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Removal of natural organic matter and THM formation potential by means of ultra-nanofiltration from surface water

Removal of natural organic matter and THM formation potential by means of ultra-nanofiltration from surface water
Removal of natural organic matter and THM formation potential by means of ultra-nanofiltration from surface water
Natural organic matter (NOM) and trihalomethane formation potential (THMFP) removal were evaluated by ultrafiltration (UF) and nanofiltration (NF). Ten different raw water sources in Alicante province (SE Spain) were analysed.
Five types of membranes of different materials were tested with a dead-end-type stirred UF cell. Additional measurements, such as dissolved organic carbon, ultraviolet absorbance (254 nm), THMFP, ion concentration, pH, conductivity, etc. were made on raw water, permeates and concentrates.
The SUVA value was used to determine the hydrophobicity of the water analysed. The elimination of NOM and THMFP is correlated with the molecular weight (MW) of NOM determined by size exclusion chromatography (SEC).
The flux decline trends were correlated with cation concentration. NOM removal by UF is low, which correlates with the average MW determined by SEC with an average value of 922 g/mol (between 833 and 1031 g/mol).
However, the NOM removal obtained with the NF90 and NF270 NF membranes for all water sources is almost complete (90%). THMFP removal is related to hydrophobicity and permeability of membrane. The NFT50 membrane removes almost 100% of the THMFP of more hydrophobic waters.
natural organic matter, size exclusion chromatography, surface water, trihalomethane formation potential, ultrafiltration / nanofiltration
0043-1354
714-722
De la Rubia, Angeles
fb060369-b7f7-4fad-8ec7-f3afb40f86a4
Rodriguez, Manuel
6e8088f1-2128-4d75-bad8-9c773a7e7aed
Leon, Victor M.
013bb584-7543-4145-b19b-0ca7be2b8669
Prats, Daniel
4531dfee-c1d8-4ae8-8f99-008b2dd4cb1d
De la Rubia, Angeles
fb060369-b7f7-4fad-8ec7-f3afb40f86a4
Rodriguez, Manuel
6e8088f1-2128-4d75-bad8-9c773a7e7aed
Leon, Victor M.
013bb584-7543-4145-b19b-0ca7be2b8669
Prats, Daniel
4531dfee-c1d8-4ae8-8f99-008b2dd4cb1d

De la Rubia, Angeles, Rodriguez, Manuel, Leon, Victor M. and Prats, Daniel (2008) Removal of natural organic matter and THM formation potential by means of ultra-nanofiltration from surface water. Water Research, 42 (3), 714-722. (doi:10.1016/j.watres.2007.07.049).

Record type: Article

Abstract

Natural organic matter (NOM) and trihalomethane formation potential (THMFP) removal were evaluated by ultrafiltration (UF) and nanofiltration (NF). Ten different raw water sources in Alicante province (SE Spain) were analysed.
Five types of membranes of different materials were tested with a dead-end-type stirred UF cell. Additional measurements, such as dissolved organic carbon, ultraviolet absorbance (254 nm), THMFP, ion concentration, pH, conductivity, etc. were made on raw water, permeates and concentrates.
The SUVA value was used to determine the hydrophobicity of the water analysed. The elimination of NOM and THMFP is correlated with the molecular weight (MW) of NOM determined by size exclusion chromatography (SEC).
The flux decline trends were correlated with cation concentration. NOM removal by UF is low, which correlates with the average MW determined by SEC with an average value of 922 g/mol (between 833 and 1031 g/mol).
However, the NOM removal obtained with the NF90 and NF270 NF membranes for all water sources is almost complete (90%). THMFP removal is related to hydrophobicity and permeability of membrane. The NFT50 membrane removes almost 100% of the THMFP of more hydrophobic waters.

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Published date: February 2008
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Keywords: natural organic matter, size exclusion chromatography, surface water, trihalomethane formation potential, ultrafiltration / nanofiltration

Identifiers

Local EPrints ID: 74325
URI: http://eprints.soton.ac.uk/id/eprint/74325
DOI: doi:10.1016/j.watres.2007.07.049
ISSN: 0043-1354
PURE UUID: 7c4d8962-61bb-4a8d-a701-07e3c0820818

Catalogue record

Date deposited: 12 Mar 2010
Last modified: 13 Mar 2024 22:30

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Contributors

Author: Angeles De la Rubia
Author: Manuel Rodriguez
Author: Victor M. Leon
Author: Daniel Prats

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