Keywords: بازیابی گرما زباله; Waste heat recovery; Heat exchangers; Energy storage;
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; Diesel Engine; Exhaust gas; Heat exchanger; Waste heat recovery; Preheat;
Keywords: بازیابی گرما زباله; Transport membrane condenser; Waste heat recovery; Heat exchanger; Tube bundles; Ceramic nanoporous membrane;
Keywords: بازیابی گرما زباله; Design optimisation; Low grade heat utilization; Renewable energy; Waste treatment; Waste heat recovery;
Keywords: بازیابی گرما زباله; Desalination; Vapour compression refrigeration; Waste heat recovery; Humidification dehumidification desalination; Refrigeration;
Keywords: بازیابی گرما زباله; Air pre-purification unit; Cryogenic waste heat; Adsorption; Waste heat recovery; Sieve;
Keywords: بازیابی گرما زباله; Waste heat recovery; Heat-potential; Heat-demand; Thermal management; Flow- and heat transport modeling; Specific advective heat fluxes;
Keywords: بازیابی گرما زباله; Direct carbon solid oxide fuel cell; Waste heat recovery; Thermophotovoltaic cell; Combined system; Numerical modeling;
Keywords: بازیابی گرما زباله; Thermoelectric generation; Waste heat recovery; Energy harvesting; Energy conversion; Automotive thermoelectric generator (ATEG);
Keywords: بازیابی گرما زباله; Biomass pyrolysis; Granulated blast furnace slag; Waste heat recovery; Kinetic mechanism model;
Keywords: بازیابی گرما زباله; Thermoacoustics; Low temperature; Waste heat recovery; Solar energy; Phase change;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine cycle; Hydraulic diaphragm metering pump; Back work ratio; Various operating conditions;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine cycle; Techno-economic evaluation; Light hydrocarbons; Carbon dioxide emission reduction;
Keywords: بازیابی گرما زباله; Boiling point elevation (BPE); Cogeneration system; Energy saving; Waste heat recovery;
Keywords: بازیابی گرما زباله; Organic Flash Cycle; Waste Heat Recovery; Off-design; Control strategies; Organic Rankine Cycle; ASPEN HYSYS;
Keywords: بازیابی گرما زباله; Waste heat recovery; Steam network; Cost estimation; Industrial capture; Aspen Hysys; CAPEX; OPEX;
Keywords: بازیابی گرما زباله; Waste heat recovery; Diesel engine; Exhaust gas; Heat exchanger; Exergy; Thermoelectric generator;
Keywords: بازیابی گرما زباله; Thermal management; Waste heat recovery; Engine efficiency; Oil; Emissions reduction;
Keywords: بازیابی گرما زباله; Cogeneration; Waste heat recovery; Operation optimization; Equivalent electricity of heating; Cold end system; Multi turbine units;
Keywords: بازیابی گرما زباله; Thermoelectric; Radiant heat; Waste heat recovery; Module optimization;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine Cycle; Economic power dispatching; Optimal power flow;
Keywords: بازیابی گرما زباله; Absorption cycles; Ammonia-water desorption; Waste heat recovery; Heat and mass transfer model;
Keywords: بازیابی گرما زباله; Free piston expander-linear generator; Waste heat recovery; Experiment; Output performance; Energy conversion efficiency;
Keywords: بازیابی گرما زباله; Aero-engine; Energy Recuperation; Fuel Savings; Thermoelectric Generator; Waste Heat Recovery;
Keywords: بازیابی گرما زباله; Waste heat recovery; Waste management; Energy efficiency; Land use; Tokyo Metropolitan Area;
Keywords: بازیابی گرما زباله; Absorption heat transformer; Waste heat recovery; Ionic liquid; Experimental results; Theoretical analysis;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine cycle; Free piston expander-linear generator; Experimental investigation; Motion characteristics; Output performance;
Keywords: بازیابی گرما زباله; Organic rankine cycle; Dynamic behavior; Design parameters; Waste heat recovery; Controller;
Keywords: بازیابی گرما زباله; Waste heat recovery; Parametric study; Fouling model; Dynamic mesh; Staggered elliptical tube;
Keywords: بازیابی گرما زباله; Latent heat thermal energy storage; Aluminium alloys; Recycled ceramics; Compatibility; Waste heat recovery; Waste-to-energy;
Keywords: بازیابی گرما زباله; Skutterudite; Thermoelectric generator; Light-duty vehicles; Fuel economy; Integration effects; Waste heat recovery;
Keywords: بازیابی گرما زباله; Dynamic process; Waste heat recovery; Organic Rankine Cycle; Part-load; Engine;
Keywords: بازیابی گرما زباله; Adsorption cooling system; Waste heat recovery; Optimum fin spacing; Fuel saving; Heat and mass transport; Porous media;
Keywords: بازیابی گرما زباله; Thermoelectric generator; Internal combustion engine; Waste heat recovery; Pulsating flow; Heat transfer;
Keywords: بازیابی گرما زباله; Organic Rankine cycle; Dual-pressure evaporation; Waste heat recovery; Heat-power conversion; Parametric optimization; Performance comparison;
Keywords: بازیابی گرما زباله; Organic Rankine cycle; Heavy duty diesel engine; Radial inflow turbine; Waste heat recovery;
Keywords: بازیابی گرما زباله; Organic Rankine Cycle (ORC); Waste heat recovery; Working fluid; Expander; Experiment test rig;
Keywords: بازیابی گرما زباله; Marine Diesel engine; Waste heat recovery; Organic Rankine cycle; Optimization; Fast passenger ferry;
Keywords: بازیابی گرما زباله; Cement; Waste heat recovery; Raw meal;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine cycle; 2-degree-of-freedom control; 1D-modeling;
Keywords: بازیابی گرما زباله; Energy efficiency; Waste heat recovery; Thermal energy storage; Organic Rankine Cycle; Heat to power; Thermal power fluctuations;
Keywords: بازیابی گرما زباله; Exergy; Waste heat recovery; Engine exhaust; Thermal exergy; Mechanical exergy; Exhaust blowdown;
Keywords: بازیابی گرما زباله; Turbocompound engine; Waste heat recovery; Water injection; Steam injection; Thermodynamics analysis;
Keywords: بازیابی گرما زباله; Waste heat recovery; Helical coil; Heat transfer data; Deionized water;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine cycle; Radial turbo-expander; Plate heat exchanger; Dynamic modelling; PI control strategy;
Keywords: بازیابی گرما زباله; Waste heat recovery; Organic Rankine Cycle; Nonlinear control; Model predictive control; Automotive systems;
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; ALCA; attributional life cycle assessment; CAPEX; capital expenditure; CFD; computational fluid dynamics; CHP; combined heat and power; CLCA; consequential life cycle assessment; COP; coefficient of performance; CPU; central processing unit; CRAC; compute
Keywords: بازیابی گرما زباله; 00-01; 99-00; Organic Rankine cycle; Axial turbine; Multistage turbine; Waste heat recovery; Marine diesel engine; Optimization;
Keywords: بازیابی گرما زباله; Optimization; Waste heat recovery; Cascade energy utilization; CCHP; Distributed energy system; Energy quality;