REFERENCES
- Wankat , P.C. Rate-Controlled Separations ; Blackie Academic & Professional : Glasgow , UK , 1990 .
- Ohtsu , Y. ; Shiojima , Y. ; Okumura , T. ; Koyama , J.I. ; Nakamura , K. ; Nakata , O. Performance of polymer coated silica C18 packing materials prepared from high-purity silica gel . J. Chromatogr. 1989 , 48 , 147 – 157 .
- Yamagami , C. ; Yokota , M. ; Takao , N. Hydrophobicity parameters determined by reversed-phase liquid chromatography: VIII. Hydrogen-bond effects of ester and amide groups in heteroaromatic compounds on the relationship between the capacity factor and the octanol—water partition coefficient . J. Chromatogr. A 1994 , 662 , 49 – 60 .
- Pais , L.S. ; Loureiro , J.M. ; Rodrigues , A.E. Separation of 1,1′-bi-2-naphthol enantiomers by continuous chromatography in simulated moving bed . Chem. Eng. Sci. 1997 , 52 , 245 – 257 .
- Xie , Y. ; Hritzko , B. ; Chin , C.Y. ; Wang , N.H.L. Separation of FTC-ester enantiomers using a simulated moving bed. Ind. Eng. Chem. Res. 2003, 42, 4055–4067.
- Bae , Y.S. ; Lee , C.H. Partial-discarded strategy for obtaining high purity products using simulated moving bed chromatography . J. Chromatogr. A 2006 , 1122 , 161 – 173 .
- Storti , G. ; Masi , M. ; Carra , S. ; Morbidelli , M. Optimal design of multicomponent countercurrent adsorption separation processes involving nonlinear equilibria . Chem. Eng. Sci. 1989 , 44 , 1329 – 1345 .
- Zhong , G. ; Guiochon , G. Analytical solution for the linear ideal model of simulated moving bed chromatography . Chem. Eng. Sci. 1996 , 51 , 4307 – 4319 .
- Ma , Z. ; Wang , N.H.L. Standing wave analysis of SMB chromatography: Linear systems . AIChE J. 1997 , 43 , 2488 – 2508 .
- Hritzko , B.J. ; Xie , Y. ; Wooley , R. ; Wang , N.H.L. Standing wave design of tandem SMB for linear multicomponent systems . AIChE J. 2002 , 48 , 2769 – 2787 .
- Ergun , S. Flow through packed columns . Chem. Eng. Prog. 1952 , 48 , 89 – 94 .
- Lee , K.B. ; Mun , S. ; Cauley , F. ; Cox , G.B. ; Wang , N.H.L. Optimal standing wave design of nonlinear simulated moving bed systems for enantioseparation . Ind. Eng. Chem. Res. 2006 , 45 , 739 – 752 .
- Zang , Y.F. ; Wankat , P.C. Variable flow rate operation for simulated moving bed separation systems: simulation and optimization . Ind. Eng. Chem. Res. 2003 , 42 , 4840 – 4848 .
- Hur , J.S. ; Wankat , P.C. New design of simulated moving bed for ternary separations . Ind. Eng. Chem. Res. 2005 , 44 , 1906 – 1913 .
- Mun , S. Effect of subdividing the adsorbent bed in a five-zone simulated moving bed chromatography for ternary separation . J. Liq. Chromatogr. & Rel. Technol. 2008 , 31 , 1231 – 1257 .
- Ma , Z. ; Tanzil , D. ; Au , B.W. ; Wang , N.H.L. Estimation of solvent-modulated linear adsorption parameters of taxanes from dilute plant tissue culture broth . Biotechnol Prog. 1996 , 12 , 810 – 821 .
- Chung , S.F. ; Wen , C.Y. Longitudinal dispersion of liquid flowing through fixed and fluidized beds . AIChE J. 1968 , 14 , 857 – 866 .
- Wilson , E.J. ; Geankoplis , C.J. Liquid mass transfer at very low Reynolds numbers in packed beds . Ind. Eng. Chem. Fundam. 1966 , 5 , 9 – 14 .
- Wilke , C.R. ; Chang , P.I.N. Correlations of diffusion coefficients in dilute solutions . AIChE J. 1955 , 1 , 264 – 270 .
- Mackie , J.S. ; Meares , P. The Diffusion of electrolytes in a cation-exchange resin membrane . Pro. R. Soc. Lond. Ser. A 1955 , 232 , 498 – 518 .