Wells turbine: Difference between revisions
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==See also== |
==See also== |
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*[[Siadar Wave Energy Project]] |
*[[Siadar Wave Energy Project]] |
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See this video (OWC simulating) [http://sites.google.com/site/sabaa/Home/OWCvideo1.mp4?attredirects=0&d=1 video1] [http://sites.google.com/site/sabaa/Home/OWCvideo2.mp4?attredirects=0&d=1 video2] |
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== External links == |
== External links == |
Revision as of 09:55, 15 August 2010
The Wells turbine is a low-pressure air turbine that rotates continuously in one direction in spite of the direction of the air flow. Its blades feature a symmetrical airfoil with its plane of symmetry in the plane of rotation and perpendicular to the air stream.
It was developed for use in oscillating-water-column wave power plants, in which a rising and falling water surface moving in an air compression chamber produces an oscillating air current. The use of this bidirectional turbine avoids the need to rectify the air stream by delicate and expensive check valve systems.
Its efficiency is lower than that of a turbine with constant air stream direction and asymmetric airfoil. One reason for the lower efficiency is that symmetric airfoils have a higher drag coefficient than asymmetric ones, even under optimal conditions. Also, in the Wells turbine, the symmetric airfoil is used with a high angle of attack (i.e., low blade speed / air speed ratio), as it occurs during air velocity maxima in volatile flow. A high angle of attack causes a condition known as "stall" in which the airfoil loses lift. The efficiency of the Wells turbine in oscillating flow reaches values between 0.4 and 0.7.
This simple but ingenious device was developed by Prof. Alan Wells of Queen's University Belfast in the late 1970s.
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Another solution of the problem of stream direction independent turbine is the Darrieus wind turbine (Darrieus rotor).