Keywords: نمک مذاب; Carbon materials; Molten salt; Porous materials; Electrochemical etching; Supercapacitors;
مقالات ISI نمک مذاب (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: نمک مذاب; Molten salt; Lanthanum hexaboride; Nanocubes; Microstructure;
Keywords: نمک مذاب; Steel alloy; Molten salt; Corrosion; Microscopy;
Keywords: نمک مذاب; Molten salt; Water purification; Solar energy; Nanoparticles;
Keywords: نمک مذاب; Molten salt; Pebble bed reactor; Packing factor;
Keywords: نمک مذاب; Molten salt; High-temperature melting; Nanoparticle; Heat capacity; Stability;
Keywords: نمک مذاب; Corrosion; Thermal energy storage; Concentrated solar power; Molten salt;
Keywords: نمک مذاب; Thermal energy storage; Molten salt; Parametric study; DLR; TESIS;
Keywords: نمک مذاب; Molten salt; Convective heat transfer; Flowing across tube bundles; Steam generator; Solar thermal plant;
Keywords: نمک مذاب; Solar power system; Molten salt; Shell-and-tube heat exchanger; Heat transfer;
Keywords: نمک مذاب; Water hyacinth; Biochar; E-Fenton; ORR; Molten salt;
Keywords: نمک مذاب; Nickel alloy; Anodic oxidation; Molten salt; High-temperature electrochemistry; Inert anode;
Keywords: نمک مذاب; Thermal energy storage (TES); Packed-bed; Molten salt; Nitrites; Slag; Corrosion;
Keywords: نمک مذاب; Solar thermal; Molten salt; Heat transfer; Correlations; Steam generator;
Keywords: نمک مذاب; High-temperature; Sensible heat storage; Melting point; Heat capacity; Mass loss; Molten salt;
Keywords: نمک مذاب; Direct steam generation (DSG); Concentrated solar power (CSP); Thermal energy storage (TES); Phase change material (PCM); Accumulator; Steam; Molten salt;
Keywords: نمک مذاب; Concentrating solar power; Thermal energy storage; Molten salt; Thermophysical properties;
Keywords: نمک مذاب; Molten salt; NaF-AlF3; Vanadium trioxide; Vanadium; Electrochemical reduction;
Keywords: نمک مذاب; Pebble-bed; Heat transfer; Molten salt; Periodic lattice;
Keywords: نمک مذاب; Molten salt; Natural convection; Prandtl number (Pr); Internal heat generation; Computational fluid dynamics (CFD);
Keywords: نمک مذاب; Non-uniform heat flux; Parabolic trough receiver; Concentric rod and eccentric rod inserts; Performance evaluation criteria; Integrated performance factor; Molten salt;
Keywords: نمک مذاب; Nanofluids; Parabolic trough collector; Molten salt; Thermal oil; Thermal enhancement;
Keywords: نمک مذاب; Concentrated solar power (CSP); Heat transfer fluid (HTF); Thermal energy storage (TES); Corrosion; Molten salt;
Keywords: نمک مذاب; Molten salt; Rod baffle heat exchanger; Shell-side heat transfer performance; Experimental study; Concentrating solar power;
Keywords: نمک مذاب; Carbon nitride; Molten salt; Tetragonal hollow tube; Photocatalytic degradation; Adsorption performance;
Keywords: نمک مذاب; Molten salt; Convective heat transfer; Transversely grooved tube; Heat exchanger; Enhanced heat transfer;
Keywords: نمک مذاب; Failure analysis; Molten salt; Receiver system; Cold surge tank; Hot surge tank; Control system;
Keywords: نمک مذاب; Linear Fresnel reflector; Thermal analysis; Optical analysis; Molten salt; Liquid Sodium;
Keywords: نمک مذاب; Ferritic-martensitic steel; Diffusion coating; Molten salt; Concentrated solar power tower plant;
Keywords: نمک مذاب; Porous silicon nanomaterials; Clay minerals; Magnesiothermic reduction; Molten salt;
Keywords: نمک مذاب; Thermal energy storage; Sensible heat; Dynamic modeling; Transient simulation; Molten salt; Modelica;
Keywords: نمک مذاب; External solar receiver; Tower technology; Molten salt; Thermal performance; 3D-transient model;
Keywords: نمک مذاب; Solar power tower; Beam-down; Molten salt; Natural circulation loop; CSP;
Keywords: نمک مذاب; Liquid level; Tube pressure; Single tube; Molten salt; Pyroprocess;
Keywords: نمک مذاب; Heat transfer enhancement; parabolic trough collector; Absorber tube; Concentric pipe; Eccentric pipe; Molten salt;
Keywords: نمک مذاب; CSP; LCA; Molten salt; Heat transfer fluid; Sustainable development;
Keywords: نمک مذاب; Latent thermal energy storage; Phase change material; Molten salt; Expanded graphite; Volume expansion;
Keywords: نمک مذاب; Molten salt; Laminar flow; Transition flow; Heat exchanger; Heat transfer correlation;
Keywords: نمک مذاب; Hydrogen production; Thermochemical water splitting; Heat transfer; Molten salt;
Keywords: نمک مذاب; Solar; Gasification; Molten salt; Reactor;
Nitrogen-doped two-dimensional porous carbon sheets derived from clover biomass for high performance supercapacitors
Keywords: نمک مذاب; Porous carbon; Biomass; Nitrogen doping; Molten salt; Supercapacitor;
Keywords: نمک مذاب; Solar energy; Molten salt; Mixed convection; Square tube; Heat transfer;
Keywords: نمک مذاب; Molten salt; Environmental pollution; Leakage; Solidification; Volume of fluid model;
Keywords: نمک مذاب; Molten salt; Thermal energy storage; Packed bed; Thermocline;
Keywords: نمک مذاب; Steam generation system; Heat exchanger; Molten salt; Steam generation rate; Thermal efficiency;
Keywords: نمک مذاب; Molten salt; Cobalt oxide; Au-Pd nanoparticle; Volatile organic compound; Catalytic oxidation;
Keywords: نمک مذاب; Solar energy; Molten salt; Heat exchanger; Segmental baffles; Heat transfer;
Keywords: نمک مذاب; Phase change materials; Nanofluid; Thermal energy storage; High temperature mixing; Heat capacity; Molten salt;
Keywords: نمک مذاب; Solar power tower; Solar receiver; Heliostat-receiver model; Supercritical power block; Molten salt;
Keywords: نمک مذاب; Concentrated solar power; Molten salt; Economic analysis; Hydrothermal liquefaction; Microalgae biocrude;