Keywords: بازیابی گرما زباله; Organic Rankine Cycle (ORC); Waste heat recovery; Binary power generation;
مقالات ISI بازیابی گرما زباله (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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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: بازیابی گرما زباله; Model Predictive Control; Waste Heat Recovery; Organic Rankine Cycle;
Keywords: بازیابی گرما زباله; waste heat recovery; Kalina cycle; alcohol mixtures; Organic Rankine cycle;
Keywords: بازیابی گرما زباله; Organic Rankine Cycle; waste heat recovery; scroll expander; small scale;
Keywords: بازیابی گرما زباله; Waste heat recovery; Setting machine; Gravity heat pipe exchanger;
Keywords: بازیابی گرما زباله; Trilateral Flash Cycle; Waste heat recovery; Low grade heat to power conversion; Cooling tower; Thermodynamic analysis;
Keywords: بازیابی گرما زباله; thermo-chemical heat storage; adsorption; waste heat recovery; solar heating; electricity to heat;
Keywords: بازیابی گرما زباله; Thermoelectricity; Metal foam; Waste heat recovery; Heat-transfer enhancement; Core flow;
Keywords: بازیابی گرما زباله; Thermoelectric generator; Automobile exhaust; Net power; Heat exchanger; Optimization; Waste heat recovery;
Keywords: بازیابی گرما زباله; Solid oxide fuel cell; Thermoelectric generator; Thermoelectric cooler; Waste heat recovery; Parametric study;
Keywords: بازیابی گرما زباله; Capillary force; Loop heat pipe; Desalination; Waste heat recovery;
Keywords: بازیابی گرما زباله; Electricity and freshwater co-generation; Low-temperature multi-effect distillation; Waste heat recovery; Diesel engine;
Keywords: بازیابی گرما زباله; Adsorption; Desalination; Heat recovery; Silica gel; Waste heat recovery;
Keywords: بازیابی گرما زباله; Exhaust gas recirculation; Pressurized boiler; Steam Rankine cycle; Waste heat recovery;
Keywords: بازیابی گرما زباله; Lattice Boltzmann; Condensation; Noncondensable gas; Waste heat recovery; Surface wettability;
Keywords: بازیابی گرما زباله; Energy analysis; Exergy analysis; Economic analysis; Waste heat recovery; Waste water recovery; Reverse osmosis;
Keywords: بازیابی گرما زباله; Fouling; Flue gas cooler; Coal-fired power plant; Acid condensation; Fine ash particles; Waste heat recovery;
Keywords: بازیابی گرما زباله; Metal hydride; Polymeric matrix; Extrusion; Ball milling; Sorption; Heat pump; Waste heat recovery;
Keywords: بازیابی گرما زباله; Phase change materials; Thermal energy storage; Assessment methodology; Waste heat recovery; Multi-criteria decision making;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine Cycle; Waste heat to power; Southeast asia; Technology assessment; Market potential;
Keywords: بازیابی گرما زباله; Organic Rankine cycle; Free piston expander-linear generator; Waste heat recovery; Experimental investigation; Motion characteristics; Power output performance;
Keywords: بازیابی گرما زباله; Adaptive Model Predictive Control; Organic Rankine Cycle; Energy efficiency; Waste heat recovery;
Keywords: بازیابی گرما زباله; Waste heat recovery; Optimisation; Multi-objective evolutionary algorithm; Mutually exclusive objective functions;
Keywords: بازیابی گرما زباله; Eco-efficiency; Coal power plant; District heating; CO2 emissions; Global warming; Waste heat recovery;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine Cycle; Positive displacement pump; Sliding vane pump; GT-SUITEâ¢;
Keywords: بازیابی گرما زباله; Methanol distillation; Hybrid design; Double-effect plus heat pump; Waste heat recovery; Process optimization; Economic evaluation;
Keywords: بازیابی گرما زباله; Waste heat recovery; Thermal energy storage; Phase change materials; Transient numerical simulation;
Keywords: بازیابی گرما زباله; micro Gas Turbine (mGT); Cycle humidification; Waste heat recovery; micro Humid Air Turbine (mHAT); Advanced Humid Air Turbine (AHAT); REgenerative EVAPoration (REVAP);
Keywords: بازیابی گرما زباله; Glass furnace; Regenerator; Waste heat recovery; Effectiveness; Second law efficiency;
Keywords: بازیابی گرما زباله; Cruise vessel; Waste heat recovery; Organic Rankine cycle; Off-design; Quasi-steady simulation;
Keywords: بازیابی گرما زباله; Design methodology of organic Rankine cycle; Waste heat recovery; Design to resource method; Cost-effective designs; The closest match between design and heat source;
Keywords: بازیابی گرما زباله; Carbon dioxide mixture; transcritical Rankine cycle; Waste heat recovery; Levelized energy cost; Economic performance;
Keywords: بازیابی گرما زباله; Organic Rankine cycle; Waste heat recovery; Ship; Cogeneration;
Keywords: بازیابی گرما زباله; Transcritical Rankine cycle (TRC); Economic performance; Working fluids; Optimization; Waste heat recovery; Diesel engine;
Keywords: بازیابی گرما زباله; Thermoelectric generation; Waste heat recovery; Computational model; Prototype;
Keywords: بازیابی گرما زباله; Vapor absorption chiller; Ammonia-water; Waste heat recovery; Refroidisseur à diffusion-absorption; Ammoniac-eau; Récupération de chaleur perdue;
Keywords: بازیابی گرما زباله; Dynamic modeling; Control-oriented modeling; Thermal energy storage; Immersed heat exchanger; Hot water storage tank; Waste heat recovery; Demand response;
Keywords: بازیابی گرما زباله; Internal combustion engine; Waste heat recovery; Turbocompounding; Steam injection; Thermodynamics analysis;
Keywords: بازیابی گرما زباله; Supercritical CO2; Rankine cycle; Waste heat recovery; Gas turbine; Cascade cycle; Split cycle;
Keywords: بازیابی گرما زباله; Dual-loop Organic Rankine Cycle; Dynamic response; Part-load; Waste heat recovery; Internal combustion engines;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine cycle; Organic fluid; Siloxane; Heat transfer;
Keywords: بازیابی گرما زباله; Waste heat recovery; H-type finned tube; Fouling; Fouling resistance; Fouling time ratio;
Keywords: بازیابی گرما زباله; Waste heat recovery; Thermoelectric generator; Figure of Merit; Organic Rankine Cycle; Kalina Cycle;
Keywords: بازیابی گرما زباله; Fouling; Removal; Dynamic mesh; Morphology prediction; Waste heat recovery;
Keywords: بازیابی گرما زباله; Waste heat recovery; Supercritical carbon dioxide; Transcritical carbon dioxide; Power and cooling cycles; Energy and exergy analysis; Shipboard applications;
Keywords: بازیابی گرما زباله; Supercritical organic Rankine cycle; Dual loop; Waste heat recovery; Environmentally friendly working fluid; CNG engine; Off-design performance;
Keywords: بازیابی گرما زباله; Absorption cycle; Variable lift; Waste heat recovery; Combined heat and power (CHP);
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine cycle; Dynamic finite volume heat exchanger modeling; Heavy duty diesel engine; Transient operation;
Keywords: بازیابی گرما زباله; Waste heat recovery; Heat integration; Energy-saving effect; Graphical exergy analysis; Techno-economic analysis;
Keywords: بازیابی گرما زباله; Waste heat recovery; Energy-saving; Thermoelectric power generation; Finite time thermodynamics;