Int. J. Model. Simul. Sci. Comput.
 2017
DOI: 10.1142/s1793962317500209
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Numerical simulation of high speed reacting shear layers using AUSM+- up scheme-based unstructured finite volume method solver

M. Deepu
1
,
M. P. Dhrishit
2
,
S. Shyji3

Abstract: Development of an Advection Upstream Splitting Method (AUSM[Formula: see text]-up) scheme-based Unstructured Finite Volume (UFVM) solver for the simulation of two-dimensional axisymmetric/planar high speed compressible turbulent reacting shear layers is presented. The inviscid numerical flux is evaluated using AUSM[Formula: see text]-up upwind scheme. An eight-step hydrogen–oxygen finite rate chemistry model is used to model the development of chemical species in a supersonic reacting flow field. The chemical … Show more

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Cited by 6 publications
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“…Compressible turbulent reacting flow simulations(Deepu et al (2017)) can depict the physiochemical evolution in complex supersonic flow fields involving shock trains. Realistic numerical simulation of the tri-propellant engine is not common in literature.…”
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confidence: 99%

Reacting Flow Simulations of a Dual Throat-Dual Fuel Thruster

2021
JAFM
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“…Compressible turbulent reacting flow simulations(Deepu et al (2017)) can depict the physiochemical evolution in complex supersonic flow fields involving shock trains. Realistic numerical simulation of the tri-propellant engine is not common in literature.…”
mentioning
confidence: 99%

Reacting Flow Simulations of a Dual Throat-Dual Fuel Thruster

2021
JAFM
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Numerical investigations on the implication of hydrogen fuel jet injection pressure on the performance characteristics in a multi-strut in a double-dual cavity-based scramjet combustor

Kireeti
1
,
Sastry
2
,
Gugulothu
3
et al. 2022
Fuel
20
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Numerical investigation on implications of four strut injectors on combustion characteristics of a Doubly-Dual cavity-based scramjet combustor

Suneetha
1
,
Randive
2
,
Pandey
3
2020
International Journal of Hydrogen Energy
16
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