Joji Wata scite author profile

In contrast to large horizontal axis wind turbines (HAWTs) that are located in areas dictated by optimum wind conditions, small wind turbines are required for producing power without necessarily the best wind conditions. A low Reynolds number airfoil was designed after testing a number of low Reynolds number airfoils and then making one of our own; it was tested for use in small HAWTs. Studies using XFOIL and wind tunnel experiments were performed on the new airfoil at various Reynolds numbers. The pressure distribution, C p , the lift and drag coefficients, C L and C D , were studied for varying angles of attack, α. It is found that the airfoil can achieve very good aerodynamic characteristics at different Reynolds numbers and can be used as an efficient airfoil in small HAWTs. low Reynolds number, airfoil, small wind turbines, pressure distribution, coefficient of lift, coefficient of drag Citation: Wata J, Faizal M, Talu B, et al. Studies on a low Reynolds number airfoil for small wind turbine applications.

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Analysis of a pico tubular-type hydro turbine performance by runner blade shape using CFD

Park¹,

Lee²,

Wata³

et al. 2012

IOP Conf. Ser.: Earth Environ. Sci.

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Experiments on the magnetic coupling in a small scale counter rotating marine current turbine

Kim

Lee

Wata

et al. 2016

IOP Conf. Ser.: Mater. Sci. Eng.

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Hydraulic Model Test of a Floating Wave Energy Converter with a Cross-flow Turbine

Kim¹,

Kim²,

Wata³

et al. 2016

International Journal of Fluid Machinery and Systems

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Almost 70% of the earth is covered by the ocean. Extracting the power available in the ocean using a wave energy converter has been seen to be eco-friendly and renewable. This study focuses on developing a method for analyzing a wave energy device that uses a cross-flow turbine. The motion of the ocean wave causes an internal bi-directional flow of water and the cross-flow turbine is able to rotate in one direction. This device is considered of double-hull structure, and because of this structure, sea water does not come into contact with theturbine. Due to this, the problem of befouling on the turbine is avoided. This study shows specific relationship for wave length and several motions.

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Joji Wata

Numerical and experimental studies on the PTO system of a novel floating wave energy converter

Studies on a low Reynolds number airfoil for small wind turbine applications

Analysis of a pico tubular-type hydro turbine performance by runner blade shape using CFD

Experiments on the magnetic coupling in a small scale counter rotating marine current turbine

Hydraulic Model Test of a Floating Wave Energy Converter with a Cross-flow Turbine

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