The poster presents a computational platform for the analysis and design of hydrokinetic turbine for the exploitation of the renewable energy in marine and river currents. Digital tools are integrated into a computational suite including: (1) turbine geometry 3D modeller and automated mesh generation, (2) variable-fidelity computaitonal hydrodynamics models, (3) turbine hydrodynamic design and prediction of energy output in a real marine or river site. The tools have been in-house developed from a two-decade experience in the marine propulsion sector, and have been extensively validated for applications to marine propulsion and renewable energy systems. A distinguishing feature of the computational suite platform is the ongoing activity aimed at creating an open access to the platform tools by means of an online platform, named "OceanusLink".
Tidal Tools - A digital Modelling Environment for the Hydrodynamic Analysis and Design of Tidal Turbines
Francesco Salvatore;Danilo Calcagni;Pedram Ghorbanpour;Mohammad Rafiei;Zohreh Sarichloo
2022
Abstract
The poster presents a computational platform for the analysis and design of hydrokinetic turbine for the exploitation of the renewable energy in marine and river currents. Digital tools are integrated into a computational suite including: (1) turbine geometry 3D modeller and automated mesh generation, (2) variable-fidelity computaitonal hydrodynamics models, (3) turbine hydrodynamic design and prediction of energy output in a real marine or river site. The tools have been in-house developed from a two-decade experience in the marine propulsion sector, and have been extensively validated for applications to marine propulsion and renewable energy systems. A distinguishing feature of the computational suite platform is the ongoing activity aimed at creating an open access to the platform tools by means of an online platform, named "OceanusLink".File | Dimensione | Formato | |
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prod_482939-doc_198878.pdf
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Descrizione: Tidal Tools - A digital Modelling Environment for the Hydrodynamic Analysis and Design of Tidal Turbines
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