Monitoring organic matter in drinking water systems using fluorescence spectroscopy

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Fluorescence Excitation-Emission Matrix

Improved early warning, process optimisation and water quality

Funding Source(s) and Period

ARC Linkage Project: LP100200259 (2010-2013)
SEQ Water
Hunter Water
Melbourne Water
WQRA

Research Team

Chief Investigators

Dr Rita Henderson (bioMASS Lab)
Prof Andy Baker (Connected Waters Initiative Research Centre)


Partner Investigators

Prof John Bridgeman (University of Birmingham, UK)

 

PhD Candidate

Ms Yulia Shutova (bioMASS Lab, UNSW Water Research Centre, APAI, WRA PhD Scholarship)

 
Project summary

Potable source water frequently has a high organic matter (OM) content originating from decaying plants, soil and peat, bacterial activity, algal blooms and upstream treated effluent discharges. It is important that OM removal at a WTP is optimised by effective process control and monitoring protocols in order to minimise taste and odour problems, disinfection by-product (DBP) formation and bacterial regrowth potential (BRP) during distribution. Consequently, a number of processes are employed to ensure good removal of OM during treatment. Currently, on-line OM monitoring comprises total organic carbon (TOC) and, less frequently, colour or UV absorbance spectroscopy [9]; however, none of these techniques give good overall OM characterisation. Consequently, a rapid, selective and sensitive monitor of OM character is required to provide more informative early warning devices, enhanced process control and improved drinking water quality monitoring. Recent studies suggest that fluorescence spectroscopy is a useful tool for determining OM character and function where it has been used for monitoring river water quality and failures in recycled water treatment and distribution systems. However, limited studies have investigated the use of fluorescence in drinking water treatment plants. This project therefore investigates the use of fluorescence spectroscopy as a tool for monitoring OM character in drinking water treatment systems to improve early warning of elevated OM events, process optimisation and control, and resultant water quality monitoring.

Journal publications

Shutova, Y., Baker, A., Bridgeman, J., Henderson, R.K., 2014. Spectroscopic characterisation of dissolved organic matter changes in drinking water treatment: From PARAFAC analysis to online monitoring wavelengths. Water Res. 54, 159–169. doi:10.1016/j.watres.2014.01.053

Hartland, A., Baker, A., Timms, W., Shutova, Y., Yu, D., 2012. Measuring dissolved organic carbon δ13C in freshwaters using total organic carbon cavity ring-down spectroscopy (TOC-CRDS). Environ. Chem. Lett. 10, 309–315. doi:10.1007/s10311-012-0377-z

Conference publication

Shutova Y., Baker A., Bridgeman J., Henderson R. 2013. Linking NOM character to treatability with fluorescence: an Australian case study. Ozwater’13 conference, Perth, Australia

Shutova Y; Henderson RK; Baker A; Bridgeman J, 2012, 'The potential for monitoring organic matter during drinking water treatment processes using fluorescence spectroscopy', in OZWater 2012, Australian Water Association, presented at Ozwater 12, Sydney Convention and Exhibition Centre, 8 - 10 May 2012