Calculations of shock-wave flow structure in axisymmetric channel with near-wall ethylene burning with throttle air jet

Calculations of shock-wave flow structure in axisymmetric channel with near-wall ethylene burning with throttle air jet

The CFD modelling of the ramjet start with low losses of the stagnation pressure was carried out. The basic feature of this start technology was the jet of compressed air creating effect of a throttle which aids in preliminary decelerating of the flow up to transonic velocities. The comparison with...

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Veröffentlicht in:Journal of physics. Conference series 2019-11, Vol.1369 (1), p.12066
Hauptverfasser: Zamuraev, V P, Kalinina, A P, Fedorova, DV, Popova, D.S
Format: Artikel
Sprache:eng
Schlagworte:
Air jets
Axisymmetric flow
Compressed air
Deceleration
Fuels
Gaseous fuels
Low pressure
Physics
Shock waves
Stagnation pressure
Transonic flow
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Zusammenfassung:The CFD modelling of the ramjet start with low losses of the stagnation pressure was carried out. The basic feature of this start technology was the jet of compressed air creating effect of a throttle which aids in preliminary decelerating of the flow up to transonic velocities. The comparison with experiment was performed for the hydrogen burning. We studied the axial and near-wall supply of gas fuel. The physical mechanisms stimulating stable presence of transonic mode in the part with constant section were investigated within the frameworks URANS approach. It was shown that fuel supply blockage is a way to control near-wall supplying of gaseous fuel at considerably low pressure falls. And blocking the ignition processes is a way to control the axial supply at quite high pressure falls.
ISSN:1742-6588
1742-6596
DOI:10.1088/1742-6596/1369/1/012066