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Parametric study of an empty diffuser geometric parameters and shape for a wind turbine using CFD analysis

Debela Alema Teklemariyem, Eshetu Tadesse Yimer, Venkata Ramayya Ancha, Balewgize Amare Zeru

2024Heliyon13 citationsDOIOpen Access PDF

Abstract

2° to 22°), inlet shroud angles (8° to 24°), flange height ratios, flange angles (0° and 15°), and shape of the diffuser as well as flanges on velocity, pressure at the diffuser entry, and through the diffuser section at a wind speed of 4.5 m/s. At an inlet-shroud angle of 24° and an opening angle of 8°, with a diffuser flange height-throat diameter ratio of 0.3, the system achieved an 82.9% increase in flowrate. The diffuser with an inlet shroud-side lower stepped flange showed an optimum velocity of 9.12 m/s (maximum) and 8.2 m/s (average), resulting in a 102.66% and 82.2% increase in velocity, respectively. The percentage increase in velocity of the present study is 92.61%, compared with the previous maximum increase in rate of 53.8%, and then an increase in velocity of 38.81% was obtained. The optimum speed occurred at 0.175 m from the inlet section of the diffuser, indicating where the turbine should best be located. The CFD results from this work were validated with experimental data from the literature, showing a good agreement between the two. Integrated diffuser-turbine system simulation and experimental work with field tests are recommended as a way forward.

Topics & Concepts

Diffuser (optics)Parametric statisticsTurbineRotor (electric)Computational fluid dynamicsCurvatureWork (physics)Wind powerMechanicsEngineeringMechanical engineeringMathematicsGeometryPhysicsOpticsElectrical engineeringLight sourceStatisticsWind Energy Research and DevelopmentWind and Air Flow StudiesAerodynamics and Fluid Dynamics Research
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