Keywords: لوله های گرما; Biomass gasification; Solid oxide fuel cell; Heat pipes; Cogeneration; Thermodynamic analysis;
مقالات ISI لوله های گرما (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: لوله های گرما; PEM fuel cell; Cooling; Metal hydride hydrogen storage; heat pipes; Thermal management;
Keywords: لوله های گرما; Electrical vehicle; Automotive; Battery thermal management; Heat pipes; Cold plate;
Keywords: لوله های گرما; Marangoni convection; Buoyancy-Marangoni convection; Multiphase flows; Two-phase flows; Phase change; Free-surface flows; Interfacial flows; Binary fluids; Multi-component transport; Surface tension effects; Thermocapillarity; Solutocapillarity; Flow stab
Keywords: لوله های گرما; LHP; loop heat pipe; SFC; specific fuel consumption; LHPIPS; Loop heat pipe ice protection system; CIPS; conventional ice protection system; DCCLHP; double compensation chamber loop heat pipe; UAV; unmanned aerial vehicle; CC; compensation chamber; 3WV; t
Keywords: لوله های گرما; Thermoelectric generator; Output power and efficiency; Heat pipes; Optimization; Multi-objective genetic algorithm (MOGA); Impedance matching;
Keywords: لوله های گرما; Phase change materials; Magnetic refrigeration; Thermoelectric and thermo-acoustic battery thermal management systems; Heat pipes; Cold plates; Solid electrolyte interphase film;
Keywords: لوله های گرما; Heat pipes; Theoretical approach; Numerical model; Heat transfer; Energy efficiency; Emissions reduction;
Keywords: لوله های گرما; Thermoelectric generators; heat pipes; exhaust heat; car engine; gas turbine;
Keywords: لوله های گرما; Heat pipes; Turbine disk; Transient analysis; Finite element;
Keywords: لوله های گرما; Thermal Energy Storage (TES); Phase Change Material (PCM); Charging (melting); Discharging (crystallization); Thermal conductivity; Heat pipes;
Keywords: لوله های گرما; Infra-Red; Surface tension; Evaporation; Drops; Heat pipes; Marangoni convection;
Keywords: لوله های گرما; Thermoelectric power generation; Heat enhancement; Exhaust heat; Temperature-dependent material properties; Heat pipes; Heat exchanger;
Keywords: لوله های گرما; Automotive; Power generation; Thermoelectric generator; Heat pipes;
Keywords: لوله های گرما; Low temperature pyrolysis; Heat pipes; Waste treatment;
Keywords: لوله های گرما; Heat pipes; Heat pipe heat exchangers; Wicks; Thermosyphon;
Keywords: لوله های گرما; Heat pipes; Arterial heat pipes; Meniscus coalescence; Capillary limit
Keywords: لوله های گرما; Concentrating solar power; Heat pipes; Quaternary bromides; Density; Surface tension;
Keywords: لوله های گرما; adsorption; heat pipes; thermal capacity; energy density;
Keywords: لوله های گرما; Thermoelectric power generator (TEG); Thermoelectric cells; Heat pipes; Waste heat; Industrial heat recovery; Passive heat transfer
Keywords: لوله های گرما; Solid Oxide Fuel Cell; Gas Turbine; Biomass gasification; Heat pipes; Exergy;
Keywords: لوله های گرما; Waste heat recovery; Heat pipes; Thermoelectric generators;
Keywords: لوله های گرما; Thermal storage-high temperature; Heat pipes; Phase change material;
Keywords: لوله های گرما; Meniscus; Capillary rise; Heat pipes; Imbibition; Lucas-Washburn equation;
Keywords: لوله های گرما; Thermoelectric power generator (TEG); Thermoelectric cells; Heat pipes; Waste heat; Industrial heat recovery; Passive heat transfer
Keywords: لوله های گرما; Thermoelectric generator; Phase change; Desalination; Heat pipes; Low grade heat; Passive cooling;
Keywords: لوله های گرما; Heat pipes; Data centres; Free cooling; Heat exchangers; Energy efficiency;
Keywords: لوله های گرما; Heat recovery; Heat pipes; Thermosyphons; Effectiveness; Pressure drop;
Keywords: لوله های گرما; Heat pipes; Thermal performance; Magnetic nanofluids; Micro wicksCaloducs; Performance thermique; Nanofluides magnétiques; Micro-mèches
