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Damping device to reduce the risk of injection-coupled combustion instabilities in liquid propellant rocket engines

Wolfgang Armbruster, Justin Hardi, Yannik Miene, Dmitry Suslov, Michael Oschwald

2020Acta Astronautica23 citationsDOIOpen Access PDF

Abstract

A new countermeasure against injection-coupled combustion instabilities in liquid propellant rocket engines is presented. Whereas the problem is usually addressed by adding damping elements such as baffles or resonators to the combustion chamber, this approach directly damps the acoustic eigenmodes of the injector instead. The principle of the damping method is described in this article, as well as the implementation of such a device in a sub-scale rocket thrust chamber operated with liquid oxygen and hydrogen at conditions representative of upper stage engines. Test results are presented which show that flame and pressure oscillations were successfully reduced by the modification. The absorbers had no measurable influence on thrust chamber performance, and so the solution lends itself to retrofitting in existing engines, as well as integration during the design phase.

Topics & Concepts

PropellantLiquid-propellant rocketRocket engineRocket (weapon)Combustion chamberThrustBaffleAerospace engineeringInjectorCombustionChamber pressureLiquid oxygenFuel injectionNuclear engineeringMaterials scienceAutomotive engineeringEngineeringMechanical engineeringMechanicsPhysicsChemistryOrganic chemistryOxygenQuantum mechanicsRocket and propulsion systems researchCombustion and flame dynamicsAdvanced Combustion Engine Technologies
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