Keywords: انژکتور فوق العاده; Supersonic ejector; Fabri-choking; Turbulent mixing; Shock wave pattern;
مقالات ISI انژکتور فوق العاده (ترجمه نشده)
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Keywords: انژکتور فوق العاده; Non-uniform distribution; Supersonic ejector; Thermodynamic model; All modes; Distribution non uniforme; Ãjecteur supersonique; Modèle thermodynamique; Tous modes;
Keywords: انژکتور فوق العاده; Supersonic ejector; Performance parameters; Mixing characteristics;
Keywords: انژکتور فوق العاده; Supersonic ejector; Transport tubes; Turbulent mixing; Exergy analysis;
Keywords: انژکتور فوق العاده; Supersonic ejector; Dilution cum purge ejector; Fuel cells; Secondary gas properties; Control volume method; Gaseous mixing;
Keywords: انژکتور فوق العاده; Supersonic ejector; Gaseous mixing; Mixing enhancement; Lobed nozzle
Keywords: انژکتور فوق العاده; Supersonic ejector; Perfect gas; Double choking; Single choking; Polytropic efficiencyÉjecteur supersonique; Gaz parfait; Double amortissement; Simple amortissement; Rendement polytropique
The compound-choking theory as an explanation of the entrainment limitation in supersonic ejectors
Keywords: انژکتور فوق العاده; Supersonic ejector; Compound-choking; Fabri-choking; CFD;
Realization of novel constant rate of kinetic energy change (CRKEC) supersonic ejector
Keywords: انژکتور فوق العاده; CRKEC; Supersonic ejector; Frictional effects;
Turbulence modeling of a single-phase R134a supersonic ejector. Part 1: Numerical benchmark
Keywords: انژکتور فوق العاده; Supersonic ejector; Turbulence modeling; R134a refrigerant; Shock waveEjecteur supersonique; Modélisation de la turbulence; Frigorigène R134a; Onde de choc
Turbulence modeling of a single-phase R134a supersonic ejector. Part 2: Local flow structure and exergy analysis
Keywords: انژکتور فوق العاده; Supersonic ejector; Turbulence modeling; R134a refrigerant; Shock wave; Exergy analysisEjecteur supersonique; Modélisation de la turbulence; Frigorigène R134a; Onde de choc; Analyse exergétique
An investigation of thermo-compressor design by analysis and experiment: Part 1. Validation of the numerical method
Keywords: انژکتور فوق العاده; Thermo-compressor; CFD simulation; Supersonic ejector; Numerical modeling
Maximizing pressure recovery using lobed nozzles in a supersonic ejector
Keywords: انژکتور فوق العاده; Supersonic ejector; Lobed nozzles; Pressure recovery
CFD analysis of a supersonic air ejector. Part II: Relation between global operation and local flow features
Keywords: انژکتور فوق العاده; Supersonic ejector; Air-conditioning; CFD-experiment integration; Turbulence models;
Structural optimization and experimental investigation of supersonic ejectors for boosting low pressure natural gas
Keywords: انژکتور فوق العاده; Supersonic ejector; Natural gas production; Structural optimization; Entrainment ratio; Pressure ratio
CFD analysis of a supersonic air ejector. Part I: Experimental validation of single-phase and two-phase operation
Keywords: انژکتور فوق العاده; Supersonic ejector; Air-conditioning; CFD-experiment integration; Turbulence models; Two-phase compressible flows;
Application of novel pressure-sensitive paint formulations for the surface flow mapping of high-speed jets
Keywords: انژکتور فوق العاده; Pressure-sensitive paint; Supersonic ejector; Shock waves; Vortex flow; High-speed jets;
Numerical assessment of ejector operation for refrigeration applications based on CFD
Keywords: انژکتور فوق العاده; Supersonic ejector; Shock waves–boundary layer interaction; Refrigeration; Modeling; Turbulence
Numerical and experimental investigations on supersonic ejectors
Keywords: انژکتور فوق العاده; Shock waves; Turbulence modeling; Pressure measurements; Supersonic ejector; Refrigeration; Shock-boundary layer interaction; On-off-design;