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Natural convection flow in a square cavity revisited: Laminar and turbulent models with wall functions
Numerical simulations have been undertaken for the benchmark problem of natural convection flow in a square cavity. The control volume method is used to solve the conservation equations for laminar
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Review of numerical simulations for high-speed, turbulent cavity flows
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Sliding mesh algorithm for CFD analysis of helicopter rotor–fuselage aerodynamics
The study of rotor–fuselage interactional aerodynamics is central to the design and performance analysis of helicopters. However, regardless of its significance, rotor–fuselage aerodynamics has so
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NUMERICAL SIMULATION OF TRANSONIC BUFFET FLOWS USING VARIOUS TURBULENCE CLOSURES
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A review of helicopter rotor blade tip shapes
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Assessment of a high‐order MUSCL method for rotor flows
TLDR
This work presents the implementation of a high-order, finite-volume scheme suitable for rotor flows based on the variable extrapolation MUSCL-scheme, which adds reasonable CPU and memory overheads and offers good accuracy on relatively coarse grids.
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A framework for CFD analysis of helicopter rotors in hover and forward flight
A framework is described and demonstrated for CFD analysis of helicopter rotors in hover and forward flight. Starting from the Navier–Stokes equations, the paper describes the periodic rotor blade
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Investigation of Three-Dimensional Dynamic Stall Using Computational Fluid Dynamics
Numerical simulation of three-dimensional dynamic stall has been undertaken using computational fluid dynamics. The full Navier–Stokes equations, coupled with a two-equation turbulence model, where
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Development and Validation of a CFD Technique for the Aerodynamic Analysis of HAWT
This paper demonstrates the potential of a compressible Navier–Stokes CFD method for the analysis of horizontal axis wind turbines. The method was first validated against experimental data of the
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High performance computing for challenging problems in computational fluid dynamics
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