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Numerical Studies on Fixed Wing Aircraft Aerodynamic Performance using Injection Suction Mechanism

Aishwarya Katkar, K. Balaji, S.V. Khandal

2022International Journal of Vehicle Structures and Systems10 citationsDOIOpen Access PDF

Abstract

In this current research work, a NACA 6321 flat bottom aerofoil has been altered to study its aerodynamic performance. A co-flow jet (CFJ) method was used with an injection slot located at 20% of chord length and the suction slot situated at 80% of chord length. Simulations have been carried out on the aerofoil models with various angles of attack (AOA) at a Mach number 0.05 to compute the variation in coefficient of lift (CL) and coefficient of drag (Cd) using a k-omega SST model. From the study, it was observed that CL and stalling AOA of an aircraft are increased by 27% and 33% respectively, with an introduction of the additional mass flow rate of 0.01 kg/sec in comparison with baseline aerofoil. It could be concluded that CFJ method enhanced the aerodynamic performance of fixed-wing aircraft due to boundary layer control over an aerofoil which reduces the overall aircraft weight and maintenance cost.

Topics & Concepts

AirfoilChord (peer-to-peer)AerodynamicsCamber (aerodynamics)Lift coefficientAerospace engineeringAngle of attackMechanicsWingFlow separationLift-to-drag ratioBoundary layerPhysicsStructural engineeringEngineeringReynolds numberComputer scienceTurbulenceDistributed computingFluid Dynamics and Turbulent FlowsComputational Fluid Dynamics and AerodynamicsPlasma and Flow Control in Aerodynamics