1. Vigneswaran, S. and Ben Aim, R., Water, Wastewater and Sludge Filtration, CRC Press, Boca Raton, FL, pp 139-224, (1989).
2. Paulson, David J.; Wilson, Richard L.; and Spatz, D. Dean, "Crossflow Membrane Technology and Its Applications," Food Technology 38 (12) 77-87,&111(1984).
3. Mohr, C.M.; Leeper, S.A.; Engelgau, D.E.; and Charboneau, B.L., Membrane Applications and Research in Food Processing, (Noyes Data Corporation, Park Ridge, NJ) p. 305 (1989).
4. Morr, C.V., "Current Status of Soy Protein Functionality in Food Systems," Journal of the American Oil Chemists' Society 67 (5) 265-27 (1990).
5. Lawhorn, J.T. andLusas, E.W., "NewTechniques inMembrane Processing of Oilseeds," Food Technology 38 (12) 95-106 (1984).
6. Lorchirachoonkul, S., Diss. Abst Intern B45 (1) 117 (1984).
7. Cheryan, Munir, Ultrafiltration Handbook (Technomic Publishing Company, Inc., Lancaster, PA) p. 374 (1986).
8. Paulson, David J., "An Overview of and Definitions for Membrane Fouling," Osmonics, Inc. Presented at 5th Annual Membrane Technology/Planning Conference, October 1987, Cambridge, MA.
9. Van den Berg, G.B.; Hanemajer, J.H. and Smolders, C.A., "Ultrafiltration of Protein Solutions; the Role of Protein Association in Rejection and Osmotic Pressure," Journal of Membrane Science, 31 (1987) 307-320.
10. Porter, Mark C., Handbook of Industrial Membrane Technology, 1990 (Noyes Publications, Park Ridge, NJ) p. 174.
11. Bailey, A.I., Mohammed, R.A., Luckham, P.F., Taylor, S.E., Dewatering of Crude Oil Emulsions. Ill - Emulsion Resolution by Chemical Means, Colloids and Surfaces, v.83, pp.261-271, 1994.
12. Bailey, A.I., Chen, T.Y., Mohammed, R.A., Luckham, P.F., Taylor, S.E. , Dewatering of Crude Oil Emulsions. IV - Emulsion Resolution by Electrical Means, Colloids and Surfaces, v.83, pp.273-284, 1994.
13. Clay, P.G., Adeleye, S.A., Olapido, M.O.A. , Sorption of Caesium,
Strontium and Europium Ions on Clay Minerals, J. Materials Science, v.29, pp.954-958, 1994.
14. Livingston, A.G., Brookes, P.R., Biological Detoxification of a 3-chloronitrobenzene Manufacture Wastewater in an Extractive Membrane Bioreactor, Water Research, v.28, pp. 1347-1354, 1994.
15. Livingston, A.G., Extractive Membrane Bioreactors : A New Process Technology for Detoxifying Industrial Waste waters, J. Chem. Tech. Biotech., v.60, pp. 117-124, 1994.
16. Livingston, A.G., Freitas dos Santos, L.M., Extraction and Biodégradation of a Toxic Volatile Organic Compound (1,2 dichloroethane) from Wastewater in a Membrane Bioreactor, Applied Microbiology and Biotechnology, v.42, pp.42M31, 1994.
17. White, D.A., Rautiu, R., Adeleye, S.A., Adkins, L., The use of zeta potential measurements in inorganic ion exchange studies, Hydrometallurgy, v.35, pp.361-374, 1994.
18. White, D.A., Fathurrachman, Extraction of uranium (VI) and uranium (IV) from hydrochloric acid using tri-n-octylamine in a benzene diluent, Hydrometallurgy, v.36, pp.161-168, 1994.
19. Livingston, A.G., Brookes, P.R., Detoxification of chemical industry wastewaters using an extractive membrane bioreactor, 49th Annual Purdue Industrial Waste Conference, May 9-11, 1994.
20. Livingston, A.G., Freitas dos Santos, L., Membrane attached biofilms for desctruction of volatile oragnic compounds (VOC), Proc. 3rd Asia Pacific Biochemical Eng. Cong, Singapore, 1994.
