2017
DOI: 10.17265/1934-8975/2017.12.001
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Experimental Investigation of the Flame Propagation and Flashback Behavior of a Green Propellant Consisting of N2O and C2H4

Abstract: Regarding the research on alternatives for monopropellant hydrazine, several so called green propellants are currently under investigation or qualification. Aside others, the DLR Institute of Space Propulsion investigates a N 2 O/C 2 H 4 premixed green propellant. During the research activities, flashback from the rocket combustion chamber into the feeding system has been identified as a major challenge when using the propellant mixture. This paper shows the results of ignition experiments conducted in a cylin… Show more

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Cited by 11 publications
(12 citation statements)
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“…Nevertheless, green propellants for European space activities are an accepted challenge for research and for technology development. Similar to research programmes in the U.S. initiated by DARPA (see Tiliakos et al (2001) or ADMG (2012)), DLR investigates the combustion properties of propellants like ethene/nitrous oxide mixtures that have the potential to substitute hydrazine or hydranzine/dinitrogen tetroxide in chemical propulsion systems (Werling et al (2015), Werling et al (2016), Werling et al (2017)). Data from model combustors operated at DLR's rocket propulsion test site at Lampoldshausen (Germany) in combination with investigations of fundamental combustion properties provide valuable test cases to be analysed by CFD computations, thus gaining better insights to the specific design requirements of new rocket engines powered by green propellants.…”
Section: Introductionmentioning
confidence: 99%
“…Nevertheless, green propellants for European space activities are an accepted challenge for research and for technology development. Similar to research programmes in the U.S. initiated by DARPA (see Tiliakos et al (2001) or ADMG (2012)), DLR investigates the combustion properties of propellants like ethene/nitrous oxide mixtures that have the potential to substitute hydrazine or hydranzine/dinitrogen tetroxide in chemical propulsion systems (Werling et al (2015), Werling et al (2016), Werling et al (2017)). Data from model combustors operated at DLR's rocket propulsion test site at Lampoldshausen (Germany) in combination with investigations of fundamental combustion properties provide valuable test cases to be analysed by CFD computations, thus gaining better insights to the specific design requirements of new rocket engines powered by green propellants.…”
Section: Introductionmentioning
confidence: 99%
“…These instabilities increase the surface of the flame front and thus accelerate the flame. Therefore with increasing pressure prior to ignition the average flame propagation speed rises [40,41].…”
Section: Fig 15: Ignition Test Section For Investigation Of Flame Arresters (Porous Materials and Capillaries)mentioning
confidence: 99%
“…The two most investigated green propellant substitutes have been AF-M315E and LMP103S, which are hydroxylammonium nitrate (HAN, [NH3OH]NO3) and ammonium dinitramide (ADN, [NH4][N(NO2)2]) based on liquid monopropellants, respectively [23][24][25][26][27]. Bi-liquid green propulsion systems have also been considered as alternatives to hydrazine and NTO, including a nitrous oxide/ethylene combination as well as energetic ionic liquids [28][29][30].…”
Section: A Paraffinmentioning
confidence: 99%