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On the other hand, the CFD-AMI model shows better results for higher advanced ratio velocities but is computationally more expensive. BEMT linear model overpredicted the power and efficiency for high advance ratio, while BEMT with tridimensional flow equilibrium presented consistent results with a low computational cost. For low advanced ratio velocities, the best results were obtained with the BEMT models. In the comparison of the results with the experimental tests, it was observed that the appropriate choice of analysis method had a strong relationship with the Reynolds number. To investigate the influence of the transition laminar-turbulent boundary layer, the Gamma Theta transitional model was also considered.
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The k ω SST turbulence model was employed. In the CFD models, two approaches for the compatibility of the rotating and stationary domains were evaluated, the stationary frozen rotor (FR) and the transient arbitrary mesh interface (AMI). The second one incorporates three-dimensional flow equilibrium effects, and best represents the post-stall conditions. The first one considered a linear lift coefficient up to the stall limits, without specifying the post-stall lift coefficients. Analyses using the BEMT model were conducted with two formulations. Geometric modeling was performed in a 3D scanner and simulations via BEMT and CFD. The problem consists of flow around an airfoil at various. This study aims to employ these methods for the analysis of an APC propeller 14 × 7e. CFD analysis is carried out using FLUENT 17.2 at various angles of attack from -5 to 20. Computational fluid dynamics (CFD) is categorized as a high-fidelity method. Among the low-fidelity techniques, there is the blade element momentum theory (BEMT). The techniques range from low-fidelity to high-fidelity methods. The increasing use of unmanned aerial vehicles and micro air vehicles creates a strong demand for the accurate aerodynamic performance of small-diameters fixed-pitch propellers.