Single walled carbon nanotubes reinforced intermetallic TiNi matrix nanocomposites by spark plasma sintering

Bendjemil, Badis; Ali-Rachedi, Mahiedinne; Bougdira, J.; Zhang, Faming; Burkel, E.

doi:10.56053/1.3.145

Cited by 1 publication

(1 citation statement)

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“…Payam Sabaeifard et al [6] also, did a computational and experimental study into the aerodynamics and performance of small scale Darrieus-type straight-bladed VAWT and as a result, it has been found that a 3-bladed turbine with 35% solidity has the best self-starting ability and efficiency among all geometries. Jon De Coste [7] made a model of SB-VAWT using NACA0012 profile evaluates the performance of it.…”

Section: Introductionmentioning

confidence: 99%

Experimental and Numerical Investigations for Combined Blade Vertical Axis Wind Turbine

Khammas

Abed

2020

ETN

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In this paper, experimental and numerical investigations were carried out to evaluate the drag force of a combined frame with movable vanes. For this purpose, the combined frame model was developed from a flat plate with three movable vanes and one Darrieus straight bladed NACA0012. A straight-bladed Darrieus NACA0012 airfoil is attached at the tip of the model structure. The design increases the starting and total torque of the model on the side, which rotates to wind direction, hence increasing the drag coefficient and reduces the negative torque on the other side of the frame that rotates opposite to the wind. Combined frame in experimental work is tested in the subsonic wind tunnel to analyze the performance parameters like drag force and drag coefficient . The frame is tested under different wind speed ranging from 4 m/s to 28 m/s, test results show the reliable and efficient performance. The results indicated that the maximum drag force for the combine frame is 6 N at experimental work and 5.649 at numerical simulation under the same condition (wind speed V=28 m/s and azimuth angle θ = 90°). Computational Fluid Dynamic software (CFD) ANSYS FLUENT is used in this simulation which is carried out for the combined frame to investigate the drag force and drag coefficient, The finite volume method with Shear Stress Transport (STT), k- turbulence model is used, the predicted results show that the flow through the combined frame at the negative side when all the vanes are freely open. The static pressure drops across the combined frame when the combined frame rotates to the negative side and the resistance of the combined frame to the flow decreased. This case helps to increase turbine angular velocity and this leads to an increase in the power coefficient of the turbine.

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Section: Introductionmentioning

confidence: 99%