21. Stuckey, D.C., Caridis, K.A., Leak, D.J., Design of a novel bioreactor with cell recycle for continuous biotransformation and product extraction, Proc. 3rd Asia Pacific Biochemical Eng. Confi, Singapore, pp.315-317, 1994.
22. Stuckey, D.C., Caridis, K. A., Leak, D. J., Kinetics of Mycobacterium M156 for chiral biotransformations, Biotechnology '94, 2nd Int. Symp. on Applied Biocatalysis, Brighton, pp.37-39, 1994.
23. Stuckey, D.C., Rosjidi, M., Leak, D.I., The downstream separation of chiral epoxides using colloidal liquid aphrons (CLAs), "Separations for Biotechnology III" ed. D.L. Pyle, pp.440-446, SCI Publishing, 1994.
24. Bailey, A.I., Cardenas-Valera, A.E., Doroszkowsi, A., Graft copolymers as stabilizers for oil-in-water emulsions. Part 1. Synthesis of the copolymers and their behaviour as monolayers spread at the air-water and oil-water interfaces, Colloids and Surfaces, v.96, pp.53-67, 1995.
25. Bailey, A.I., Cardenas-Valera, A.E., Graft copolymers as stabilizers for oil-in-water emulsions. Part 2. Preparation of the emulsions and the factors affecting their stability, Colloids and Surfaces, v.97, pp. 1-12, 1995.
26. Freitas dos Santos, L.M., Biological treatment of VOC containing wastewaters: novel extractive membrane bioreactor vs. conventional aerated bioreactor, Process Safety and Environmental Protection, v.3, part B,
27. Livingston, A.G., Freitas dos Santos, L.M., Novel membrane bioreactor for detoxification of VOC wastewaters : biodegradation of 1,2 dichloroethane,
28. White, D.A., Assabumrungrat, S., Puttick, S., Sizing of inorganic micro filtration monoliths for water and air purification, Trans, of the IChemE,
29. Freitas dos Santos, L.M., Livingston, A.G., Membrane attached biofilms: novel technique for measurement of biofilm thickness, density and diffusivity, Proc. IAWQ Conf. Workshop on Biofilm Structure, Growth and Dynamics - Need for New Concept?, Noordwijkerjout, The Netherlands,
30. Freitas dos Santos, L.M., Pavasant, P., Pistikopoulos, E.N., Livingston, A.G., Growth of immobilised cells: results and predictions for membrane-attached biofilms using a novel in situ biofilm thickness measurement technique, Immobilised Cells: Basics and Applications, Ed. Wijfells, R.H., Buitelaar, R.M., Bucke, C., Tramper, J., Progess in Biotech. 11, pp.29031. Livingston, A.G., Gikas, P., Viability of immobilised cells: use of specific
ATP levels and oxygen uptake rates., Immobilised Cells: Basics and Applications, Ed. Wijfells, R.H., Buitelaar, R.M., Bucke, C., Tramper, J.,
32. Mendes-Tatsis, M.A., Agble, D., Mass transfer with interfacial convection and added surfactants, Int. Solvent Extraction Conf. (ISEC '96) Value adding through solvent extraction, Ed. Shallcross, D.C., Paimin, R. Prvcic, L.M.,
33. Perez de Ortiz, E.S., Dias Lay, M. De L., Gruentges, K., Aluminium and iron extraction by DNNSA and DNNSA-DEHPA reverse micelles, Int. Solvent Extraction Conf. (ISEC '96) Value adding through solvent extraction, Ed. Shallcross, D.C., Paimin, R. Prvcic, L.M., Melbourne, Australia,
34. Perez de Ortiz, E.S., Henman, T.E., Hall, T., Le Febvre, W., Coagulant recycle from water treatment residuals: technical and economic feasibility of processes for purifying recovered coagulants, Proc. of the 10th Annual Residuals and Biosolids Management Conference: 10 Years of Progress and Look Toward the Future, Water Environment Federation, 10-1 to 10-8,1996.
35. White, D.A., Helbig, J., Production of floes for water treatment by electrodialysis in a cell fitted with an inorganic membrane, Progress in Membrane Science & Technology Conf, pp.35-36, Univ. of Twente, The
Was this article helpful?