Keywords: ذوب; Convective flow; Melting; n-octane; Pool fire; Ice wall;
مقالات ISI ذوب (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: ذوب; Phase change material; Discrete heat sources; Electronic cooling; Heat transfer; Melting; Intermittent regime;
Keywords: ذوب; Cement-asbestos; Neutralization; Melting; Arc-resistance furnace;
Keywords: ذوب; Marangoni; Phase Change Material; Microgravity; Energy storage; Melting;
Keywords: ذوب; continental extension; lithosphere erosion; continental rift; mantle plume; melting; asymmetric margins;
Keywords: ذوب; Melting; PCM; Triplex-tube; Thermal energy storage; Nanoparticles; Fins;
Keywords: ذوب; Melting; Natural convection; Uniform magnetic field; Cubical cavity; Heat source; Vector potential functions; Numerical results;
Keywords: ذوب; Melting; Natural convection; Cubical cavity; Heat source; Vector potential functions; Numerical results;
Keywords: ذوب; Melting; Ice; Metals; Alloys; Heat transfer; Dimensionless numbers; Natural convection; Nusselt; Rayleigh; Prandtl; Stefan;
Keywords: ذوب; Melting; Phase change material; CNT; Graphene; Nanocomposite; N-eicosane;
Keywords: ذوب; Periodic boundary condition; Numerical study; Phase change material; Latent heat storage; Melting; Solidification;
Keywords: ذوب; Melting; Nanoparticles; Heat storage; Buoyancy driven convection;
Keywords: ذوب; Modeling phase change; Latent heat storage; Parallel flow; Melting; Solidification; Counter flow;
Numerical analysis of an integrated storage solar heater
Keywords: ذوب; Phase change material; Latent heat; Melting; Solidification; Solar energy; Solar collector;
Numerical analysis of charging and discharging performance of an integrated collector storage solar water heater
Keywords: ذوب; Phase change material; Melting; Solidification; Exergy; Energy;
Keywords: ذوب; Ice; Particles; Melting; Evaporation; Validation;
Keywords: ذوب; Melting; PCM; Triplex-tube; Energy storage; Nanoparticles-metal foam;
Keywords: ذوب; Phase change material; Natural convection; Numerical simulation; Finite volume method; Enthalpy-porosity formulation; Melting; Fusion;
Keywords: ذوب; experiment; BIF; subduction; melting; deep carbon cycle; oxygen fugacity;
Keywords: ذوب; healing of microcracks; crack arrest; interaction of micro-defects; electroplasticity; high-energy electromagnetic field; short electric current pulse; localization; phase transition; melting; evaporation;
Keywords: ذوب; High-velocity impact; Shock adiabat; State equation; Melting; Evaporation; Metals; Man-made debris; Spacecraft protection;
Keywords: ذوب; Nanoparticle-enhanced phase change material (NEPCM); Phase change material (PCM); Nanoparticles; Latent heat storage unit (LHSU); Thermal energy storage; Melting; CFDs;
Keywords: ذوب; Iron nanocluster; Melting; MD simulation; Pressure effect; Enthalpy; Bulk modulus;
Keywords: ذوب; Magnetic particles; Biopolymer; Melting; AC susceptibility; Mössbauer spectroscopy;
Keywords: ذوب; Exoplanets; Habitable zone; Melting; Pressure; Atmosphere;
Keywords: ذوب; Waxy crude oil; Melting; Non-Newtonian fluid; Oil tank;
Keywords: ذوب; Isotactic polypropylene (iPP); Lamellar thickening; Melting;
Keywords: ذوب; Microwave heating; Melting; Multi-physics modeling; Simulation; Casting;
Keywords: ذوب; MEPCM; Melting; Liquid-solid interface; Thermal energy storage;
Keywords: ذوب; Phase-change material; Hybrid nanofluid; Cavity; Melting; Enthalpy-porosity model;
Keywords: ذوب; Nano-enhanced phase change materials NePCM; Melting; Thermal energy storage; Containers; Annular cavities; Spherical and cylindrical capsules;
Keywords: ذوب; Lignin; Softwood; Wood products; Fatty acid; Glass transition; Melting
Keywords: ذوب; Thermoplastic; Fiber; Melting; Adhesion; Bonding; Polyamide; Blends; Laminates; DSC
Keywords: ذوب; Nanoprecipitation; Amylose; Complex; Crystallinity; Melting
Keywords: ذوب; Constructal; Evolutionary design; Melting; Natural convection; Energy storage; Phase change material; Tree shaped; Dendritic;
Keywords: ذوب; carbon isotopes; melting; melt structure; spectroscopy; redox;
Keywords: ذوب; Melting; Variable permeability; Radiation; Heat transfer; Mixed convection
Keywords: ذوب; Melting; Natural convection; Magnetic field; Square cavity; Heat source; Numerical results;
Keywords: ذوب; Liquid-solid coexistence; Phase transitions; Melting; Equilibrium melting curve; Molecular dynamics;
Keywords: ذوب; Microwave hybrid heating; Composites; Castings; Melting; Microstructure; Cleaner production;
Keywords: ذوب; Melting; Casimir force; Phase equilibrium; Solid-liquid transition; Thermodynamics;
Keywords: ذوب; FHSO, fully hydrogenated soybean oil; SC-CO2, supercritical carbon dioxide; SEM, scanning electron microscopy; DSC, differential scanning calorimetry; XRD, X-ray powder diffractionNanoparticle; Supercritical carbon dioxide; Lipid; Melting; Oil
Keywords: ذوب; Latent heat energy storage; Phase change material; Natural convection; Melting; Solidification;
Keywords: ذوب; Water; Ice; Melting; Droplet; Multiwall carbon nanotube; Thermocapillary convection;
Keywords: ذوب; Melting; PCM; Natural convection; Horizontal cylinder;
Keywords: ذوب; Solid-liquid phase change; Melting; Solidification; Variable density; Mass conservation; Thermo-mechanical coupling;
Keywords: ذوب; Wet granular media; Phase change; Imbibition; Icing; Melting;
Keywords: ذوب; Melting; PCM; Natural convection; Heat storage; Multiple cylinders
Keywords: ذوب; Phase change material; n-Eicosane; Melting; Graphene; Nanocomposite; Thermal conductivity; Natural convection;
Keywords: ذوب; Multi tube heat exchanger; Arrangement; Melting; Phase change material;