Keywords: خاموش شدن برق; Marine renewable energy; Tidal energy converter; Power take-off; Fluid-structure interaction; Slender body theory;
مقالات ISI خاموش شدن برق (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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.
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: خاموش شدن برق; BNF; biological nitrogen fixation; DT; double-till; KC; kura clover; MB; microbial biomass; NT; no-till; PMN; potentially mineralizable nitrogen; POXC; permanganate oxidizable carbon; PTO; power take-off; SOM; soil organic matter; ST; shank-till; TN; tota
Keywords: خاموش شدن برق; Marine renewable energy; Tidal energy converter; Power take-off; Fluid-structure interaction; Flume tank;
Keywords: خاموش شدن برق; WEC; Power take-off; Numerical simulation; Hydrodynamics; Damping; Efficiency;
Keywords: خاموش شدن برق; Wave energy converter; Wave energy; Parametric pendulum; Power take-off; Reduced gravity; Energy harvesting; Mathieu equation; Electromagnetic generator;
Keywords: خاموش شدن برق; Wave energy converter; Ocean wave energy conversion; Wave-to-wire model; Control strategies; Power take-off; Hydrodynamic control;
Keywords: خاموش شدن برق; Wave energy; Wave-to-wire modelling; CFD; Numerical Wave Tank; Power take-off; High-fidelity;
Keywords: خاموش شدن برق; Wave energy converter; Power take-off; Oil-hydraulics; Optimization; Genetic algorithms; Neuro-fuzzy;
Keywords: خاموش شدن برق; Oscillating wave surge converter; Slamming; Power take-off; Fictitious domain method; Wave energy;
Keywords: خاموش شدن برق; MEMS; micro-electro mechanical system; CT; computed tomography; PTO; power take-off; Dry-seeded rice; Vibratory roller; Leakage prevention; Vibration acceleration; Soil structure; Micro-electro mechanical system;
Keywords: خاموش شدن برق; Oscillating-body wave energy converter; Power take-off; Bistable impulse mechanism; Coupled dynamical system; Power capture ratio;
Keywords: خاموش شدن برق; Wave energy converter; Power take-off; Electrical drives; Hydraulic transformer; Wave-to-wire model;
Keywords: خاموش شدن برق; Wave energy; Heaving buoy; Power take-off;
Keywords: خاموش شدن برق; Wave energy; Oscillating-water-column; Spar-buoy; Power take-off; Control; Biradial turbine;
Keywords: خاموش شدن برق; Oscillating wave surge converter; Computational fluid dynamics; Wave excitation; Wave energy converter; Control theory; Resonance; Power take-off;
Keywords: خاموش شدن برق; Wave energy converter; Power take-off; Electrical drives; Hydraulic transformer; Neuro-Fuzzy; Fuzzy logic control;
Keywords: خاموش شدن برق; Tidal turbine; Hydrokinetic; Power take-off; Dynamometry; Component efficiency;
Keywords: خاموش شدن برق; Wave power; Mechatronic design; Control; Power Take-Off; Testing facility;
Keywords: خاموش شدن برق; Wave energy; Wave energy converter; Permanent magnet linear generator; Model free control; Power take-off;
Keywords: خاموش شدن برق; Wave energy converter; Power take-off; WEC control; WEC optimum; Latching control; Interaction of wave and structure;
Keywords: خاموش شدن برق; Wave energy conversion; Model testing; Frequency domain; Power take-off; Self-reacting; Point absorbers
Keywords: خاموش شدن برق; Physical modelling; Similarity law; Dimensional analysis; Wave energy converter; Power take-off; Wave-structure interaction
Preliminary laboratorial determination of the REEFS novel wave energy converter power output
Keywords: خاموش شدن برق; Novel multifunctional wave energy converter; Power output laboratorial evaluation; Differential pressure hydraulic power meter; Wave breaking; Submerged breakwater; Physical modelling; DPHPM; Differential Pressure Hydraulic Power Meter; LHWRE; Laboratory
Investigating of Helmholtz wave energy converter
Keywords: خاموش شدن برق; Helmholtz resonance mode; Wave energy converter; Power take-off; Particle image velocimetry (PIV); Wave power absorption;
Experimental results on power absorption from a wave energy converter at the Lysekil wave energy research site
Keywords: خاموش شدن برق; Wave energy conversion; Offshore experiments; Linear generator; Power take-off; System optimization; Power absorption;
A geometric tool for the analysis of position and force constraints in wave energy converters
Keywords: خاموش شدن برق; Wave energy; Power take-off; Constraints; Discretization
Reynolds-Averaged Navier–Stokes simulation of the heave performance of a two-body floating-point absorber wave energy system
Keywords: خاموش شدن برق; Wave energy conversion; Heave; Computational Fluid Dynamics; Reynolds-averaged Navier–Stokes equations; Point absorber; Power take-off
Offshore wave power measurements-A review
Keywords: خاموش شدن برق; AC; alternating current; AWAC; acoustic wave and current sensor; AWS; Archimedes wave swing; BBDB; backward bent duct buoy; DC; direct current; GSM; global system for mobile communications; IPS; interproject service; JAMSTEC; Japan marine science and tech
Virtual damper-spring system for VIV experiments and hydrokinetic energy conversion
Keywords: خاموش شدن برق; Vortex induced vibrations; VIV; Virtual damper-spring; VIVACE converter; System identification; Power take-off;
Hydrodynamic simulation of a floating wave energy converter by a U-tube rig for power take-off testing
Keywords: خاموش شدن برق; Wave energy; Oscillating body; Model testing; U-tube; Power take-off
Wave energy utilization: A review of the technologies
Keywords: خاموش شدن برق; Wave energy; Wave power; Renewable energy; Equipment; Power take-off; Review
Experimental results of rectification and filtration from an offshore wave energy system
Keywords: خاموش شدن برق; Wave energy conversion; Power take-off; Electric system; Offshore experiments
Phase control through load control of oscillating-body wave energy converters with hydraulic PTO system
Keywords: خاموش شدن برق; Phase control; Point absorber; Power take-off; Wave energy