Keywords: افزایش هدایت حرارتی; Non-eutectic mixture; Expanded graphite; Composite phase change material; Thermal conductivity enhancement; Radiant floor heating;
مقالات ISI افزایش هدایت حرارتی (ترجمه نشده)
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Keywords: افزایش هدایت حرارتی; Expanded vermiculite; Silicon carbide nanowire filler; Theoretical calculation method; Thermal conductivity enhancement; Thermal energy storage behavior;
Keywords: افزایش هدایت حرارتی; Support vector regression; Nanofluid; Nanoparticle; Thermal conductivity enhancement; Hamilton-Crosser model;
Keywords: افزایش هدایت حرارتی; DM; D-Mannitol; MEDM; Microencapsulated D-Mannitol; SEM; Scanning electron microscope; FT-IR; Fourier transform infrared spectroscopy; TEOS; Tetraethylorthosilicate; DSC; Differential scanning calorimetry; TES; Thermal energy storage; PCM; Phase change ma
Keywords: افزایش هدایت حرارتی; Thermal energy storage; Phase change materials (PCMs); Thermal conductivity enhancement; Thermal properties; PCMs applications;
Keywords: افزایش هدایت حرارتی; Thermal energy storage system; Nanoparticles; Phase change material; Melt fraction; Thermal conductivity enhancement;
Keywords: افزایش هدایت حرارتی; Phase change material; Thermal conductivity enhancement; Latent heat; Nanomaterials; Thermal properties; Composite PCM;
Keywords: افزایش هدایت حرارتی; Solid-liquid phase change; Time dependent boundary condition; Double pipe heat exchanger; Numerical study; Thermal conductivity enhancement;
Keywords: افزایش هدایت حرارتی; Thermal energy storage; Latent heat storage; Phase change materials; Thermal conductivity enhancement; Nano-PCM; Shell-and-tube heat exchanger;
Keywords: افزایش هدایت حرارتی; Percolating micro-structures; Clustering; Image processing; Thermal conductivity enhancement; Carbon-based nanofluids;
Keywords: افزایش هدایت حرارتی; Differential scanning calorimetry; Eicosane; Latent heat; Phase change materials; Silver nanoparticles; Thermal conductivity enhancement; Transient plane source method;
Keywords: افزایش هدایت حرارتی; Inorganic molten salts; Thermal conductivity enhancement; Specific heat capacity enhancement; Nanoparticles; Concentrated solar power applications;
Keywords: افزایش هدایت حرارتی; Polyethylene glycol; Expanded vermiculite; Phase change material; Silver nanowire; Thermal conductivity enhancement
Keywords: افزایش هدایت حرارتی; Metal coating; Silver; PCM microcapsules; Electroless plating; Dopamine; Thermal conductivity enhancement;
Keywords: افزایش هدایت حرارتی; Thermal energy storage; Phase change materials (PCMs); Thermal conductivity enhancement; Thermal performance;
Keywords: افزایش هدایت حرارتی; Composites; Heat transfer; Magnetic aligned; Structural anisotropy; Thermal conductivity enhancement;
Keywords: افزایش هدایت حرارتی; Latent heat energy storage; Paraffinwax; Nanoparticles; Nanoenhanced phase change material; Thermal conductivity enhancement;
Keywords: افزایش هدایت حرارتی; Phase change heat storage; Melting; Solidification; Sphere; Thermal conductivity enhancement
Keywords: افزایش هدایت حرارتی; Thermal energy storage; Phase change materials; Composites; Hexagonal boron nitride; Thermal conductivity enhancement;
Keywords: افزایش هدایت حرارتی; Melting; Nanoparticles; Natural convection; Phase change materials; Thermal conductivity enhancement; Thermal energy storage;
Experimental study of thermal conductivity, heat transfer and friction factor of Al2O3 based nanofluid
Keywords: افزایش هدایت حرارتی; Al2O3/water; Al2O3/EG and Al2O3/paraffin nanofluids; Thermal conductivity enhancement; Shell and tube heat exchanger; Nuselt number; Reynolds number; Volume fraction;
Melting of nano-PCM inside a cylindrical thermal energy storage system: Numerical study with experimental verification
Keywords: افزایش هدایت حرارتی; Thermal energy storage system; Phase change material; Latent heat; Numerical investigation; Thermal conductivity enhancement; Nanoparticles;
Synthesis and characterization of Zn-Al layered double hydroxide nanofluid and its application as a coolant in metal quenching
Keywords: افزایش هدایت حرارتی; Zn-Al LDH; Nanofluid; Thermal conductivity enhancement; Stability analysis; LDH; layered double hydroxide; XRD; X-ray diffraction; DAQ; data acquisition; CHF; critical heat flux; HTC; heat transfer coefficient;
Empirical study and model development of thermal conductivity improvement and assessment of cost and sensitivity of EG-water based SWCNT-ZnO (30%:70%) hybrid nanofluid
Keywords: افزایش هدایت حرارتی; Hybrid nanofluids; Thermal conductivity enhancement; Sensitivity; Cost; Neural network modeling;
Experimental study of Fe2O3/water and Fe2O3/ethylene glycol nanofluid heat transfer enhancement in a shell and tube heat exchanger
