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Synonyme wurden verwendet für: Propellant explosions
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    Numerical simulation of a Rotating Detonation with a realistic injector designed for separate supply of gaseous hydrogen and oxygen

    Gaillard, T. / Davidenko, D. / Dupoirieux, F. | Elsevier | 2017
    Schlagwörter: Rotating Detonation , Propellant injection

    Operability of a Natural Gas–Air Rotating Detonation Engine

    Walters, Ian V. / Journell, Christopher L. / Lemcherfi, Aaron et al. | AIAA | 2020
    Schlagwörter: Rotating Detonation Engine , Propellant , Deflagration to Detonation Transition , Detonation Waves

    One Method to Increase the Operating Frequency of Pulse Detonation Rocket Engines

    Wang, Ke / Fan, Wei / Lu, Wei et al. | AIAA | 2014
    Schlagwörter: Pulse Detonation Rocket Engines , Deflagration to Detonation Transition , Rotating Detonation Engine , Propellant , Detonation Waves

    Propagation Mode Analysis on H2–Air Rotating Detonation Waves in a Hollow Combustor

    Lin, Wei / Tong, Yiheng / Lin, Zhiyong et al. | AIAA | 2020
    Schlagwörter: Detonation Waves , Deflagration to Detonation Transition , Propellant , Rotating Detonation Engine

    Ideal-Gas Thermochemistry of N-Ethyl-2-Nitrato-1-Nitramine Family Compound

    Burcat, Alexander | AIAA | 2015
    Schlagwörter: Propellant , Rocket Propellant , Detonation

    Efforts on High-Frequency Pulse Detonation Engines

    Wang, Ke / Fan, Wei | AIAA | 2016
    Schlagwörter: Rotating Detonation Engine , Deflagration to Detonation Transition , Propellant , Pulse Detonation Rocket Engines , Detonation Waves

    Experimental Response of Capillary Tube Attenuated Pressure Measurements Under High-Amplitude, Nonlinear Forcing

    Fotia, Matthew L. / Hoke, John / Schauer, Fred | AIAA | 2021
    Schlagwörter: Rotating Detonation Engine , Detonation , Propellant

    Detonation Transition Around Cylindrical Reflector of Pulse Detonation Engine Initiator

    Wakita, Masashi / Tamura, Masayoshi / Terasaka, Akihiro et al. | AIAA | 2013
    Schlagwörter: Pulse Detonation Engine , Deflagration to Detonation Transition , Detonation Waves , Propellant

    Safety issues of high-concentrated hydrogen peroxide production used as rocket propellant

    Romantsova, O.V. / Ulybin, V.B. | Elsevier | 2014
    Schlagwörter: Fire/explosion characteristics , Propellant

    Propulsion Performance of Cylindrical Rotating Detonation Engine

    Yokoo, Ryuya / Goto, Keisuke / Kim, Juhoe et al. | AIAA | 2019
    Schlagwörter: Rotating Detonation Engine , Propellant , Detonation Waves

    Rotating Detonation Engine Using a Wave Generator and Controlled Mixing

    Boening, Jacob A. / Wheeler, Eric A. / Heath, Joseph D. et al. | AIAA | 2018
    Schlagwörter: Rotating Detonation Engine , Detonation Waves , Propellant

    Cylindrical Rotating Detonation Engine with Propellant Injection Cooling

    Goto, Keisuke / Ota, Kosei / Kawasaki, Akira et al. | AIAA | 2021
    Schlagwörter: Propellant , Rotating Detonation Engine , Detonation Waves

    Torque Around Axial Direction on Rotating Detonation Engines

    Sawada, Satoru / Goto, Keisuke / Ishihara, Kazuki et al. | AIAA | 2021
    Schlagwörter: Rotating Detonation Engine , Detonation Waves , Propellant

    Flight Validation of a Rotary-Valved Four-Cylinder Pulse Detonation Rocket

    Matsuoka, Ken / Morozumi, Tomohito / Takagi, Syunsuke et al. | AIAA | 2015
    Schlagwörter: Deflagration to Detonation Transition , Propellant , Pulse Detonation Rocket Engines , Detonation Wave Engines

    Experimental Performance Scaling of Rotating Detonation Engines Operated on Gaseous Fuels

    Fotia, Matthew L. / Hoke, John / Schauer, Fred | AIAA | 2017
    Schlagwörter: Rotating Detonation Engine , Propellant , Detonation Waves

    Hypergolic Continuous Detonation with Space-Storable Propellants and Additively Manufactured Injector Design

    Nair, Anil P. / Keller, Alex R. / Morrow, David S. et al. | AIAA | 2022
    Schlagwörter: Hypergolic Propellant , Detonation Waves , Liquid Rocket Propellant

    The designing of launch vehicles with liquid propulsion engines ensuring fire, explosion and environmental safety requirements of worked-off stages

    Trushlyakov, V. / Shatrov, Ya. / Sujmenbaev, B. et al. | Elsevier | 2016
    Schlagwörter: Propellant residues , The fire and explosion safety

    Thermodynamic Modeling of a Rotating Detonation Engine Through a Reduced-Order Approach

    Kaemming, Tom / Fotia, Matthew L. / Hoke, John et al. | AIAA | 2017
    Schlagwörter: Rotating Detonation Engine , Propellant , Detonation Waves

    Experimental Study of Air Breathing Ion Engine Using Laser Detonation Beam Source

    Tagawa, Masahito / Yokota, Kumiko / Nishiyama, Kazutaka et al. | AIAA | 2013
    Schlagwörter: Laser Detonation Beam , Propellant , Detonation

    Reduction of Catalyst Volume by Using Metal Mesh in Small-Scale H 2 O 2 Thrusters

    Lee, Jeongsub / Kwon, Sejin | AIAA | 2013
    Schlagwörter: Propellant , Detonation

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