Mohamed Sellam scite author profile

International audienceTransverse secondary gas injection into the supersonic flow of an axisymmetric convergent-divergent nozzle is investigated to describe the effects of the fluidic thrust vectoring within the framework of a small satellite launcher. Cold-flow dry-air experiments are performed in a supersonic wind tunnel using two identical supersonic conical nozzles with the different transverse injection port positions. The complex three-dimensional flow field generated by the supersonic cross-flows in these test nozzles was examined. Valuable experimental data were confronted and compared with the results obtained from the numerical simulations. Different nozzle models are numerically simulated under experimental conditions and then further investigated to determine which parameters significantly affect thrust vectoring. Effects which characterize the nozzle and thrust vectoring performances are established. The results indicate that with moderate secondary to primary mass flow rate ratios, ranging around 5 %, it is possible to achieve pertinent vector side forces. It is also revealed that injector positioning and geometry have a strong effect on the shock vector control system and nozzle performances

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Assessment of gas thermodynamic characteristics on fluidic thrust vectoring performance: Analytical, experimental and numerical study

Sellam¹,

Zmijanović

Léger

et al. 2015

International Journal of Heat and Fluid Flow

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Experimental–Numerical Parametric Investigation of a Rocket Nozzle Secondary Injection Thrust Vectoring

Zmijanović¹,

Léger²,

Depussay³

et al. 2016

Journal of Propulsion and Power

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Numerical Study of Heat Transfer Around the Small Scale Airfoil Using Various Turbulence Models

Bekka

Bessaïh

Sellam

et al. 2009

Numerical Heat Transfer, Part A: Applications

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Assessment of transition regimes in a dual-bell nozzle and possibility of active fluidic control

Zmijanović

Léger

Sellam

et al. 2018

Aerospace Science and Technology

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Mohamed Sellam

Thrust shock vector control of an axisymmetric conical supersonic nozzle via secondary transverse gas injection

Assessment of gas thermodynamic characteristics on fluidic thrust vectoring performance: Analytical, experimental and numerical study

Experimental–Numerical Parametric Investigation of a Rocket Nozzle Secondary Injection Thrust Vectoring

Numerical Study of Heat Transfer Around the Small Scale Airfoil Using Various Turbulence Models

Assessment of transition regimes in a dual-bell nozzle and possibility of active fluidic control

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