Pilot-scale spiral wound membrane assessment for THM precursor rejection from upland waters
Author | Golea, D. |
Author | Sutherland, S. |
Author | Jarvis, P. |
Author | Judd, S.J. |
Available date | 2016-10-11T11:13:48Z |
Publication Date | 2016 |
Publication Name | Separation Science & Technology |
Identifier | http://dx.doi.org/10.1080/01496395.2016.1162807 |
Citation | D. Golea, S. Sutherland, P. Jarvis & S. J. Judd (2016) Pilot-scale spiral wound membrane assessment for THM precursor rejection from upland waters, Separation Science and Technology, 51:8, 1380-1388 |
ISSN | 0149-6395 |
Abstract | The outcomes of a pilot-scale study of the rejection of trihalomethanes (THMs) precursors by commercial ultrafiltration/nanofiltration (UF/NF) spiral-wound membrane elements are presented based on a single surface water source in Scotland. The study revealed the expected trend of increased flux and permeability with increasing pore size for the UF membranes; the NF membranes provided similar fluxes despite the lower nominal pore size. The dissolved organic carbon (DOC) passage decreased with decreasing molecular weight cut-off, with a less than one-third the passage recorded for the NF membranes than for the UF ones. The yield (weight % total THMs per DOC) varied between 2.5% and 8% across all membranes tested, in reasonable agreement with the literature, with the aromatic polyamide membrane providing both the lowest yield and lowest DOC passage. The proportion of the hydrophobic (HPO) fraction removed was found to increase with decreasing membrane selectivity (increasing pore size), and THM generation correlated closely (R2 = 0.98) with the permeate HPO fractional concentration. |
Sponsor | EPSRC (under the STREAM programme) and Scottish Water are gratefully acknowledged |
Language | en |
Publisher | Taylor & Francis |
Subject | Nanofiltration natural organic matter potable water triahlomethanes ultrafiltration |
Type | Article |
Pagination | 1380-1388 |
Issue Number | 8 |
Volume Number | 51 |
ESSN | 1520-5754 |
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