Keywords: بازیابی گرما زباله; Compound cycle; Waste heat recovery; Air conditioning refrigeration; Linear weighted method;
مقالات ISI بازیابی گرما زباله (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: بازیابی گرما زباله; Waste heat recovery; Low GWP refrigerants; Industrial heat pump; Energy efficiency; Greenhouse gases; Climate change; Récupération de chaleur perdue; Frigorigènes à faible GWP; Pompe à chaleur industrielle; Efficacité énergétique; Gaz à effet de
Keywords: بازیابی گرما زباله; Waste heat recovery; Thermoelectric modules and power generation; Existing test rigs and prototypes; Passive and active cooling; Output performance;
Keywords: بازیابی گرما زباله; Double-effect absorption refrigeration cycle; Ionic liquid; Ammonia; Monte Carlo simulation; Fishing vessel; Waste heat recovery;
Keywords: بازیابی گرما زباله; Misselhorn cycle; Dynamic simulation; Waste heat recovery; Trilateral cycle;
Keywords: بازیابی گرما زباله; Air to air heat pump (AAHP); Ice-making system; Non-linear programming (NLP); Stirling engine; Waste heat recovery;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine Cycle; Automotive; Internal combustion engine; Positive displacement expander; Sliding vane expander;
Keywords: بازیابی گرما زباله; Condensing boiler; Water spray onto air; Waste heat recovery; Water-vapor recirculation; Increase of thermal efficiency; NOx reduction;
Keywords: بازیابی گرما زباله; Compressed air; Drying; Liquid desiccant; Waste heat recovery;
Keywords: بازیابی گرما زباله; Dynamic simulation; Electric arc furnace; Waste heat recovery; Steam production; Thermal energy storage; Sustainable steel industry;
Keywords: بازیابی گرما زباله; Energy efficiency; Steam system; Waste heat recovery; Biomass/waste; Business model; Drivers and barriers;
Keywords: بازیابی گرما زباله; Cold-end optimisation; Waste heat recovery; Thermal efï¬ciency; Techno-economic analysis;
Keywords: بازیابی گرما زباله; Heat transfer; Calcined petroleum coke; Heat exchange tube; Waste heat recovery;
Keywords: بازیابی گرما زباله; Waste heat recovery; Model; Pinch analysis; Exergy analysis; Cement plant; Power generation;
Keywords: بازیابی گرما زباله; NG pressure reduction station; Water reheating system; Waste heat recovery; Efficiency improvement; Exergy analysis;
Keywords: بازیابی گرما زباله; Organic Rankine Cycle; Diesel engine; Waste heat recovery; Main component; Working fluid; Thermodynamic analysis;
Keywords: بازیابی گرما زباله; Thermoelectric generator; Marine application; Waste heat recovery; Device level optimization;
Keywords: بازیابی گرما زباله; Proton exchange membrane fuel cell; Direct contact membrane distillation; Waste heat recovery;
Keywords: بازیابی گرما زباله; Waste heat recovery; Oxy-fuel furnace; Thermochemical regeneration; Syngas; Bi- and tri-reforming of methane; Carbon formation;
Keywords: بازیابی گرما زباله; Blast furnace slag; Waste heat recovery; Life cycle assessment; Economic performance; CO2 tax;
Keywords: بازیابی گرما زباله; Waste heat recovery; Electricity generator; Thermoacoustics; Multi-stage; Travelling-wave; Push-pull alternator;
Keywords: بازیابی گرما زباله; Internal finned tube; Blossom shape fin profile; Double-tube structure; Heat transfer performance; Waste heat recovery;
Keywords: بازیابی گرما زباله; Solar energy; PV module; TEG; STEG system; Hybrid solar power generation; Waste heat recovery;
Keywords: بازیابی گرما زباله; Thermoelectric generator; Waste heat recovery; Segmented structure; Fins arrangements; Configuration optimization;
Keywords: بازیابی گرما زباله; Cogeneration; Organic rankine cycle; Multi-effect distillation; Waste heat recovery; Thermo-economic analysis;
Keywords: بازیابی گرما زباله; Techno-economic analysis; Waste heat recovery; Combined cycle power plants;
Keywords: بازیابی گرما زباله; Thermally activated cooling; Waste heat recovery; Power plant cooling;
Keywords: بازیابی گرما زباله; Waste heat recovery; Phase change material; Discharge; Nano-enhancement; Erythritol; Thermal performance;
Keywords: بازیابی گرما زباله; Heat pump; Cascaded; Compression-absorption; Ammonia-water; Waste heat recovery;
Keywords: بازیابی گرما زباله; High temperature heat exchanger; Waste heat recovery; Design and optimization; Internal and external fins; Twisted tape inserts;
Keywords: بازیابی گرما زباله; Carbon dioxide transcritical power cycle; Waste heat recovery; Thermodynamic; Exergoeconomic; Optimization;
Keywords: بازیابی گرما زباله; Solar chimney; Waste heat recovery; Compressible airflow; Ideal gas law; CFD;
Keywords: بازیابی گرما زباله; Absorption heat pump; A single spiral tube; Heat and mass transfer; Lithium bromide/water; Film heat transfer coefficient; Mass transfer coefficient; Waste heat recovery;
Keywords: بازیابی گرما زباله; waste heat recovery; electricity generation; organic ranking cycle; trilateral cycle;
Keywords: بازیابی گرما زباله; Flat heat pipe; heat exchanger; Waste heat recovery;
Keywords: بازیابی گرما زباله; Thermoelectric generators; Regeneration; Waste heat recovery; Bismuth telluride;
Keywords: بازیابی گرما زباله; Air conditioning; Vapor compression cycle; Organic Rankine cycle; Waste heat recovery; Working fluid; Thermodynamic; thermo-economic analysis;
Keywords: بازیابی گرما زباله; Thermoelectric generation (TEG); Direct contact thermoelectric generator (DCTEG); Waste heat recovery; Contact resistance; Power generation; Efficiency;
Keywords: بازیابی گرما زباله; Ash; Adhesion force; Flue gas; Denitrification; Waste heat recovery;
Keywords: بازیابی گرما زباله; Residential buildings; Polycarbonate; Heat exchanger; Waste heat recovery; HVAC;
Keywords: بازیابی گرما زباله; Oscillating heat pipe; Pulsating heat pipe; Heat recovery ventilator; Waste heat recovery;
Keywords: بازیابی گرما زباله; trilateral flash cycle; positive displacement expander; refrigeration; waste heat recovery; thermodynamic analysis;
Keywords: بازیابی گرما زباله; Organic Rankine cycle; Waste heat recovery; Multistage centrifugal pump; Various operating conditions; Running performance;
Keywords: بازیابی گرما زباله; trilateral flash cycle; waste heat recovery; steel production; industrial energy recovery;
Keywords: بازیابی گرما زباله; Organic Rankine Cycle (ORC); Waste heat recovery; Binary power generation;
Keywords: بازیابی گرما زباله; Organic Rankine Cycle; waste heat recovery; scroll expander; small scale;
Keywords: بازیابی گرما زباله; energy analysis; internal combustion engine; organic flash cycle; organic Rankine cycle; single flash cycle; transcritical Rankine cycle; trilateral flash cycle; waste heat recovery;
Keywords: بازیابی گرما زباله; waste heat recovery; Kalina cycle; alcohol mixtures; Organic Rankine cycle;
Keywords: بازیابی گرما زباله; Waste heat recovery; Subway; Air source heat pump; Modular;
Keywords: بازیابی گرما زباله; Model Predictive Control; Waste Heat Recovery; Organic Rankine Cycle;