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Portable LED fluorescence instrumentation for the rapid assessment of potable water qualityBridgeman, John, Baker, A., Brown, D., Boxall, J.B. 22 April 2015 (has links)
Yes / Characterising the organic and microbial matrix of water are key issues in ensuring a safe potable water supply.
Current techniques only confirm water quality retrospectively via laboratory analysis of discrete samples. Whilst
such analysis is required for regulatory purposes, it would be highly beneficial to monitor water quality in-situ in
real time, enabling rapid water quality assessment and facilitating proactive management of water supply
systems.
A novel LED-based instrument, detecting fluorescence peaks C and T (surrogates for organic and microbial matter, respectively), was constructed and performance assessed. Results from over 200 samples taken from source waters through to customer tap from three UK water companies are presented. Excellent correlation was observed between the new device and a research grade spectrophotometer (r2 = 0.98 and 0.77 for peak C and
peak T respectively), demonstrating the potential of providing a low cost, portable alternative fluorimeter. The
peak C/TOC correlation was very good (r
2 = 0.75) at low TOC levels found in drinking water. However, correlations between peak T and regulatory measures of microbial matter (2 day/3 day heterotrophic plate counts
(HPC), E. coli, and total coliforms) were poor, due to the specific nature of these regulatory measures and the general measure of peak T. A more promising correlation was obtained between peak T and total bacteria using flow
cytometry. Assessment of the fluorescence of four individual bacteria isolated from drinking water was also considered and excellent correlations found with peak T (Sphingobium sp. (r
2 = 0.83); Methylobacterium sp. (r
2 =
1.0); Rhodococcus sp. (r
2 = 0.86); Xenophilus sp. (r
2 = 0.96)). It is notable that each of the bacteria studied exhibited different levels of fluorescence as a function of their number. The scope for LED based instrumentation for insitu, real time assessment of the organic and microbial matrix of potable water is clearly demonstrated. / The research reported here was sponsored by the Engineering and Physical Sciences Research Council under grants EP/I001379/1, EP/I001468/1 and EP/I029346/1.
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