A streamlining method for ejector nozzle profile optimization based on polynomial function

[1]  J. Kuo,et al.  Numerical investigation into effects of ejector geometry and operating conditions on hydrogen recirculation ratio in 80 kW PEM fuel cell system , 2021 .

[2]  Ming Cong,et al.  Numerical studies on ejector in proton exchange membrane fuel cell system with anodic gas state parameters as design boundary , 2021, International Journal of Hydrogen Energy.

[3]  Haoyuan Xue,et al.  Performance analysis and optimization of a steam ejector through streamlining of the primary nozzle , 2021 .

[4]  Xiaodong Wang,et al.  Numerical Investigation of the nozzle expansion state and its effect on the performance of the steam ejector based on ideal gas model , 2021, Applied Thermal Engineering.

[5]  S. Chan,et al.  Droplet Dynamics in a Proton Exchange Membrane Fuel Cell with Ejector-Based Recirculation , 2021, Energy & Fuels.

[6]  V. Dvořák,et al.  An experimental study of an ejector-boosted transcritical R744 refrigeration system including an exergy analysis , 2021 .

[7]  Lei Wang,et al.  Optimal design of two-stage ejector for subzero refrigeration system on fishing vessel , 2021 .

[8]  Yanhua Lai,et al.  Study on the performance of a steam ejector with auxiliary entrainment inlet and its application in MED-TVC desalination system , 2019, Applied Thermal Engineering.

[9]  Bourhan Tashtoush,et al.  A comprehensive review of ejector design, performance, and applications , 2019, Applied Energy.

[10]  Lei Wang,et al.  Design and numerical investigation of an adaptive nozzle exit position ejector in multi-effect distillation desalination system , 2017 .

[11]  Klaus Regenauer-Lieb,et al.  Thermodynamic optimisation of multi effect distillation driven by sensible heat sources , 2014 .

[12]  N. Sharifi Axisymmetric and three dimensional flow modeling within thermal vapor compressors , 2013 .

[13]  Xinping Long,et al.  Numerical investigation on the mixing process in a steam ejector with different nozzle structures , 2012 .

[14]  Thanarath Sriveerakul,et al.  Experimental studies of a steam jet refrigeration cycle: Effect of the primary nozzle geometries to system performance , 2011 .

[15]  Hyomin Jeong,et al.  CFD investigation on the flow structure inside thermo vapor compressor. , 2010 .

[16]  Bogdan Diaconu,et al.  Influence of geometrical factors on steam ejector performance – A numerical assessment , 2009 .

[17]  Bogdan Diaconu,et al.  Numerical assessment of steam ejector efficiencies using CFD , 2009 .

[18]  T. Sriveerakul,et al.  Performance prediction of steam ejector using computational fluid dynamics: Part 2. Flow structure of a steam ejector influenced by operating pressures and geometries , 2007 .

[19]  T. Sriveerakul,et al.  Performance prediction of steam ejector using computational fluid dynamics: Part 1. Validation of the CFD results , 2007 .

[20]  Andrew Ooi,et al.  CFD analysis of ejector in a combined ejector cooling system , 2005 .

[21]  Toshiaki Setoguchi,et al.  Aerodynamics of high-speed railway train , 2002 .

[22]  Yuan-Jen Chang,et al.  Enhancement of a steam-jet refrigerator using a novel application of the petal nozzle , 2000 .

[23]  Da-Wen Sun,et al.  Performance characteristics of HCFC-123 ejector refrigeration cycles , 1996 .

[24]  Saffa Riffat,et al.  Computational fluid dynamics applied to ejector heat pumps , 1996 .

[25]  R. S. Neve,et al.  Computational fluid dynamics analysis of diffuser performance in gas-powered jet pumps , 1993 .

[26]  G. Rao Exhaust Nozzle Contour for Optimum Thrust , 1958 .

[27]  J. Kurian,et al.  Experimental study on mixing enhancement by petal nozzle in supersonic flow , 1996 .