Keywords: برداشت انرژی; Macro-fibre composite (MFC); Energy harvesting; Equivalent properties; Finite element modelling; Homogenization;
مقالات ISI برداشت انرژی (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: برداشت انرژی; Energy harvesting; Bi-stable energy harvester; Snap-through; Potential function;
Keywords: برداشت انرژی; Train-induced vibration; Track vibration; Trainload frequency; Energy harvesting;
Keywords: برداشت انرژی; Piezoelectric effect; Energy harvesting; Monostable configuration; Low-frequency vibration; Random excitation;
Keywords: برداشت انرژی; Energy harvesting; Fluid-structure interaction; Space-time finite element method; Monolithic coupling;
Keywords: برداشت انرژی; Electrodynamics; Energy conversion; Finite elements; Magnetism; Energy harvesting;
Keywords: برداشت انرژی; Cognitive radio; Decode-and-forward; Energy harvesting; Outage probability; Optimization;
Keywords: برداشت انرژی; Moving oscillator; Piezoelectric; Functionally graded beam; Energy harvesting; Finite element; Vibration;
Keywords: برداشت انرژی; Energy harvesting; Ocean energy; Hydrodynamics; Flapping hydrofoil; Bluff body; Leading-edge vortex;
Keywords: برداشت انرژی; Nanocrystalline materials; Energy harvesting; Piezoelectric materials; Mechanical property;
Keywords: برداشت انرژی; Hybridized solar cell; Polyaniline; Electrical double-layer pseudocapacitors; Energy harvesting; Rain water;
Keywords: برداشت انرژی; Biofuel cell; Energy harvesting; Bilirubin oxidase; Self-powered glucose biosensing; Electrochemical sensor;
Keywords: برداشت انرژی; Dielectric; Pyroelectricity; Piezoelectricity; Nanocomposites; PMN-PT; Energy harvesting;
Keywords: برداشت انرژی; All-organic MEMS; Nanocomposite; Electrostriction; Energy harvesting; Printing process;
Keywords: برداشت انرژی; Bubble motion active transducer; Multiple-electrode BMAT; Energy harvesting; Contact electrification;
Keywords: برداشت انرژی; Energy harvesting; Aeroelasticity; Galloping; Vortex-induced-vibration; Wind tunnel; Modelling;
Keywords: برداشت انرژی; Counter electrodes; Bifacial solar cells; Carbon quantum dots; Energy harvesting; Dye-sensitized solar cells;
Keywords: برداشت انرژی; Energy harvesting; Full-duplex relay; Power splitter; Direct link; Outage probability;
Keywords: برداشت انرژی; Microbial fuel cell (MFC); Bio-energy; Efficiency; Energy harvesting;
Keywords: برداشت انرژی; Photovoltaics; Thermal radiation; Energy harvesting; Quantum dots; Multi-step photon absorption;
Keywords: برداشت انرژی; Additive manufacturing; 3D printing; Energy harvesting; Printed electronics; Triboelectricity; Order of electrification;
Keywords: برداشت انرژی; Active color filters; Chromatic electrodes; Graphene; Aluminum; Energy harvesting; Organic solar cells;
Keywords: برداشت انرژی; Energy harvesting; Sensor network; Performance evaluation;
Keywords: برداشت انرژی; Automation; Dairy cows; Energy harvesting; Health monitoring systems; Inductive charging; On-body sensors; Wireless power transfer; Wireless sensor networks;
Keywords: برداشت انرژی; Thermoelectric generation; Waste heat recovery; Energy harvesting; Energy conversion; Automotive thermoelectric generator (ATEG);
Keywords: برداشت انرژی; Electromagnetic; Energy harvesting; Mechanical motion rectifier; Railroad; Railway; Vibration;
Keywords: برداشت انرژی; Energy harvesting; Smart grid; Wireless sensor networks;
Keywords: برداشت انرژی; Multi-antenna cognitive radio; Cooperative spectrum sensing; Wireless power transfer; Energy harvesting; Spectrum efficiency;
Keywords: برداشت انرژی; Graphene aerogel; Phase change material; Seebeck effect; Energy harvesting;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric; Intelligent wireless sensors; Selftuning;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric material; Damping model; Electromechanical coupling;
Keywords: برداشت انرژی; Triboelectric nanogenerator; Conductive polyurethane foam; Energy harvesting; Bennet doubler conditioning circuit;
Keywords: برداشت انرژی; Nanofluidic energy generator; Reverse electrodialysis; Ion concentration gradient; Self-assembled nanoparticle; Energy harvesting;
Keywords: برداشت انرژی; Neutralization batteries; Energy harvesting; Water splitting; Oxygen reduction reaction; Proton electro-insertion;
Keywords: برداشت انرژی; Piezoelectric; Triboelectric; Energy harvesting; Energy conversion; Low frequency; Wide bandwidth;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric; Bridge transducer; Asphalt pavement; Laboratory testing; Numerical simulation;
Keywords: برداشت انرژی; Energy harvesting; Broad bandwidth; Normalized power density; Electrets; Random vibration source; Wireless sensor network;
Keywords: برداشت انرژی; Advanced composites; Smart materials; Piezoelectric embedding; Electronics embedding; Energy harvesting; Wireless sensor network; Structural health monitoring;
Keywords: برداشت انرژی; Tidal energy; Oscillating foil; Time-varying freestream; Energy harvesting; Hydrodynamic;
Keywords: برداشت انرژی; Energy harvesting; Piezoelectric; Ocean wave; Buoy;
Keywords: برداشت انرژی; Energy Harvesting; Thermoelectric module; PSO algorithm; Genetic algorithm; Simulated annealing; System identification; Nonlinear LQG controller; Thermal controller for PCR cycling; Parameter estimation; Optimization;
Keywords: برداشت انرژی; Energy harvesting; Triboelectric Nanogenerators; Universal model; Distance-dependent electric field;
Keywords: برداشت انرژی; Energy harvesting; Monostable; Frequency response; Harmonic balance; Multi-scale;
Keywords: برداشت انرژی; Piezoelectric; Energy harvesting; Bend-twist coupling; Lumped-parameter model; Composite;
Keywords: برداشت انرژی; Membrane electrode assembly; Reverse electrodialysis; Energy harvesting; Salinity gradient;
Keywords: برداشت انرژی; Electromagnetic; Energy harvesting; Energy recovery; Mechanical motion rectifier; Railroad; Railway;
Keywords: برداشت انرژی; Dynamic model; Electrical generation; Energy harvesting; Pressure fluctuation; Magnetic spring structure;
Keywords: برداشت انرژی; Wireless nanosensor networks; Terahertz band; Energy harvesting; Nanodevice; Human-body scenario;
Keywords: برداشت انرژی; Energy harvesting; Random vibrations; Smart structures; Structural monitoring;
Keywords: برداشت انرژی; Flow-induced vibration; Pendulum; Vortex-induced vibration; Wake-induced galloping; Energy harvesting;