A CFD investigation of a variable-pitch vertical axis hydrokinetic turbine with incorporated flow acceleration
Mannion, Brian ; McCormack, Vincent ; Leen, Sean B. ; Nash, Stephen
Mannion, Brian
McCormack, Vincent
Leen, Sean B.
Nash, Stephen
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Publication Date
2019-02-18
Type
Article
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Citation
Mannion, Brian, McCormack, Vincent, Leen, Seán B., & Nash, Stephen. (2019). A CFD investigation of a variable-pitch vertical axis hydrokinetic turbine with incorporated flow acceleration. Journal of Ocean Engineering and Marine Energy, 5(1), 21-39. doi: 10.1007/s40722-019-00130-1
Abstract
This paper presents the numerical modelling of a novel vertical axis tidal turbine that incorporates localised flow acceleration and variable-pitch blades. The focus is to develop a computational fluid dynamics model of a 1:20 scale model of the device using ANSYS® Fluent®. A nested sliding mesh technique is presented, using an outer sliding mesh to model the turbine and additional inner sliding meshes used for each of the six blades. The turbine sliding mesh is embedded in an outer static domain which includes the flow accelerating bluff body. Modelled power performance and velocity data are compared with experimental results obtained from scale model tests in a recirculating flume. The predicted power curves show general agreement with the measured data; the relative difference in maximum performance coefficient for example, is just 5.7%. The model also accurately reproduces measured flows downstream of the turbine. The verified and experimentally validated model is subsequently used to investigate the effects of the variable-pitching and number of blades on device performance.
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Publisher
Springer
Publisher DOI
10.1007/s40722-019-00130-1
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Attribution-NonCommercial-NoDerivs 3.0 Ireland