Keywords: چرخه فشرده سازی بخار; Heat exchanger; Wave fin; Tube-by-tube method; Vapor compression cycle; Heat pump; Air-conditioning;
مقالات ISI چرخه فشرده سازی بخار (ترجمه نشده)
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Keywords: چرخه فشرده سازی بخار; Exergy; HVAC; Pull-down time; Thermodynamic optimization; Vapor compression cycle;
Keywords: چرخه فشرده سازی بخار; Review; Refrigerator; Vapor compression cycle; Not-in-kind; Multi-stage;
Keywords: چرخه فشرده سازی بخار; Thermo-physical parameters of soil; Thermal and flow parameters of air; Pipe length; Roughness of pipe; Transient operation; Intermittent operation; ACC; Air Cooled Condenser; ACH; Air Changes per Hour; ACHP; Air Cooled Heat Pump; BTM; Building Thermal Ma
Keywords: چرخه فشرده سازی بخار; Organic Rankine cycle; vapor compression cycle; serial cascde; hydrocarbons;
Keywords: چرخه فشرده سازی بخار; Air conditioning; Vapor compression cycle; Organic Rankine cycle; Waste heat recovery; Working fluid; Thermodynamic; thermo-economic analysis;
Keywords: چرخه فشرده سازی بخار; Integrated cooling system; Pumped refrigerant two-phase cycle; Vapor compression cycle; Liquid refrigerant pump; Feasibility analysis;
Keywords: چرخه فشرده سازی بخار; Refrigeration system; Vapor compression cycle; Parameter identification; Global validation; Phase-change heat exchanger;
Keywords: چرخه فشرده سازی بخار; Model predictive control; Electronics cooling; Vapor compression cycle; Critical heat flux; Commande prédictive du modèle; Refroidissement d'électronique; Cycle à compression de vapeur; Flux de chaleur critique;
Keywords: چرخه فشرده سازی بخار; Waste heat; Cascaded cooling; Container ships; Refrigeration; Vapor compression cycle; Energy saving
Keywords: چرخه فشرده سازی بخار; CFD; Ejector; Turbulence modeling; Refrigeration; Supersonic flow; Review; Mécanique numérique des fluides (CFD); Ãjecteur; Modélisation de turbulence; Froid; écoulement supersonique; Synthèse; CFD; computational fluid dynamics; COP; coefficient of
Keywords: چرخه فشرده سازی بخار; Transcritical cycle; Vapor compression cycle; Rankine cycle; Intercity bus air-conditioning; Engine exhaust heat;
Keywords: چرخه فشرده سازی بخار; Organic Rankine cycle; Vapor compression cycle; Low grade source; Thermal efficiency; Exergy efficiency
Keywords: چرخه فشرده سازی بخار; Water desalination; Air conditioning; Humidification-dehumidification; Vapor compression cycle;
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Subcooling; Ejector; Expander; Injection; Saturation cycleCycle à compression de vapeur; Sous refroidissement; Ejecteur; Détendeur; Injection; Cycle à saturation
Keywords: چرخه فشرده سازی بخار; Heat pump; Heating capacity enhancement; Thermoelectric modules; Vapor compression cycle; Pompe chaleur; Amélioration de la puissance calorifique; Modules thermoélectriques; Cycle à compression de vapeur;
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Heat pump; Waste heat recovery; Refrigeration; Carnot cycle; Trapezoid cycleCycle à compression de vapeur; Pompe à chaleur; Récupération de chaleur; Réfrigération; Cycle de Carnot; Cycle trapézoïde
Keywords: چرخه فشرده سازی بخار; Year-round cooling; Self-operated three-way valve; Vapor compression cycle; Thermosyphon cycle; Simulation;
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; CHF; Control; Modeling; Electronics cooling;
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Electronics cooling; Critical heat flux; Feedback control; Gain-scheduling control;
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Electronics cooling; Critical heat flux; Dynamic modeling; Critical heat flux enhancement;
Keywords: چرخه فشرده سازی بخار; Flooded compression; Regeneration; Vapor compression cycle; Heat pumpsCompression noyée; Régénération; Cycle à compression de vapeur; Pompes à chaleur
Energy analysis of a hybrid PEMFC-solar energy residential micro-CCHP system combined with an organic Rankine cycle and vapor compression cycle
