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Computational Assessment of the Impact of Wave Count on Rotating Detonation Engine Performance

Daniel E. Paxson

2023AIAA SCITECH 2023 Forum8 citationsDOI

Abstract

View Video Presentation: https://doi.org/10.2514/6.2023-1290.vid The impact of the number of azimuthally propagating waves on the performance of a Rotating Detonation Engine (RDE) is investigated using a simplified two-dimensional computational fluid dynamic simulation. The basic RDE configuration examined has no exit throat. The inlet is assumed lossless and does not allow backflow. The adiabatic, inviscid, and premixed simulation utilizes a particularly simple finite rate reaction mechanism that allows user control over the relative amounts of deflagration and detonation that occur, the presence and extent of a reaction delay associated with fuel and oxidizer mixing, and the number of waves present in the domain. The simplifications and idealizations decouple the effect of wave count from other potential loss mechanisms. Performance is measured using exhaust flow total pressure gain relative to the inlet total pressure. One, two, and three wave solutions are computed under identical boundary conditions and grid resolution. For simulations with no mixing delay and minimal deflagration, the number of waves present has negligible impact on performance. With a mixing delay, performance decreases with increasing wave number. With increased deflagration, performance increases with increasing wave number. With both effects simulated it is found that the two wave solution performs better than either the one or three wave solutions. The causes of these trends are explored. They imply that for practical, RDE’s, the number of waves that are present can impact performance.

Topics & Concepts

DetonationDeflagrationInviscid flowMechanicsAdiabatic processPhysicsThermodynamicsChemistryExplosive materialOrganic chemistryCombustion and Detonation ProcessesFire dynamics and safety researchRisk and Safety Analysis
Computational Assessment of the Impact of Wave Count on Rotating Detonation Engine Performance | Litcius