REFERENCES
- Alexander , R.M. ( 1949 ) Fundamentals of cyclone design and operation. Proceedings of the Australian Institute of Minerals and Metals (New Series), 152/153: 202–228.
- Bryant , H.S. ; Silverman , R.W. ; Zenz , F.A. ( 1983 ) How dust in gas affects cyclone pressure drop . Hydrocarbon Process , 62 : 87 – 90 .
- Ji , Z.L. ; Wu , X.L. ; Shi , M.X. ( 1991 ) Experimental research on the natural turning length in the cyclone. Proceedings of Filtech Europa 91 Conference 2, Karlsruhe, Germany: 583–589.
- Zhu , Y. ; Lee , K. W. ( 1999 ) Experimental study on small cyclones operating at high flow rates . Journal of Aerosol Science , 30 ( 10 ): 1303 – 1315 .
- Buttner , H. ( 1988 ) Size separation of particles from aerosol samples using impactors and cyclones . Particle and Particle Systems Characterization , 5 : 87 – 93 .
- Hoffmann , A.C. ; Dejonge , R. ; Arends , H. ; Hanrats , C. ( 1995 ) Evidence of the natural vortex length and its effect on the separation efficiency of gas cyclones . Filtration&Separation , 32 ( 8 ): 799 – 804 .
- Surmen , A. ; Avci , A. ; Karamangil , M.I. ( 2011 ) Prediction of the maximum-efficiency cyclone length for a cyclone with a tangential entry . Powder Technology , 207 ( 1–3 ): 1 – 8 .
- Avci , A. ; Karagoz , I. ( 2003 ) Effects of flow and geometrical parameters on the collection efficiency in cyclone separators . Journal of Aerosol Science , 34 ( 7 ): 937 – 955 .
- Karagoz , I. ; Avci , A. ( 2005 ) Modelling of the pressure drop in tangential inlet cyclone separators . Aerosol Science and Technology , 39 ( 9 ): 857 – 865 .
- Kaya , F. ; Karagoz , I. ; Avci , A. ( 2011 ) Effects of surface roughness on the performance of tangential inlet cyclone separators . Aerosol Science and Technology , 45 ( 8 ): 988 – 995 .
- Derksen , J.J. ; van den Akker , H.E.A. ( 2000 ) Simulation of vortex core precession in a reverse-flow cyclone . A. I. Ch. E. Journal , 46 : 1317 – 1331 .
- Solero , G. ; Coghe , A. ( 2002 ) Experimental fluid dynamic characterization of a cyclone chamber . Experimental Thermal and Fluid Science , 27 : 87 – 96 .
- Gil , A. ; Cortes , C. ; Romeo , L.M. ; Velilla , J. ( 2002 ) Gas-particle flow inside cyclone diplegs with penumatic extraction . Powder Technology , 128 : 78 – 91 .
- Hoffmann , A.C. ; de Groot , M. ; Peng , W. ; Dries , H.W.A. ; Kater , J. ( 2001 ) Advantages and risks in increasing cyclone separator length . Aiche Journal , 47 ( 11 ): 2452 – 2460 .
- Peng , W. ; Hoffmann , A.C. ; Dries , H.W.A. ; Regelink , M.A. ; Stein , L.E. ( 2005 ) Experimental study of the vortex end in centrifugal separators: The nature of the vortex end . Chemical Engineering Science , 60 : 6919 – 6928 .
- Gil , A. ; Romeo , L.M. ; Cortes , C. ( 2001 ) Cold flow model of a PFBC cyclone . Powder Technology , 117 : 207 – 220 .
- Gil , A. ; Romeo , L.M. ; Cortes , C. ( 2002 ) Effect of the solid loading on a PFBC cyclone with pneumatic extraction of solids . Chemical Engineering and Technology , 25 : 407 – 415 .
- Qian , F. ; Zhang , J. ; Zhang , M. ( 2006 ) Effects of prolonged vertical tube on the separation performance of a cyclone . Journal of Hazardous Materials , B136 : 822 – 829 .
- Kuo , K.Y. ; Tsai , C.J. ( 2001 ) On the theory of particle collection efficiency of cyclones . Aerosol and Air Quality Research , 1 ( 1 ): 47 – 56 .
- Cortes , C. ; Gil , A. ( 2007 ) Modeling the gas and particle flow inside cyclone separators . Progress in Energy and Combustion Science , 33 : 409 – 452 .