In this Thesis the CFD approach, combined with an advanced model calibration is successfully applied to the numerical predictions of non-cavitating and cavitating f1ow around hydrofoils and marine model scale propellers. The simulations are carried out with a commercial CFD solver and the influence of the mesh type, as well as of the turbulence and cavitation modelling, on the accuracy of the numerical predictions, is evaluated
Predictions of non-cavitating and cavitating flow on hydrofoils and marine propellers by CFD and advanced model calibration - Udine. , 2012 May 10. 23. ciclo
Predictions of non-cavitating and cavitating flow on hydrofoils and marine propellers by CFD and advanced model calibration
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2012-05-10
Abstract
In this Thesis the CFD approach, combined with an advanced model calibration is successfully applied to the numerical predictions of non-cavitating and cavitating f1ow around hydrofoils and marine model scale propellers. The simulations are carried out with a commercial CFD solver and the influence of the mesh type, as well as of the turbulence and cavitation modelling, on the accuracy of the numerical predictions, is evaluatedFile in questo prodotto:
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10990_64_Morgut_Mitja_PhD.pdf
Open Access dal 10/11/2013
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Tesi di dottorato
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