Keywords: استفاده از گرما زباله; Waste heat utilization; Fouling layer; Acid condensation; Ash deposition;
مقالات ISI استفاده از 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: استفاده از گرما زباله; Cogeneration; Turbine units; Waste heat utilization; Integration optimization;
Keywords: استفاده از گرما زباله; Co-generation system; Waste heat utilization; Energy efficiency; Full operating conditions; Optimization;
Keywords: استفاده از گرما زباله; Flash evaporation; Flash chamber design; Seawater desalination; Waste heat utilization; Solar thermal energy;
Keywords: استفاده از گرما زباله; Waste heat utilization; Fouling layer; Acid condensation; Ash deposition; Heat transfer efficiency;
Keywords: استفاده از گرما زباله; Organic Rankine Cycle; Organic fluid; Working fluid selection; Waste heat utilization; Efficiency increase;
Keywords: استفاده از گرما زباله; Waste heat utilization; (Reverse) Electrodialysis; Temperature gradient; Industrial desalination;
Keywords: استفاده از گرما زباله; Desalination; Capillary force; Siphon force; Waste heat utilization; Localized vaporization;
Keywords: استفاده از گرما زباله; Waste heat utilization; Gas power plant; Air bottoming cycle; Thermo-economic evaluation; Co and trigeneration; Multigeneration;
Keywords: استفاده از گرما زباله; Direct contact membrane distillation; Produced water treatment; Waste heat utilization; Natural gas compressor stations;
Keywords: استفاده از گرما زباله; Wet flue gas; Waste heat utilization; Thermoelectric generation; Performance optimization; Natural gas;
Keywords: استفاده از گرما زباله; Thermoelectric generator; Waste heat utilization; NPP; Maximum power recovery;
Keywords: استفاده از گرما زباله; Lignite; Flue gas pre-drying; Waste heat utilization; Water recovery; Economic analysis;
Keywords: استفاده از گرما زباله; District heating; Data center; Energy efficiency; Waste heat utilization; Load profile;
Keywords: استفاده از گرما زباله; Waste heat utilization; Exergy degradation; Thermodynamic cycles; Comparative study;
Keywords: استفاده از گرما زباله; Heat pipe heat exchanger; Waste heat utilization; On-line cleaning device;
Keywords: استفاده از گرما زباله; Solid oxide fuel cell; Cogeneration; GAX; Exergoeconomics; Waste heat utilization; Hydrogen; Thermodynamic simulation;
Keywords: استفاده از گرما زباله; Cloud Data Centers; Energy efficiency; Renewable energy; Waste heat utilization; Modular data centers; VM migration;
Keywords: استفاده از گرما زباله; Waste heat utilization; System integrating; Combined heating and power system; Heat pump; Ground source heat pump;
Keywords: استفاده از گرما زباله; Low temperature desalination; Steam power plant condenser; Waste heat utilization; Inverted U-pipe; Cooling sea water; Vacuum
Keywords: استفاده از گرما زباله; Compressed air; Liquid desiccant; Drying; Waste heat utilization; Experiment
Keywords: استفاده از گرما زباله; Sinter cooling bed; Waste heat utilization; Genetic programming; Bi-objective optimization; NSGA-II (non-dominated sorting genetic algorithm-II)
Keywords: استفاده از گرما زباله; Renewable energy; Geothermal energy utilization; System integration; Poly-generation; Waste heat utilization
Keywords: استفاده از گرما زباله; Thermodynamic optimization; Waste heat utilization; Organic working fluid; Combined cycle
Keywords: استفاده از گرما زباله; Absorption refrigeration; CCHP; Gas turbine; Natural gas; Trigeneration; Waste heat utilization
Keywords: استفاده از گرما زباله; Adsorption; Desalination; Heat recovery; Waste heat utilization;
Dynamic performance of high concentration photovoltaic/thermal system with air temperature and humidity regulation system (HCPVTH)
Keywords: استفاده از گرما زباله; HCPVTH; Photovoltaic; Heat pipe; Waste heat utilization;
Water neutrality and waste heat management in ethanol reformer - HTPEMFC integrated system for on-board hydrogen generation
Keywords: استفاده از گرما زباله; Fuel cells; Hydrogen generation; Fuel reforming; Water neutrality; Waste heat utilization; Hybrid vehicles;
On low-grade waste heat utilization from a supercritical steam power plant using an ORC-bottoming cycle coupled with two sources of heat
Keywords: استفاده از گرما زباله; Binary cycle; Steam cycle; ORC; Waste heat utilization; Size reduction;
Exergy analysis of a novel CHP-GSHP coupling system
Keywords: استفاده از گرما زباله; Exergy analysis; Waste heat utilization; Heat pump; System integrating; Combined heating and power system;
Performance of an ammonia-based CO2 capture pilot facility in iron and steel industry
Keywords: استفاده از گرما زباله; CO2 capture; Aqueous ammonia; Iron and steel industry; Waste heat utilization;
Exergoeconomic assessment and parametric study of a Gas Turbine-Modular Helium Reactor combined with two Organic Rankine Cycles
Keywords: استفاده از گرما زباله; Gas Turbine-Modular Helium Reactor; Organic Rankine cycle; Exergy; Exergoeconomics; SPECO (specific exergy costing); Waste heat utilization
A Multi-Approach Evaluation System (MA-ES) of Organic Rankine Cycles (ORC) used in waste heat utilization
Keywords: استفاده از گرما زباله; Multi-Approach Evaluation System (MA-ES); Organic Rankine Cycles (ORC); Waste heat utilization; Modeling;
Simulation and optimization of waste heat recovery in sinter cooling process
Keywords: استفاده از گرما زباله; Sinter cooling process; Waste heat utilization; Numerical simulation; Orthogonal experimental
Enhancement of LNG plant propane cycle through waste heat powered absorption cooling
Keywords: استفاده از گرما زباله; Waste heat utilization; LNG plant; Absorption chiller; Aspen plus
Trigeneration scheme for energy efficiency enhancement in a natural gas processing plant through turbine exhaust gas waste heat utilization
Keywords: استفاده از گرما زباله; Absorption refrigeration; CCHP; Gas; Trigeneration; Turbine; Waste heat utilization
Energy consumption reduction in CO2 capturing and sequestration of an LNG plant through process integration and waste heat utilization
Keywords: استفاده از گرما زباله; CCS; EOR; LNG; Optimization; Process integration; MEA; Pinch analysis; Waste heat utilization
Modeling water/lithium bromide absorption chillers in ASPEN Plus
Keywords: استفاده از گرما زباله; ASPEN Plus; Absorption chillers; Absorption chiller modeling; Energy efficiency; Waste heat utilization
Enhancement of APCI cycle efficiency with absorption chillers
Keywords: استفاده از گرما زباله; Natural gas liquefaction; Gas turbine; Absorption chiller; Waste heat utilization
Thermodynamic analysis of load-leveling hyper energy converting and utilization system
Keywords: استفاده از گرما زباله; Waste heat utilization; Hybrid cycle; Ammonia–water cycle
An examination of regenerative organic Rankine cycles using dry fluids
Keywords: استفاده از گرما زباله; Organic Rankine cycles; Organic fluids; Waste heat utilization
Use of waste heat of TIEC as the power source for AMTEC
Keywords: استفاده از گرما زباله; Waste heat utilization; TIEC; AMTEC; Cascade; Node; Improved efficiency;