REFERENCES
- Alperin , M. and Wu , J. J. 1983 . Thrust Augmenting Ejector, Part I . AIAA Journal , 21 ( 10 ) : 1428 – 1436 .
- Alperin , M. and Wu , J. J. 1983 . Thrust Augmenting Ejector, Part II . AIAA Journal , 21 ( 12 ) : 1428 – 1698 .
- Chunnanond , K. and Aphornratana , S. 2004 . Ejectors: Applications in Refrigeration Technology . Renewable and Sustainable Energy Reviews , 8 ( 2 ) : 129 – 155 .
- Munday , J. T. and Bagster , D. F. 1977 . A New Ejector Theory Applied to Steam Jet Refrigeration . Industrial & Engineering Chemistry Process Design and Development , 16 ( 4 ) : 442 – 449 .
- Huang , B. J. , Chang , J. M. , Wang , C. P. and Petrenko , V. A. 1999 . A 1-D Analysis of Ejector Performance . International Journal of Refrigeration , 22 ( 5 ) : 354 – 364 .
- Sarshar , M. M. 1999 . Boosting Production From Low-Pressure Oil and Gas Fields: A Revolution in Hydrocarbon Production . Philosophical Transactions of the Royal Society of London A , 357 ( 1753 ) : 921 – 941 .
- Sarshar , M. M. , Beg , N. A. and Andrews , I. The Applications of Jet Pumps as a Cost Effective Way to Enhance Gas Production and Recovery . Proceedings, Indonesian Petroleum Association Twenty-Ninth Annual Convention & Exhibition , Paper IPA03-E-059
- Melancon , K. and Nunn , J. 2004 . Ejector Vapor Recovery Unit Reliably and Economically Recovers Vent and Flash Gas . World Oil , 225 ( 11 ) : 75 – 76 .
- Andreussi , P. , Sodini , S. , Faluomi , V. , Ciandri , P. , Ansiati , A. , Paone , F. , Battaia , C. and Ghetto , G. D. Multiphase Ejector to Boost Production: First Application in the Gulf of Mexico . Offshore Technology Conference , Houston , TX Paper OTC 15170
- Chong , D. T. , Yan , J. J. , Wu , G. S. and Liu , J. P. 2009 . Structural Optimization and Experimental Investigation of Supersonic Ejectors for Boosting Low Pressure Natural Gas . Applied Thermal Engineering , 29 ( 14–15 ) : 2799 – 2807 .
- Chen , W. X. , Chong , D. T. , Yan , J. J. and Liu , J. P. 2011 . Numerical Optimization on the Geometrical Factors of Natural Gas Ejectors . International Journal of Thermal Sciences , 50 ( 8 ) : 1554 – 1561 .
- Sriveerakul , T. , Aphornratana , S. and Chunnanond , K. 2007 . Performance Prediction of Steam Ejector Using Computational Fluid Dynamics: Part 1. Validation of the CFD Results . International Journal of Thermal Sciences , 46 ( 8 ) : 812 – 822 .
- Sriveerakul , T. , Aphornratana , S. and Chunnanond , K. 2007 . Performance Prediction of Steam Ejector Using Computational Fluid Dynamics: Part 2. Flow Structure of a Steam Ejector Influenced by Operating Pressures and Geometries . International Journal of Thermal Sciences , 46 ( 8 ) : 823 – 833 .
- Riffat , S. B. and Everitt , P. 1999 . Experimental and CFD Modelling of an Ejector System for Vehicle Air Conditioning . Journal of Institute of Energy , 72 ( 491 ) : 41 – 47 .
- Bartosiewicz , Y. , Aidoun , Z. , Desevaux , P. and Mercadier , Y. 2005 . Numerical and Experimental Investigations on Supersonic Ejectors . International Journal of Heat and Fluid Flow , 26 ( 1 ) : 56 – 70 .
- Bartosiewicz , Y. , Aidoun , Z. and Mercadier , Y. 2006 . Numerical Assessment of Ejector Operation for Refrigeration Applications Based on CFD . Applied Thermal Engineering , 26 ( 4–5 ) : 604 – 612 .
- Al-Ansary , H. A. M. and Jeter , S. M. 2004 . Numerical and Experimental Analysis of Single-Phase and Two-Phase Flow in Ejectors . HVAC & R Research , 10 ( 4 ) : 521 – 538 .
- Hemidi , A. , Henry , F. , Leclaire , S. , Seynhaeve , J. M. and Bartosiewicz , Y. 2009 . CFD Analysis of a Supersonic Air Ejector. Part I: Experimental Validation of Single-Phase and Two-Phase Operation . Applied Thermal Engineering , 29 ( 14–15 ) : 2990 – 2998 .
- Tao , W. Q. 2001 . Numerical Heat Transfer, 2nd edition , Xi’an : Xi’an Jiaotong University Press .
- Morsi , S. A. and Alexander , A. J. 1972 . An Investigation of Particle Trajectories in Two-Phase Flow Systems . Journal of Fluid Mechanics , 55 ( 2 ) : 193 – 208 .