Environmental Engineering Reference
In-Depth Information
[14]
Smitha, B., D. Suhanya, S. Sridhar, and M. Ramakrishna (2004).
Separation of
organic- organic mixtures by pervaporation: a review
, J Membr Sci 241:1-21.
[15]
van Reis, R., L. C. Leonard, H. C. Chung, and S. E. Builder (1991).
Industrial scale
harvest of proteins from mammalian cell culture by tangential flow filtration,
Biotechnol Bioeng 3 8:413-422.
[16]
Dorgan, J. R. (1992).
Polymer Membranes for Bioseparations
, in Polymer Applications
for Biotechnology (D. S. Soane, Ed.). Prentice Hall, Englewood Cliffs, pp 314.
[17]
Belfort, G., R. H. Davis, and A. L. Zydney (1994).
The behavior of suspensions and
macromolecular solutions in crossflow microfiltration
, J Membr Sci 96:1-58.
[18]
Levesley, J. A., and M. Hoare (1999).
The effect of high frequency backflushing on the
microfiltration of yeast homogenate suspensions for the recovery of soluable proteins,
J
Membr Sci 158:29-39.
[19]
Kurnik, R. T., A. W. Vu, G. S. Blank, A. R. Burton, D. Smith, A. M. Athalye, and
R. van Reis (1995).
Buffer exchange using size exclusion chromatography,
countercurrent dialysis, and tangential flow filtration: models, development, and
industrial application,
Biotechnol Bioeng 45:149-157.
[20]
Kahn, D. W., M. D. Butler, G. M. Cohen, J. W. Kahn, and M. E. Winkler (2000).
Purification of plasmid DNA by tangential flow filtration
, Biotechnol Bioeng 69:101-
106.
[21]
Cruz, P. E., C. C. Peixoto, K. Devos, J. L. Moreira, E. Saman, and M. J. T. Carrondo
(2000).
Characterization and downstream processing of HIV-1 core and virus-Iike-
particles produced in serum free medium,
Enzyme Microb Technol 26:2661-2670.
[22]
van Reis, R., and A. L. Zydney (1999)
. Protein ultrafiltration, in Encyclopedia of
Bioprocess Technology: Fermentation, Biocatalysis, and Bioseparation
(M. C.
Flickinger and S. W. Drew, Eds.). John Wiley & Sons, New York, pp 2197-2214.
[23]
Zeng, X., and E. Ruckenstein (2000).
Membrane chromatography: preparation and
applications to protein separation
, Biotechnol Prog 15:1003-1019.
[24]
Schweitzer, P. A. (1997).
Handbook of Separation Techniques for Chemical Engineers
.
McGraw-Hill.
[25]
Noble, R. D., and P. A. Terry (2004).
Principles of Chemical Separations with
Environmental Applications.
Cambridge University Press.
[26]
van Reis, R., E. M. Goodrich, C. L. Yson, L. N. Frautschy, R. Whiteley, and Z. Al
(1997).
Constant Cwall ultrafi ltration process control
, J Membr Sci 130:123-140.
[27]
Sarfert, F. T., and M. R. Etzel (1997).
Mass transfer limitations in protein separations
using ion-exchange membranes,
J Chromatogr A 764:3-20.
[28]
Klein, E. (2000). Affinity membranes: a 10 year review, J Membr Sci 179:1-27.
[29]
Laffend, L. A. (1997).
Bioconversion of a Fermentable Carbon Source to 1,3-
propanediol by a Single Microorganism
, E.I. DuPont de Nemours and Company, Patent
5686276.
[30]
Pend, M., S. X. Liu, and L. M. Vane (2003).
Profiling concentration gradient in a
tubular membrane pervaporation module: a modeling approach
, Intl Comm Heat Mass
Transfer 30:755-764.
[31]
Kemmere, M. F., and T. Meyer, Eds. (2005).
Supercritical Carbon Dioxide in Polymer
Reaction Engineering
. John Wiley & Sons.