Acoustic Analysis of Valveless Pulsejet Engines

Maqbool, Daanish; Cadou, Christopher P.

doi:10.2514/1.b36078

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Cited by 5 publications

References 28 publications

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Operational mechanism of valved-pulsejet engines

Ghulam,

Muralidharan,

Anand

et al. 2024

Aerospace Science and Technology

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Operational mechanism of valved-pulsejet engines

Ghulam,

Muralidharan,

Anand

et al. 2024

Aerospace Science and Technology

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Nitrous Oxide/Ethanol Cylindrical Rotating Detonation Engine for Sounding Rocket Space Flight

Ishihara,

Sato,

Kimura

et al. 2024

Journal of Spacecraft and Rockets

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There are few experimental studies on rotating detonation engines (RDEs) with liquid propellants. This study reveals the static thrust performance of a cylindrical RDE with ethanol and liquid nitrous oxide as propellants under atmospheric pressure. This RDE had an inner diameter of 40 mm, a maximum combustor length of 230 mm, a nozzle contraction ratio of 1.7, and a nozzle expansion ratio of 9.1. Nineteen experiments were conducted at total mass flow rates of [Formula: see text], mixture ratios of 3.6–5.9, and combustion pressures of 0.35–0.46 MPa, resulting in a maximum detonation velocity of [Formula: see text] (approximately 80% of the theoretical detonation velocity, [Formula: see text]), maximum thrust at sea level of 294 N, and maximum specific impulse at sea level of 148 s. In addition, the maximum characteristic exhaust velocity, [Formula: see text], was [Formula: see text], which was 99% of the theoretical value. The characteristic length of the combustion chamber at this time was 0.15 m. Since conventional rocket combustion requires 1.57 m to achieve the same [Formula: see text] efficiency, this study shows that detonation combustion can reduce the combustor size by 88%.

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Interaction Behavior of Pulsejet Engines

Maqbool

Cadou

2023

Journal of Propulsion and Power

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Valveless pulsejet engines are analyzed as electric circuits in which the main engine components (inlet, combustion chamber, and tailpipe) are assigned impedance values and represented using a system of linear equations. The solution to these equations yields Bode plots for the engines that can be used to predict operating frequency as well as the effects of individual component dimensions on overall engine behavior. This method of analysis is found to predict engine operating frequencies to within 7% of experimentally measured values. The analysis is extended to include systems of multiple engines and again verified by comparison to experiment. It is shown that multiple engines can be locked in phase or in antiphase predictably by selecting the proper interconnection method. The latter has important implications for noise reduction and for propulsion applications involving arrays of pulsejets.

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Acoustic Analysis of Valveless Pulsejet Engines

Cited by 5 publications

References 28 publications

Operational mechanism of valved-pulsejet engines

Operational mechanism of valved-pulsejet engines

Nitrous Oxide/Ethanol Cylindrical Rotating Detonation Engine for Sounding Rocket Space Flight

Interaction Behavior of Pulsejet Engines

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