heavy plasma NAPALM propulsion simulation code. CACS 2010 : International Congress on Computer Applications and Computational Science, Dec 2010, Singapore, Singapore. pp.1 - 4. ⟨hal-01309254⟩
99 Consultations
0 Téléchargements

Partager

More