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Numerical and Experimental Estimation of the Efficiency of a Quadcopter Rotor Operating at Hover
by
Lopez Mejia, Omar D.
, Suárez Collazos, Laura Juliana
, Villegas Santos, Juan Sebastian
, Pérez Gordillo, Andres M.
, Escobar, Jaime A.
in
Accuracy
/ Aerodynamics
/ Aircraft
/ CFD
/ Efficiency
/ figure of merit
/ Fluids
/ Helicopters
/ hover
/ isolated rotor
/ Simulation
/ Turbulence models
/ Unmanned aerial vehicles
/ UVLM
/ Values
/ Vehicles
/ viscous effects
/ vortex core growth
/ Vortices
2019
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Numerical and Experimental Estimation of the Efficiency of a Quadcopter Rotor Operating at Hover
by
Lopez Mejia, Omar D.
, Suárez Collazos, Laura Juliana
, Villegas Santos, Juan Sebastian
, Pérez Gordillo, Andres M.
, Escobar, Jaime A.
in
Accuracy
/ Aerodynamics
/ Aircraft
/ CFD
/ Efficiency
/ figure of merit
/ Fluids
/ Helicopters
/ hover
/ isolated rotor
/ Simulation
/ Turbulence models
/ Unmanned aerial vehicles
/ UVLM
/ Values
/ Vehicles
/ viscous effects
/ vortex core growth
/ Vortices
2019
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Numerical and Experimental Estimation of the Efficiency of a Quadcopter Rotor Operating at Hover
by
Lopez Mejia, Omar D.
, Suárez Collazos, Laura Juliana
, Villegas Santos, Juan Sebastian
, Pérez Gordillo, Andres M.
, Escobar, Jaime A.
in
Accuracy
/ Aerodynamics
/ Aircraft
/ CFD
/ Efficiency
/ figure of merit
/ Fluids
/ Helicopters
/ hover
/ isolated rotor
/ Simulation
/ Turbulence models
/ Unmanned aerial vehicles
/ UVLM
/ Values
/ Vehicles
/ viscous effects
/ vortex core growth
/ Vortices
2019
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Numerical and Experimental Estimation of the Efficiency of a Quadcopter Rotor Operating at Hover
Journal Article
Numerical and Experimental Estimation of the Efficiency of a Quadcopter Rotor Operating at Hover
2019
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Overview
Globalization has led to an increase in the use of small copters for different activities such as geo-referencing, agricultural fields monitoring, survillance, among others. This is the main reason why there is a strong interest in the performance of small-scale propellers used in unmanned aerial vehicles. The flow developed by rotors is complex and the estimation of its aerodynamic performance is not a trivial process. In addition, viscous effects, when the rotor operates at low Reynolds, affect its performance. In the present paper, two different computational methods, Computational Fluid Dynamics (CFD) and the Unsteady Vortex Lattice Method (UVLM) with a viscous correction, were used to study the performance of an isolated rotor of a quadcopter flying at hover. The Multi Reference Frame model and transition S S T κ − ω turbulence model were used in the CFD simulations. The tip vortex core growth was used to account for the viscous effects in the UVLM. The wake structure, pressure coefficient, thrust and torque predictions from both methods are compared. Thrust and torque results from simulations were validated by means of experimental results of a characterization of a single rotor. Finally, figure of merit of the rotor is evaluated showing that UVLM overestimates the efficiency of the rotor; meanwhile, CFD predictions are close to experimental values.
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