Keywords: لوله های گرما; Exhaust heat recovery; Heat pipes; Thermoelectric cells
Keywords: لوله های گرما; Fins; Heat pipes; Phase change material; Thermal storage; Solidification;
Keywords: لوله های گرما; Thermoelectric generators; Passive cooling; Heat pipes; Water heating;
Keywords: لوله های گرما; Concentrating solar power; Thermal energy storage; Heat pipes; System design; System optimization; Computational modeling
Keywords: لوله های گرما; Concentrating solar power; Thermal energy storage; Encapsulated phase change material; Heat pipes; System analysis; Supercritical carbon-dioxide cycle;
Keywords: لوله های گرما; Porous media; Effective thermal conductivity; Heat pipes; Sinterization;
Keywords: لوله های گرما; Prosthesis cooling; Lower-limb prosthesis; Adjustable thermal resistance; Phase change materials; Heat pipes; Thermal management
Keywords: لوله های گرما; Server electronics; Air cooling; Liquid cooling; Heat pipes; Pool boiling; Spray cooling; Jet impingement; Heat transfer
1D and Q2D thermal resistance analysis of micro channel structure and flat plate heat pipe
Keywords: لوله های گرما; Thermal resistance; Micro channels; Heat pipes; Boiling; Electronics cooling;
Design and operation of a 300 kWth indirectly heated carbonate looping pilot plant
Keywords: لوله های گرما; CO2 capture; Calcium looping; Carbonate looping; Pilot plant; Heat pipes;
Thermal coupling of PEM fuel cell and metal hydride hydrogen storage using heat pipes
Keywords: لوله های گرما; PEM fuel cell; Metal hydride hydrogen storage; Heat pipes; Passive cooling; Thermal management;
SLIMM-Scalable LIquid Metal cooled small Modular Reactor: Preliminary design and performance analyses
Keywords: لوله های گرما; Small modular reactors; Uranium nitride; Beryllium oxide; Heat pipes; Helically coiled-tubes heat exchanger; Natural circulation of liquid sodium and air; Thermoelectric auxiliary power;
Numerical analysis of a screen mesh wick heat pipe with Cu/water nanofluid
Keywords: لوله های گرما; Heat pipes; Nanofluids; Numerical analysis; Capillary pressure; Pore size; Dryout;
The role of heat pipes in intensified unit operations
Keywords: لوله های گرما; Process intensification; Heat pipes; Chemical reactors; Control; Isothermalisation
Experimental investigation of pulsating heat pipe performance with regard to fuel cell cooling application
Keywords: لوله های گرما; PEM fuel cells; Thermal management; Heat pipes; PHP;
Model to predict design parameters and performance curves of vacuum glass heat pipe solar collectors
Keywords: لوله های گرما; Heat pipes; Glass; Solar radiation absorption; Shading; Solar energy generation systems (SEGS)
Failure analysis of one peculiar ‘Yin-Yang’ corrosion morphology on heat exchanger tubes in purified terephthalic acid (PTA) dryer
Keywords: لوله های گرما; Heat-exchanger failures; Heat pipes; Pitting corrosion; Failure analysis
Effect of fabrication parameters on capillary performance of composite wicks for two-phase heat transfer devices
Keywords: لوله های گرما; Two-phase heat transfer devices; Heat pipes; Composite wick; Capillary performance; Permeability; Capillary rise
Characterization of capillary performance of composite wicks for two-phase heat transfer devices
Keywords: لوله های گرما; Two-phase heat transfer devices; Heat pipes; Composite wick; Capillary performance; Permeability; Capillary rise; Infrared thermal imaging;
Computational studies on a latent thermal energy storage system with integral heat pipes for concentrating solar power
Keywords: لوله های گرما; Thermal energy storage; Concentrating solar power; Phase change materials; Heat pipes; Computational modeling
A combined capillary cooling system for fuel cells
Keywords: لوله های گرما; Cooling capillary system; PEMFC; PEM fuel cells; CPL; Heat pipes