Keywords: توربین توربین; Extreme response; Environmental contour method; Renewable energy; Floating wind turbine; Wave energy converter; Tidal turbine;
مقالات ISI توربین توربین (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: توربین توربین; Wave-current interaction; Tidal turbine; Blade design; Leading-edge tubercles; Biomimetic;
Keywords: توربین توربین; Tidal turbine; Current turbine; Propulsion; Ocean current energy generation; Dual-mode propulsion-turbine; Towed turbine alternator;
Keywords: توربین توربین; Renewable energy; Offshore floating wind turbine; Wave energy converter; Tidal turbine; Dynamic response;
Keywords: توربین توربین; Tidal turbine; Support structure; Power capping; CFD;
Keywords: توربین توربین; Tidal turbine; Frequency analysis; Loads; Physical experiment;
Keywords: توربین توربین; Tidal turbine; Wave loads; Blade Element Momentum; Towing experiments; Regular waves;
Keywords: توربین توربین; Extreme response; Fatigue damage; Renewable energy; Floating wind turbine; Wave energy converter; Tidal turbine;
Keywords: توربین توربین; Tidal turbine; Power coefficient; Duct; Farm performance factor;
Keywords: توربین توربین; Horizontal axis tidal turbine; Tidal turbine; Immersed boundary method; Large-eddy simulation; Direct forcing; Environmental turbulence;
Keywords: توربین توربین; Tidal turbine; HATT; Wake; CFD; Turbulence; Actuator-disc;
Keywords: توربین توربین; Tidal turbine; Free stream; Cavitation; Blade element momentum theory; Experimental validation;
Keywords: توربین توربین; Tidal energy; Velocity profile; Tidal turbine; ADCP; Irish Sea;
Keywords: توربین توربین; Tidal turbine; Interaction; Ambient turbulence; Power coefficient; Velocity deficit; Energy production;
Keywords: توربین توربین; 00-01; 99-00; Tidal turbine; CFD; Actuator line method; LES; GPUs;
Keywords: توربین توربین; Particle Image Velocimetry (PIV); Tidal turbine; Blade design; Tubercles; Biomimetic;
Keywords: توربین توربین; Bi-directional; Counter-rotating; Tidal turbine; Genetic optimization;
Keywords: توربین توربین; Tidal turbine; Leading-edge tubercle; Model test; Hydrodynamic performance;
Keywords: توربین توربین; Tidal turbine; Leading-edge tubercle; Foil tests; Computational fluid dynamics (CFD); Lift and drag measurements; Flow visualisations; Particle image velocimetry (PIV);
Keywords: توربین توربین; Tidal turbine; Turbulence; Unsteady hydrodynamics; Model-scale testing;
Keywords: توربین توربین; Tidal turbine; Wake; Actuator disc model; Computational fluid dynamics; ANSYS Fluent
Keywords: توربین توربین; Tidal turbine; Hydrokinetic; Power take-off; Dynamometry; Component efficiency;
Keywords: توربین توربین; Tidal turbine; Blade design; Overspeed; Power regulation; Design methodology; Sensitivity analysis; Blade element momentum theory;
Keywords: توربین توربین; Marine renewable energy; Offshore wind turbine; Wave energy converter; Tidal turbine; Condition-based maintenance; Condition monitoring; Fault diagnosis; Fault prognosis;
Keywords: توربین توربین; Turbulence; Tidal turbine; Blade loads; Condition monitoring; Experiments; Marine energy;
Keywords: توربین توربین; Tidal turbine; Wake; LDV;
Keywords: توربین توربین; Tidal turbine; Tidal fence; Rotor design; Blockage; RANS-BEM;
Keywords: توربین توربین; Tidal turbine; Experimental modelling; Large scale; Wake; Performance; ADV
Keywords: توربین توربین; Unsteady hydrodynamics; Tidal turbine; Dynamic inflow; Added mass; Towing tank testing;
Keywords: توربین توربین; Tidal turbine; Rotor blade; Power and thrust measurements; Uncertainty analysis;
Keywords: توربین توربین; Tidal stream energy; Tidal turbine; Ria de Ortigueira; Estuary; Numerical modelling;
Keywords: توربین توربین; Tidal turbine; Dynamic; Loading; Yaw; Waves;
Keywords: توربین توربین; Marine current turbine; Performance; Wake; Turbulence; Array; Tidal turbine
Added-mass effects on a horizontal-axis tidal turbine using FAST v8
Keywords: توربین توربین; Tidal turbine; Natural frequency; Added mass; Turbulence; Design tool; FAST;
Tidal energy site characterization for marine turbine optimal installation: Case of the Ouessant Island in France
Keywords: توربین توربین; Tidal energy; Marine current velocity; Tidal turbine;
Lcoe evaluation for a tidal kinetic self balancing turbine: Case study and comparison
Keywords: توربین توربین; LCOE; Tidal turbine; Cost of energy; Self balancing; Unical SintEnergy;
A CFD study on the performance of a tidal turbine under various flow and blockage conditions
Keywords: توربین توربین; CFD; Actuator disk; Blockage effects; Tidal turbine;
Discontinuity of lift on a hydrofoil in reversed flow for tidal turbine application
Keywords: توربین توربین; Hydrofoil; Sharp leading edge; Leading edge separation bubble; Reversed flow; Transition; Tidal turbine;
Application of bend-twist coupled blades for horizontal axis tidal turbines
Keywords: توربین توربین; Adaptive composites; Bend-twist coupling; Composite blade design; Fluid-structure interactions; Renewable energy; Tidal turbine
Blade loads on tidal turbines in planar oscillatory flow
Keywords: توربین توربین; Tidal turbine; Unsteady hydrodynamics; Dynamic stall; Added mass; Rotor aerodynamics
The influence of surface gravity waves on marine current turbine performance
Keywords: توربین توربین; Marine current turbine; Tidal turbine; Towing-tank experiments; Surface gravity waves; Fatigue loading; Phase averaging
Realizing the potential of tidal currents and the efficiency of turbine farms in a channel
Keywords: توربین توربین; Tidal stream power; Tidal turbine; Farm efficiency; Power from tidal channels
Prototyping a series of bi-directional horizontal axis tidal turbines for optimum energy conversion
Keywords: توربین توربین; Turbine design and optimization; Turbine aerodynamics and hydrodynamics; Bay of Fundy; HATT; Tidal turbine; Tidal power;
Modelling tidal current turbine wakes using a coupled RANS-BEMT approach as a tool for analysing power capture of arrays of turbines
Keywords: توربین توربین; Tidal turbine; Wake evolution; Computational Fluid Dynamics; Tidal array energy capture; Blade Element Momentum;
Experimentally validated numerical method for the hydrodynamic design of horizontal axis tidal turbines
Keywords: توربین توربین; Tidal energy; Marine current energy; Tidal turbine