Experimental Investigation of Throatless Supersonic Exhaust on a Rotating Detonation Engine PDF Download
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Author: Eric A. Wheeler
Publisher:
ISBN:
Category :
Languages : en
Pages : 40
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Book Description
Generating supersonic exhaust without using converging-diverging geometry is an attractive feature desired in all propulsion devices that have supersonic flows. The inherent increased thermodynamic efficiency of combustion by detonation and supersonic azimuthal velocity of the detonation wave front both lend to a sense of curiosity about the possibility of supersonic axial exhaust velocity. Numerical simulations and some experiments have shown that there are oblique shock waves in the exhaust, which are inexorably linked to the detonation wave front. Do these phenomena create the necessary conditions for this to be possible? Experimental investigation into the exhaust characteristics of a rotating detonation engine have yielded very positive results and are discussed in this paper. Also, this engine features a unique injection method for fuel and oxidizer. While there has been some latent desire to explore the flow characteristics of the mixing zone ahead of detonation, aberrant pressure transducer readings on the front end wall of the combustor has been the catalyst into undertaking this task. The results of CFD analysis show possible explanations for this unusual behavior, along with possible explanations for additional effects of engine operation.
Author: Eric A. Wheeler
Publisher:
ISBN:
Category :
Languages : en
Pages : 40
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Book Description
Generating supersonic exhaust without using converging-diverging geometry is an attractive feature desired in all propulsion devices that have supersonic flows. The inherent increased thermodynamic efficiency of combustion by detonation and supersonic azimuthal velocity of the detonation wave front both lend to a sense of curiosity about the possibility of supersonic axial exhaust velocity. Numerical simulations and some experiments have shown that there are oblique shock waves in the exhaust, which are inexorably linked to the detonation wave front. Do these phenomena create the necessary conditions for this to be possible? Experimental investigation into the exhaust characteristics of a rotating detonation engine have yielded very positive results and are discussed in this paper. Also, this engine features a unique injection method for fuel and oxidizer. While there has been some latent desire to explore the flow characteristics of the mixing zone ahead of detonation, aberrant pressure transducer readings on the front end wall of the combustor has been the catalyst into undertaking this task. The results of CFD analysis show possible explanations for this unusual behavior, along with possible explanations for additional effects of engine operation.
Author: National Aeronautics and Space Administration (NASA)
Publisher: Createspace Independent Publishing Platform
ISBN: 9781722830243
Category :
Languages : en
Pages : 46
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Book Description
An experimental investigation was conducted in the NASA Lewis 10 x 10 ft supersonic Wind Tunnel to determine the performance characteristics of 2D hypersonic exhaust nozzles/afterbodies at low supersonic conditions. Generally, this type of application requires a single expansion ramp nozzle (SERN) that is highly integrated with the airframe of the hypersonic vehicle. At design conditions (hypersonic speeds), the nozzle generally exhibits acceptable performance. At off-design conditions (transonic to mid-supersonic speeds), nozzle performance of a fixed geometry configuration is generally poor. Various 2-D nozzle configurations were tested at off-design conditions from Mach 2.0 to 3.5. Performance data is presented at nozzle pressure ratios from 1 to 35. Jet exhaust was simulated with high-pressure air. To study performance of different geometries, nozzle configurations were varied by interchanging the following model parts: internal upstream contour, expansion ramp, sidewalls, and cowl. Carboni, Jeanne D. and Shyne, Rickey J. and Leavitt, Laurence D. and Taylor, John G. and Lamb, Milton Glenn Research Center; Langley Research Center RTOP 763-01-21...
Author: Paul R. Knott
Publisher:
ISBN:
Category :
Languages : en
Pages : 396
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Book Description
This report discusses detailed accounts of major theoretical and experimental investigations directed toward obtaining better understanding and mathematical specification of supersonic turbulent jets. Complete theoretical discussions are given describing the influence of a jet's mean flow shrouding on acoustic radiation of heated and unheated jets, approximate closed form acoustic expressions for turbulent mixing noise characterized by self-noise and shear-noise are given, and theoretical aero-acoustic formulations for the orderly structure of supersonic jets are reviewed. Extensive theory/data comparisons of developed acoustic models are given. Experimental investigations aimed at studying high velocity jet refraction, and the influence of jet swirl and upstream combustion roughness on jet noise is presented. Additionally, an extensive series of laser velocimeter measurements for high velocity and high temperature simple circular jets is discussed. Results include hot-film/laser velocimeter comparisons for ambient jets, mean velocity and turbulent velocity plume surveys of heated supersonic shock-free and shocked flow nozzles, and a demonstration experiment illustrating the capability of performing in-jet turbulence to far-field acoustic cross-correlation. (Author).
Author: N. T. Smith
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Gary L. Barr
Publisher:
ISBN:
Category : Rockets (Aeronautics)
Languages : en
Pages : 118
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Author: Robert Earl Wilson
Publisher:
ISBN:
Category :
Languages : en
Pages : 110
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Author: John D. Abbitt
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Abraham Cohen
Publisher:
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Category :
Languages : en
Pages :
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Author: Richard Bivins Countess
Publisher:
ISBN:
Category : Jet nozzles
Languages : en
Pages : 128
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Author: Edward Malcolm Harvey Newton
Publisher:
ISBN:
Category : Aerodynamics, Supersonic
Languages : en
Pages : 100
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