Keywords: قدرت حرارتی خورشیدی; Concentrating solar power; Solar thermal power; Policy support; Policy design; Innovation;
مقالات ISI قدرت حرارتی خورشیدی (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: قدرت حرارتی خورشیدی; Solar receiver; Solar thermal power; Heat loss; Concentrated solar thermal; Temperature distribution; Wind;
Keywords: قدرت حرارتی خورشیدی; Gas turbine technology; Solar thermal power; Hybrid solar gas turbine; CSP;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Vortex flow; Recirculating flow; Irradiation;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Coal-fired power plant; Pinch point analysis; Exergy analysis; Solar contribution analysis;
Keywords: قدرت حرارتی خورشیدی; Solar; Solar thermal power; Electricity; Process synthesis; Conceptual design;
Keywords: قدرت حرارتی خورشیدی; Solar receiver; Solar thermal power; Heat loss; Concentrated solar thermal radiation; Aspect ratio; Wind;
Keywords: قدرت حرارتی خورشیدی; Experimental study; Natural draft dry cooling tower; Crosswind effect; Solar thermal power;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Aiming strategy; Integer programming;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Solarized gas turbine; Fuel reforming; Thermodynamic analysis;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Parabolic trough collector; Thermal losses; Rankine power cycle;
Keywords: قدرت حرارتی خورشیدی; Delphi method; Multi-criteria decision-making; Renewable energy sources; Solar thermal power; Value tree
Keywords: قدرت حرارتی خورشیدی; Carbon capture and storage; Hype; R&D; Climate policy; Technology policy; Solar thermal power;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Supercritical CO2; Brayton cycle; Rankine cycle; Thermal compression; Mixtures with CO2; Heat exchangers;
Keywords: قدرت حرارتی خورشیدی; Thermal storage system; Thermocline; Molten salt; Phase change materials; Solar thermal power
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Heat receiver; Molten salt; Spirally grooved pipe; Convective heat transfer
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Heliostat field layout; Nonconvex optimization; Greedy algorithm; Multiple receivers;
Keywords: قدرت حرارتی خورشیدی; Optimization; Solid media sensible heat storage; Analytical solution; Solar thermal power; Modified lumped capacitance method;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Heliostat field layout; Thermo-economic optimization; Nonconvex optimization; Greedy algorithm
Keywords: قدرت حرارتی خورشیدی; Renewable energy; Solar thermal power; Limits to growth;
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Phase change materials (PCMs); Numerical simulation; Enthalpy method; Latent heat thermal energy storage (LHTES);
Assessment of turbine performance variability in response to power block design decisions for SF6 and CO2 solar thermal power plants
Keywords: قدرت حرارتی خورشیدی; Preliminary design; Radial inflow turbine; Mean line model; Turbine on/off-design performance; Effect of cycle design and working fluid on off-design performance; Solar thermal power;
Dry carbonate process for CO2 capture and storage: Integration with solar thermal power
Keywords: قدرت حرارتی خورشیدی; Carbon capture; Post-combustion carbon capture; Coal fired power plant; Dry carbonate process; CCS economy; Solar thermal power;
Performance Simulation of a Small-scale Heliostat CSP System: Case Studies in Italy
Keywords: قدرت حرارتی خورشیدی; solar concentration; solar thermal power; heliostats concentrator; CSP simulation analysis; domestic hot water production; household applications;
Modeling and performance simulation of 100Â MW PTC based solar thermal power plant in Udaipur India
Keywords: قدرت حرارتی خورشیدی; SAM; simulation program system advisory model; CSP; concentrated solar thermal power; PTCSTPP; parabolic trough concentrated solar thermal power plant; HTF; heat transfer fluid; DNI; direct normal irradiance; Parabolic trough; Solar thermal power; SAM (Sy
Performance optimization of a regenerative Brayton heat engine coupled with a parabolic dish solar collector
Keywords: قدرت حرارتی خورشیدی; Brayton heat engine; Regenerative; Energy conservation; Solar thermal power;
Life-cycle assessment for BRRIMS solar power
Keywords: قدرت حرارتی خورشیدی; Life-cycle analysis; Solar thermal power; Recuperated Brayton cycle; Pebble bed thermal storage;
Limits to solar thermal energy set by intermittency and low DNI: Implications from meteorological data
Keywords: قدرت حرارتی خورشیدی; Renewable energy; Solar thermal power; Limits to growth;
Theoretical study on thermal stability of molten salt for solar thermal power
Keywords: قدرت حرارتی خورشیدی; Molten salt; Thermal stability; Reaction path; Solar thermal power
Design of new molten salt thermal energy storage material for solar thermal power plant
Keywords: قدرت حرارتی خورشیدی; Molten nitrate salt; Heat transfer fluid (HTF); Eutectic mixture; Phase diagram calculation; Conformal ionic solution (CIS) theory; Solar thermal power
Simulations of air-blown thermal storage in a rock bed
Keywords: قدرت حرارتی خورشیدی; Thermal storage; Rock bed; Solar thermal power; Air-blown; Porous media flow
An integrated solar-cryogen hybrid power system
Keywords: قدرت حرارتی خورشیدی; Cryogenic energy storage; Solar thermal power; Power system optimisation
Sustainability assessment of a solar thermal power project in Mediterranean application in the island of Crete
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Parabolic troughs; Sustainability; Environmental impact
Thermoeconomic optimization of a combined-cycle solar tower power plant
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Combined-cycle; Multi-objective optimization; Thermo-economics;
Dynamic simulation of thermal energy storage system of Badaling 1 MW solar power tower plant
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Thermal energy storage system; Model; Simulation
Exergy analysis of two phase change materials storage system for solar thermal power with finite-time thermodynamics
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Phase change materials (PCMs); Exergy analysis; Finite-time thermodynamics (FTT)
Annual performance improvement for solar steam turbines through the use of temperature-maintaining modifications
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Steam turbine; Dispatchability; Start-up;
Comparison of Linear Fresnel and Parabolic Trough Collector power plants
Keywords: قدرت حرارتی خورشیدی; Linear Fresnel; Parabolic Trough; Direct steam generation; Solar thermal power; Concentrating Solar Power (CSP);
An option for solar thermal repowering of fossil fuel fired power plants
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Fossil fuels; Rankine regenerative cycle; Repowering; High pressure heaters; Fresnel collectors
Optimization of solar-powered Stirling heat engine with finite-time thermodynamics
Keywords: قدرت حرارتی خورشیدی; Finite-time thermodynamics (FTT); Solar thermal power; Stirling heat engine; Dish collector; Irreversible process
An estimation of the performance limits and improvement of dry cooling on trough solar thermal plants
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Dry cooling; Efficiency; Flattened-tube surface
Heat transfer performance of an external receiver pipe under unilateral concentrated solar radiation
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Heat receiver; Absorption efficiency; Concentrated solar radiation; Heat transfer
Binary conversion cycles for concentrating solar power technology
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Binary cycles; Alkali-metal cycles; Liquid metals; Combined cycles; Closed cycles;
Assessment of the potential improvement due to multiple apertures in central receiver systems with secondary concentrators
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Central receiver system; CRS; Gas turbine; Combined cycle; Multiple apertures; Heliostat field; HFLCAL
Solar gas turbine systems: Design, cost and perspectives
Keywords: قدرت حرارتی خورشیدی; Solar thermal power; Solar-fossil hybrid power generation; Solar gas turbine; Solar tower plant; Pressurized air receiver; Solar incremental cost