Adam C. Hambly scite author profile

Organic matter (OM) is a ubiquitous constituent of natural waters quantifiable at very low levels using fluorescence spectroscopy. This technique has recognized potential in a range of applications where the ability to monitor water quality in real time is desirable, such as in water treatment systems. This study used PARAFAC to characterize a large (n=1479) and diverse excitation emission matrix (EEM) data set from six recycled water treatment plants in Australia, for which sources of variability included geography, season, treatment processes, pH and fluorometer settings. Five components were identified independently in four or more plants, none of which were generated during the treatment process nor were typically entirely removed. PARAFAC scores could be obtained from EEMs by simple regression. The results have important implications for online monitoring of OM fluorescence in treatment plants, affecting choices regarding experimental design, instrumentation and the optimal wavelengths for tracking fluorescent organic matter through the treatment process. While the multimodel comparisons provide a compelling demonstration of PARAFAC's ability to distill chemical information from EEMs, deficiencies identified through this process have broad implications for interpreting and reusing (D)OM-PARAFAC models.

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Characterising organic matter in recirculating aquaculture systems with fluorescence EEM spectroscopy

Hambly¹,

et al. 2015

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Fluorescence monitoring at a recycled water treatment plant and associated dual distribution system – Implications for cross-connection detection

et al. 2010

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Cross-connection detection in Australian dual reticulation systems by monitoring inherent fluorescent organic matter

Hambly

Henderson

Baker

et al. 2012

Environmental Technology Reviews

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New housing developments are now commonly incorporating dual reticulation water systems for the redistribution of recycled water back to households for non-potable use. Within such distribution systems is the potential for cross-connections between recycled and drinking water pipelines, and a number of such events have been documented both in Australia and internationally. While many cross-connections are unlikely to present a source of health concern given the high level of recycled water treatment, they do have the potential to negatively impact public confidence in dual reticulation systems. A rapid and highly sensitive method of cross-connection detection is required to increase consumer confidence in the construction and maintenance of such recycled water distribution systems. This paper reviews a number of current and potential cross-connection detection methods, highlighting the use of fluorescence spectroscopy as a highly promising analytical tool for portable cross-connection detection.

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Adam C. Hambly

Fluorescence as a potential monitoring tool for recycled water systems: A review

Organic Matter Fluorescence in Municipal Water Recycling Schemes: Toward a Unified PARAFAC Model

Characterising organic matter in recirculating aquaculture systems with fluorescence EEM spectroscopy

Fluorescence monitoring at a recycled water treatment plant and associated dual distribution system – Implications for cross-connection detection

Cross-connection detection in Australian dual reticulation systems by monitoring inherent fluorescent organic matter

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