Keywords: چرخه فشرده سازی بخار; CCHP; PEMFC; Solar energy; Organic Rankine Cycle; Vapor Compression Cycle; Energy analysis;
Energy- and exergy-based working fluid selection and performance analysis of a high-temperature PEMFC-based micro combined cooling heating and power system
Keywords: چرخه فشرده سازی بخار; Micro-CCHP; High-temperature PEMFC; Working fluid selection; Energy and exergy analysis; Organic Rankine Cycle; Vapor compression cycle;
Working fluids selection and parametric optimization of an Organic Rankine Cycle coupled Vapor Compression Cycle (ORC-VCC) for air conditioning using low grade heat
Keywords: چرخه فشرده سازی بخار; Organic Rankine Cycle; Vapor Compression Cycle; Working fluid; Air conditioning; Low grade heat; Exergy; Genetic algorithm;
Thermodynamic analysis of a combined organic Rankine cycle and vapor compression cycle system activated with low temperature heat sources using low GWP fluids
Keywords: چرخه فشرده سازی بخار; Organic Rankine cycle; Vapor compression cycle; Thermally activated cooling; Low temperature heat sources; Low GWP fluids;
Model predictive control of hybrid thermal energy systems in transport refrigeration
Keywords: چرخه فشرده سازی بخار; Transport refrigeration; Model predictive control; Vapor compression cycle; Thermal energy storage; Gray-box modeling;
Performance evaluation of a combined ejector-vapor compression cycle
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Ejector-cooling cycle; Combined refrigeration cycle; Air-cooled condenser; Sub-cooling; Performance evaluation
Ground source heat pumps for heating: Parametric energy analysis of a vapor compression cycle utilizing an economizer arrangement
Keywords: چرخه فشرده سازی بخار; Heating; Heat pump; Geothermal; Energy analysis; Vapor compression cycle; Ground loop heat exchanger
Modelica-based modeling and simulation of a twin screw compressor for heat pump applications
Keywords: چرخه فشرده سازی بخار; Compressor; High temperature heat pump; Vapor compression cycle; Water working fluid; Modelica modeling; Transient state
A high efficiency solar air conditioner using concentrating photovoltaic/thermal collectors
Keywords: چرخه فشرده سازی بخار; PVT collector; TRNSYS; UAE; Solid desiccant; Vapor compression cycle
Offset-free model predictive control of a vapor compression cycle
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Model predictive control; Off-set free control
Energy efficient model predictive building temperature control
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Temperature control; Building control; Energy efficient control; Model predictive control; EnergyPlus
Design study of configurations on system COP for a combined ORC (organic Rankine cycle) and VCC (vapor compression cycle)
Keywords: چرخه فشرده سازی بخار; Organic Rankine cycle (ORC); Thermally activated cooling; Vapor compression cycle; COP; Waste heat; R245fa;
The steady-state modeling and optimization of a refrigeration system for high heat flux removal
Keywords: چرخه فشرده سازی بخار; High heat flux; Vapor compression cycle; CHF; COP; Pareto optimization
Control of air-conditioning systems in heating mode to enhance transient performance and steady-state efficiency
Keywords: چرخه فشرده سازی بخار; Air-conditioning system; Heating mode; Vapor compression cycle; Feedback control; Bumpless-switching compensator
A dynamic switching strategy for air-conditioning systems operated in light-thermal-load conditions
Keywords: چرخه فشرده سازی بخار; Air-conditioning system; Vapor compression cycle; Actuator limitation; Feedback control; Dynamic switching strategy;
Control of multi-evaporator air-conditioning systems for flow distribution
Keywords: چرخه فشرده سازی بخار; Vapor compression cycle; Multi-evaporator air-conditioner (MEAC); System identification; Flow distribution
Mode switching control of dual-evaporator air-conditioning systems
Keywords: چرخه فشرده سازی بخار; Air-conditioning system; Vapor compression cycle; Multi-evaporator; Feedback control; Flow distribution; Mode switching