Title

Nanofiltration and reverse osmosis biostability relative to alternative methods of water treatment

Authors

Authors

S. B. Liu; M. LePuil; J. S. Taylor;A. A. Randall

Comments

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Abbreviated Journal Title

J. Water Supply Res Technol.-Aqua

Keywords

AOC; biostability; distribution; material; membrane; treatment; ASSIMILABLE ORGANIC-CARBON; FIXED BACTERIAL BIOMASS; DRINKING-WATER; DISTRIBUTION-SYSTEM; BIOFILM FORMATION; OZONATED WATER; QUALITY; GROWTH; AOC; REGROWTH; Engineering, Civil; Water Resources

Abstract

Biostability of finished waters was assessed statistically using assimilable organic carbon, biodegradable dissolved organic carbon and heterotrophic plate counts. Biofilm growth on lined cast iron and polyvinylchloride pipe material was galvanized steel unlined cast iron,, assessed visually and statistically using potential exoproteolytic activity, which is a measure of biofilm cell density. Seven different treatment processes were used to simulate full scale treatment and distribution of ground, surface and saline sources to pilot distribution systems lined cast iron and polyvinylchloride pipes taken from galvanized made from unlined cast iron,, actual distribution systems. Bulk water biostability parameters as measured by assimilable organic carbon, biodegradable dissolved organic carbon and heterotrophic plate counts were lower in reverse osmosis finished water and higher in conventionally treated groundwater. Average finished water assimilable organic carbon indicated reverse osmosis and nanofiltration membrane processes reduced assimilable organic carbon relative to finished groundwater produced by conventional treatment or softening, and finished surface water produced by enhanced coagulation. This relationship was not observed clearly for biodegradable dissolved organic carbon or heterotrophic plate counts. Biofilm growth on coupons cut from the pipes used to build the pilot distribution systems typically decreased as the level of treatment increased with the exception of reverse osmosis finished water, which produced very high biofilm growth. However, the assessment of biostability indicated biostability generally increased as the level of treatment increased, and the general order of biostability of process finished waters was: membrane > precipitative > conventional; and the order of biofilm growth with respect to pipe material was unlined cast iron > galvanized > lined cast iron > polyvinylchloride. Hence, improved distribution system biological water quality, as measured by lower assimilable organic carbon, biodegradable dissolved organic carbon, heterotrophic plate counts and biofilm growth, was directly dependent on nonpurgeable organic carbon and improved as finished water nonpurgeable organic carbon decreased.

Journal Title

Journal of Water Supply Research and Technology-Aqua

Volume

56

Issue/Number

1

Publication Date

1-1-2007

Document Type

Article

Language

English

First Page

25

Last Page

40

WOS Identifier

WOS:000244283000003

ISSN

0003-7214

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