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Aerodynamic investigation of the shock train in a scramjet with the effects of backpressure and divergent angles

Santhosh Kumar Gugulothu

2020Heat Transfer12 citationsDOI

Abstract

Abstract Numerical simulations are carried out to study the effect of divergence angle and adverse pressure gradient on the movement of a shock wave train in a scramjet isolator. The commercial software tool ANSYS Fluent 16 was used to simplify the two‐dimensional Reynolds‐averaged Navier‐Stokes equation with the compressible fluid flow by considering the density‐based solver with the standard k ‐ ε turbulence model. The species transport model with a single‐step volumetric reaction mechanism is employed. Initially, the simulated results are validated with experimental results available in the open literature. The obtained results show that the variation of the divergence angle and backpressure on the scramjet isolator has greater significance on the flow field. Also, with an increase in the backpressure, due to the intense turbulent combustion, the shock wave train developed should expand along the length and also move towards the leading edge of the isolator leading to a rapid rise in the pressure so that the pressure at the entrance of the isolator can match the enhanced backpressures.

Topics & Concepts

IsolatorScramjetShock (circulatory)TurbulenceMechanicsAerodynamicsShock waveAerospace engineeringCompressibilityCombustorMach numberRamjetAngle of attackPhysicsEngineeringCombustionChemistryMedicineOrganic chemistryElectronic engineeringInternal medicineComputational Fluid Dynamics and AerodynamicsGas Dynamics and Kinetic TheoryFluid Dynamics and Turbulent Flows
Aerodynamic investigation of the shock train in a scramjet with the effects of backpressure and divergent angles | Litcius