Kevin Dille scite author profile

Rotating (also termed continuous spin) detonation technology is gaining interest in the global research and development community due to the potential for increased performance. Potential performance benefits, thrust chamber design, and thrust chamber cooling loads are analyzed for propellant applications using liquid oxygen or high-concentration hydrogen peroxide oxidizers with kerosene, hydrogen, and methane fuels. Performance results based on a lumped parameter treatment show that theoretical specific impulse gains of 3–14% are achievable with the highest benefit coming from hydrogen-fueled systems. Assessment of thrust chamber designs for notional space missions shows that both thrust chamber length and diameter benefits are achievable given the tiny annular chamber volume associated with the rotating detonation combustion. While the passing detonation front drastically increases local heat fluxes, global energy balances can be achieved if operating pressures are limited to be comparable to existing or prior space engines.

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Time-Resolved Stagnation Pressure Measurement Technique in a Rotating Detonation Rocket Combustor

Dille

Frederick

Slabaugh

et al. 2023

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Kevin Dille

Response of angled and tapered liquid injectors to passing detonation fronts at high operating pressures

Development of Condensed Phase Detonation Performance Models for Rotating Detonation Rocket Engines

Rotating Detonation Combustion for Advanced Liquid Propellant Space Engines

Time-Resolved Stagnation Pressure Measurement Technique in a Rotating Detonation Rocket Combustor

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