The structure of the new NS-100 nonpolysaccharide reverse osmosis membranes and additional separation properties relating to removal of impurities from water has been investigated. Infrared spectrophotometric evidence has indicated that the urea linkages are formed before the heat cure step. The heat curing process was found to cross-link the polymer further by elimination of ammonia and formation of additional secondary and tertiary amine linkages. Long-term tests under seawater conditions have indicated water fluxes of 18 gfd at 99.5 percent salt rejection. The NS-100 membranes have exhibited high rejections toward organic compounds; for example, phenol is rejected up to 90 percent. All experimental data indicate that the NS-100 membranes are more resistant to varying environments with higher reverse osmosis performance than any current commercial membrane.
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February 1975
This article was originally published in
Journal of Engineering for Industry
Research Papers
NS-100 Membranes for Reverse Osmosis Applications
L. T. Rozelle,
L. T. Rozelle
North Star Research Institute, Minneapolis, Minn.
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C. V. Kopp, Jr.,
C. V. Kopp, Jr.
North Star Research Institute, Minneapolis, Minn.
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J. E. Cadotte,
J. E. Cadotte
North Star Research Institute, Minneapolis, Minn.
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K. E. Cobian
K. E. Cobian
North Star Research Institute, Minneapolis, Minn.
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L. T. Rozelle
North Star Research Institute, Minneapolis, Minn.
C. V. Kopp, Jr.
North Star Research Institute, Minneapolis, Minn.
J. E. Cadotte
North Star Research Institute, Minneapolis, Minn.
K. E. Cobian
North Star Research Institute, Minneapolis, Minn.
J. Eng. Ind. Feb 1975, 97(1): 220-223
Published Online: February 1, 1975
Article history
Received:
April 1, 1974
Online:
July 15, 2010
Citation
Rozelle, L. T., Kopp, C. V., Jr., Cadotte, J. E., and Cobian, K. E. (February 1, 1975). "NS-100 Membranes for Reverse Osmosis Applications." ASME. J. Eng. Ind. February 1975; 97(1): 220–223. https://doi.org/10.1115/1.3438541
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