Keywords: افزایش هدایت حرارتی; Fe2O3-water and Fe2O3-water nanofluids; Thermal conductivity enhancement; Shell and tube heat exchanger; Nusselt number; Reynolds number; Volume fraction;
Thermal properties and morphologies of MA–SA eutectics/CNTs as composite PCMs in thermal energy storage
Keywords: افزایش هدایت حرارتی; Eutectic phase change material; Carbon nanotubes; Thermal properties; Thermal conductivity enhancement; Thermal energy storage
Thermal management of a LiFePO4 battery pack at high temperature environment using a composite of phase change materials and aluminum wire mesh plates
Keywords: افزایش هدایت حرارتی; Lithium-ion battery; Thermal management; Phase change material; Thermal conductivity enhancement; PEG1000;
Experimental study of thermal conductivity and convective heat transfer enhancement using CuO and TiO2 nanoparticles
Keywords: افزایش هدایت حرارتی; CuO/TiO2 nanofluids; Thermal conductivity enhancement; Shell and tube heat exchanger; Nusselt number; Reynolds number; Volume fraction
Experimental studies on thermal conductivity of blends of ethylene glycol-water-based TiO2 nanofluids
Keywords: افزایش هدایت حرارتی; Ethylene glycol and water mixture; Thermal conductivity enhancement; TiO2 nanofluid
Effect of chain-like magnetite nanoparticle aggregates on thermal conductivity of magnetic nanofluid in magnetic field
Keywords: افزایش هدایت حرارتی; Thermal conductivity enhancement; Thermal conductivity model; Magnetic nanofluid; Magnetic field; Chain-like magnetic nanoparticle aggregates
An approach to enhance through-thickness thermal conductivity of polymeric fiber composites
Keywords: افزایش هدایت حرارتی; Through-thickness; Thermal conductivity enhancement; Finite element model; Fiber composites; Conductive coating
Experimental determination of temperature-dependent thermal conductivity of solid eicosane-based nanostructure-enhanced phase change materials
Keywords: افزایش هدایت حرارتی; Copper oxide nanoparticles; Phase change materials; Thermal conductivity enhancement; Transient plane source method; Solid composites;
Effects of various carbon nanofillers on the thermal conductivity and energy storage properties of paraffin-based nanocomposite phase change materials
Keywords: افزایش هدایت حرارتی; Thermal energy storage; Nanocomposite phase change materials; Carbon nanofillers; Graphene nanoplatelets; Thermal conductivity enhancement; Phase change enthalpy
Experimental and numerical study of constrained melting of n-octadecane with CuO nanoparticle dispersions in a horizontal cylindrical capsule subjected to a constant heat flux
Keywords: افزایش هدایت حرارتی; Cylindrical capsule; Melting; Nanoparticles; Natural convection; Phase change materials; Thermal conductivity enhancement; Thermal energy storage;
Heat transfer enhancement by magnetic nanofluids—A review
Keywords: افزایش هدایت حرارتی; Magnetic nanofluids; Ferrofluids; Heat transfer enhancement; Thermomagnetic convection; Thermal conductivity enhancement
Experimental and numerical investigation of melting of NePCM inside an annular container under a constant heat flux including the effect of eccentricity
Keywords: افزایش هدایت حرارتی; Annular cavity; Eccentricity; Melting; Nanoparticles; Natural convection; Phase change materials; Thermal conductivity enhancement; Thermal energy storage
Influence of CuO nanoparticles in enhancing the thermal conductivity of water and monoethylene glycol based nanofluids
Keywords: افزایش هدایت حرارتی; CuO nanofluids; Volume fraction; Sonication; Thermal conductivity enhancement
An experimental investigation of enhanced thermal conductivity and expedited unidirectional freezing of cyclohexane-based nanoparticle suspensions utilized as nano-enhanced phase change materials (NePCM)
Keywords: افزایش هدایت حرارتی; Freezing; Nano-enhanced phase change materials (NePCM); Nanoparticle suspensions; Thermal conductivity enhancement; Thermal energy storage; Unidirectional solidification
Thermal conductivity enhancement of PEG/SiO2 composite PCM by in situ Cu doping
Keywords: افزایش هدایت حرارتی; Phase change material; Thermal conductivity enhancement; Polyethylene glycol (PEG); In situ doping
Thermal conductivity enhancement of phase change materials using a graphite matrix
Keywords: افزایش هدایت حرارتی; Graphite; Phase change materials; Thermal conductivity enhancement; Differential scanning calorimetry; Scanning electron microscopy
Latent heat thermal energy storage tanks for space heating of buildings: Comparison between calculations and experiments
Keywords: افزایش هدایت حرارتی; Latent heat thermal energy storage; Thermal conductivity enhancement; Carbon fiber; Numerical; Experiment; Space heating