Keywords: مولد ترموالکتریک; Thermoelectric generator; Screening optimization method; Parameterization; Performance; Optimization;
مقالات ISI مولد ترموالکتریک (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: مولد ترموالکتریک; Thermoelectric generator; TEG optimization; Concentrated solar power;
Keywords: مولد ترموالکتریک; Small-bundled single-walled carbon nanotube; Small conjugated molecules; Pyrene; Nanocomposite; Thermoelectric property; Thermoelectric generator;
Keywords: مولد ترموالکتریک; Spectrum splitting; Photovoltaic cell; Thermoelectric generator; Performance optimization; Maximum efficiency; Parameter selection;
Keywords: مولد ترموالکتریک; PEDOT:PSS; Composite; Palm-power; Thermoelectric generator;
Keywords: مولد ترموالکتریک; Energy recovery; Thermoelectric generator; Gasoline; Diesel; Waste thermal energy;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Peltier effect; Equivalent thermal conductivity; Output power; Efficiency;
Keywords: مولد ترموالکتریک; Thermoelectric oxides; Thermoelectric generator; Multilayer,;
Keywords: مولد ترموالکتریک; Microcombustor; Thermoelectric generator; Flame stability; Conversion efficiency; Porous media;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Catalytic combustor; Thermoelectric; Device;
Keywords: مولد ترموالکتریک; Wearable electronics; Thermoelectric generator; Body heat; Power; Motion detection; Accelerometer;
Keywords: مولد ترموالکتریک; Compatibility factor; Efficiency; Thermoelectric generator; Selective laser melting;
Keywords: مولد ترموالکتریک; Exergy analysis; Thermoelectric generator; Wet flue gas; Gas humidification;
Keywords: مولد ترموالکتریک; Concentrated photovoltaic cell; Thermoelectric generator; Hybrid module; Solar energy; Transient model;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Large-area TEG; Thin-film; In-plane heat transfer; FEM simulations; Computational TEG design;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Performance; Thermal losses; Energy conversion efficiency; Effective properties;
Keywords: مولد ترموالکتریک; Waste heat recovery; Diesel engine; Exhaust gas; Heat exchanger; Exergy; Thermoelectric generator;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Solar energy; Output power; Performance enhancement; Segmented materials; Asymmetrical legs;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Micro combustors; Flame stability; Conversion efficiency;
Keywords: مولد ترموالکتریک; Aero-engine; Energy Recuperation; Fuel Savings; Thermoelectric Generator; Waste Heat Recovery;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Low level thermal conversion; Heat exchanger; Pressure drop; Efficiencies;
Keywords: مولد ترموالکتریک; Exhaust; Thermoelectric generator; Media fluid; Output power; Module area; Temperature distribution;
Keywords: مولد ترموالکتریک; Thermoelectric module; Impedance spectroscopy; Thermoelectric characterisation; Thermoelectric generator; Thermoelectric cooling;
Keywords: مولد ترموالکتریک; Skutterudite; Thermoelectric generator; Light-duty vehicles; Fuel economy; Integration effects; Waste heat recovery;
Keywords: مولد ترموالکتریک; Photovoltaic module; Thermoelectric generator; Hybrid system; Temperature distribution;
Keywords: مولد ترموالکتریک; Module-based; Dynamic model; Thermoelectric generator; Automotive waste heat recovery;
Keywords: مولد ترموالکتریک; Energy recovery; Thermoelectric generator; Computational fluid dynamics; Diesel; Waste thermal energy;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Output power and efficiency; Heat pipes; Optimization; Multi-objective genetic algorithm (MOGA); Impedance matching;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Passive heat dissipation; Input heat rate; Finned heat sink; Filling ratio;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Internal combustion engine; Waste heat recovery; Pulsating flow; Heat transfer;
Keywords: مولد ترموالکتریک; Thermoelectric generator; PEMFC; NSGA-II genetic algorithm; Optimization; 1-D thermodynamics;
Keywords: مولد ترموالکتریک; Solar energy; Hybrid; Thermoelectric generator; PV cell; Distillation;
Keywords: مولد ترموالکتریک; Ammonia; Hydrogen; Electrolyzer; Energy; Exergy; Efficiency; Thermoelectric generator; Internal combustion engine;
Keywords: مولد ترموالکتریک; Energy harvesting; Thermal energy; Composting process; Thermoelectric generator; Heat recovery;
Keywords: مولد ترموالکتریک; Finite element method (FEM); Ground heat exchanger (GHE) System; Offshore wind turbine (OWT) monopile; Thermoelectric generator;
Keywords: مولد ترموالکتریک; Phase change material; Thermoelectric generator; Thermal conductivity enhancement techniques; Convection heat transfer; Seebeck effect and waste heat recovery; Electric vehicles;
Keywords: مولد ترموالکتریک; Concentrated photovoltaic; Thermoelectric generator; Solar simulator; Lambert W function; Newton-raphson algorithm;
Keywords: مولد ترموالکتریک; ATEG; Thermoelectric generator; Fuel economy; Backpressure; Simulation; FEM;
Keywords: مولد ترموالکتریک; Solar collector; PEME; Multi-objective optimization; TEG; PTSC; Thermoelectric generator;
Keywords: مولد ترموالکتریک; Bi2Te3; Bismuth Telluride; BSST; Thermoelectric material manufacturer; DC; Direct Current; IAV; Ingenieurgesellschaft Auto und Verkehr; JPL; Jet Propulsion Laboratory; MMRTG; Multi-Mission Radioisotope Thermoelectric Generator; NASA; National Aeronautics
Keywords: مولد ترموالکتریک; Thermoelectric generator; Electricity generation; Hypersonic vehicle; Single-stage; Two-stage; Silicon germanium;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Thermoelectric module; Heat exchanger; Seebeck effect;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Phase change material; Thermal management; Experimental investigation;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Thermoelectric module; Thermal contact resistance; Loading pressure; Interface material;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Single-stage; Multi-stage; Electricity generation; Hypersonic vehicles; Large temperature difference;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Marine application; Waste heat recovery; Device level optimization;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Hybrid electric vehicle; Fuel savings; Emission reduction; Skutterudites;
Keywords: مولد ترموالکتریک; Kalina cycle; Thermoelectric generator; Geothermal energy; Power generation enhancement; Thermodynamic analysis; Economic analysis;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Computational analysis; Performance; Resistance; Efficiency; Effectiveness;
Keywords: مولد ترموالکتریک; Thermoelectric generator; Numerical simulation; Multi-objective optimization; Genetic algorithm;