CFD Investigation of Performance for Marine Current Turbine Based on RANS Simulations

This paper presents the 3D CFD computation of an 800mm diameter model of MCT based on structured grids, RANS equations and turbulence model. A time-accurate, upwind, finite volume method for computing compressible flows on structured grids is presented. Numerical predictions for a series of blade pi...

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Veröffentlicht in:	Key engineering materials 2010-01, Vol.419-420, p.309-312
Hauptverfasser:	Fan, Rui Jun, Chaplin, J.R., Yang, Guang Jun
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Sprache:	eng
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creator	Fan, Rui Jun Chaplin, J.R. Yang, Guang Jun
description	This paper presents the 3D CFD computation of an 800mm diameter model of MCT based on structured grids, RANS equations and turbulence model. A time-accurate, upwind, finite volume method for computing compressible flows on structured grids is presented. Numerical predictions for a series of blade pitch angle settings and speeds are compared with the other simulation results of commercial software, verified by the experimental measurement of the model. Such results provide confidence in using the CFD computation tools to develop the forthcoming design of MCT.
doi_str_mv	10.4028/www.scientific.net/KEM.419-420.309
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title	CFD Investigation of Performance for Marine Current Turbine Based on RANS Simulations
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