Keywords: مبدل انرژی موج; Anti-motion device; Very large floating structure; Hydroelastic response; Energy recovery; Wave energy converter; Irregular wave;
مقالات ISI مبدل انرژی موج (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: مبدل انرژی موج; Extreme response; Environmental contour method; Renewable energy; Floating wind turbine; Wave energy converter; Tidal turbine;
Keywords: مبدل انرژی موج; Wave energy converter; WEC; Vertical axis; Unidirectional; Rotor;
Keywords: مبدل انرژی موج; Monopile; Wind turbine; Wave energy converter; Hydrodynamic response; Model tests;
Keywords: مبدل انرژی موج; Wave energy; Wave Energy Converter; Off-grid system; Renewable energy potential; Small islands; HOMER;
Keywords: مبدل انرژی موج; Renewable energy; Offshore floating wind turbine; Wave energy converter; Tidal turbine; Dynamic response;
Keywords: مبدل انرژی موج; Wave power; Desalination; Wave energy converter; Reverse osmosis; Freshwater; Water scarcity;
Keywords: مبدل انرژی موج; Wave energy converter; System identification; Extended Kalman filter; Dynamic models;
Keywords: مبدل انرژی موج; Optimal control; Wave energy converter; Phasor transform; Energy maximisation; Moment domain;
Keywords: مبدل انرژی موج; Wave energy converter; Wave energy; Parametric pendulum; Power take-off; Reduced gravity; Energy harvesting; Mathieu equation; Electromagnetic generator;
Keywords: مبدل انرژی موج; Wave energy; Wave energy converter; Predictive control; Robust optimal control; Permanent magnet linear generator; Local model;
Keywords: مبدل انرژی موج; Wave force prediction; Extended Kalman filter; Adaptive Kalman filter; Model predictive control; Wave energy converter;
Keywords: مبدل انرژی موج; Wave energy converter; Dual-resonance; Built-in power take-off system; Viscous correction; Motion response; Capture width ratio;
Keywords: مبدل انرژی موج; Wave energy converter; Mixed Eulerian-Lagrangian; Acceleration potential; Numerical wave tank; Oscillating cylinder;
Keywords: مبدل انرژی موج; Wave energy converter; Three-tether mooring; Techno-economic assessment; Cost-related metrics; Power absorption;
Keywords: مبدل انرژی موج; Wave energy converter; Hybrid energy storage system; Energy management control system; Dynamic rate limiter; State of charge;
Keywords: مبدل انرژی موج; Cable winding; Cable feeder tool; Robot automation; Stator assembly; Wave energy converter;
Keywords: مبدل انرژی موج; Wave energy converter; Ocean wave energy conversion; Wave-to-wire model; Control strategies; Power take-off; Hydrodynamic control;
Keywords: مبدل انرژی موج; Computational fluid dynamics; Volume of fluid; Submerged sphere; Wave energy converter;
Keywords: مبدل انرژی موج; Wave energy; Wave energy converter; WEC; Point absorber; Non-hydrostatic; SWASH;
Keywords: مبدل انرژی موج; Variable guide-vane; Vane wheel; Wave energy converter; Capture efficiency;
Keywords: مبدل انرژی موج; Cable winding; Stator assembly; Robot automation; Flexible production; Powerformer; Wave energy converter;
Keywords: مبدل انرژی موج; Offshore wind turbine; Wave energy converter; Tidal energy converter; Ocean renewable energy; Optimized configuration; Open source;
Keywords: مبدل انرژی موج; Wave energy converter; Numerical modeling; Potential free-surface flow; Weak-Scatterer; Energy performance;
Keywords: مبدل انرژی موج; Wave energy converter; Wave energy control; Energy absorption; Neural network; Deep machine learning; Wave force prediction;
Keywords: مبدل انرژی موج; Extreme response; Fatigue damage; Renewable energy; Floating wind turbine; Wave energy converter; Tidal turbine;
Keywords: مبدل انرژی موج; Wave energy converter; Power take-off; Oil-hydraulics; Optimization; Genetic algorithms; Neuro-fuzzy;
Keywords: مبدل انرژی موج; Geometry optimization; Wave energy converter; Statistical analyses; Point absorber; DOE method;
Keywords: مبدل انرژی موج; Wave energy converter; Pendulor; Estimated model; Water tank test; Integrated Design;
Keywords: مبدل انرژی موج; Wave energy converter; Wave energy array; Farm layout; Wave interaction; Inter-device distance;
Keywords: مبدل انرژی موج; Wave energy converter; Overtopping; Multi-stage; Slot width;
Keywords: مبدل انرژی موج; Wave energy; Wave energy converter; Electrical control; Mechanical control; Power electronic circuits;
Keywords: مبدل انرژی موج; Wave energy converter; Two-body system; Constraint; Experiment; Power efficiency;
Keywords: مبدل انرژی موج; Hydrostatic transmission; Wave energy converter; Self-tuning; Floating buoy; Power-take-off mechanism;
Keywords: مبدل انرژی موج; Wave energy converter; Two-body system; Dynamics; Suboptimal design; Optimal design;
Keywords: مبدل انرژی موج; Wave energy converter; Power; Modular Flap;
Keywords: مبدل انرژی موج; Wave energy converter; Power takeoff; Mechanical motion rectifier; Renewable energy;
Keywords: مبدل انرژی موج; Wave energy converter; Wave energy extraction; Wave farms; Spectral wave modelling;
Keywords: مبدل انرژی موج; Wave energy converter; Fluid-solid interaction; Volume of fluid; Immersed boundary; Wavebody interaction; Computational fluid dynamics;
Keywords: مبدل انرژی موج; Buckling; Snap-through force; Finite element analysis; Wave energy converter; Deformable structure; Diaphragm;
Keywords: مبدل انرژی موج; Renewable energy; Wave energy converter; Pressure differential; Numerical model; Optimization; Energy performance;
Keywords: مبدل انرژی موج; Wave energy converter; Oscillating water column; Numerical wave tank; Hydrodynamic efficiency; Sequential optimization;
Keywords: مبدل انرژی موج; Dual-buoy; Wave energy converter; Experiment; Intentional mismatching; Relative heave motion; Resonance;
Keywords: مبدل انرژی موج; Wave energy converter; Submerged point absorber; Floating point absorber; Power generation;
Keywords: مبدل انرژی موج; Wave energy converter; mWave; Numerical modelling; Power matrix; Membrane; Submerged;
Keywords: مبدل انرژی موج; Underwater acoustics; Acoustic Emission; Condition monitoring; Health monitoring; Marine Renewable Energy; Wave Energy Converter;
Keywords: مبدل انرژی موج; Wave energy converter; Extreme condition modeling; Computational fluid dynamics; Design loads;
Keywords: مبدل انرژی موج; Wave energy converter; Onshore generation; Multibody simulation; Four-bar mechanism;
Keywords: مبدل انرژی موج; Decision making; Renewable energy; Wave energy converter; Bayesian network; Influence diagram; Expected utility;
Keywords: مبدل انرژی موج; Hydrodynamic; Wave energy converter; Articulated raft; Optimisation; Mathematical model;