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Journal of Water, Sanitation and Hygiene for Development Vol 4 No 2 pp 206–213 This paper is in the public domain: verbatim copying and redistribution of this paper are permitted in all media for any purpose, provided this notice is preserved along with the paper's original DOI. Anyone using the paper is requested to properly cite and acknowledge the source as Journal of Water, Sanitation and Hygiene for Development 4(2), 206–213. doi:10.2166/washdev.2013.171

The effect of increasing grain size in biosand water filters in combination with ultraviolet disinfection

Timothy E. Frank, Matthew L. Scheie, Victoria Cachro and Andrew S. Muñoz

2354 Fairchild Drive Suite 6J-117, USAF Academy, CO 80840, 01-719-660-6903, USA E-mail: tefrank18@gmail.com


ABSTRACT

With sand less than 0.70 mm often difficult to source in the field, it is of interest to study larger grained sand for use in biosand water filters (BSF). This study examined how sand grain size affects biological sand water filtration and how the combination of biological sand filtration and ultraviolet (UV) disinfection affects drinking water quality. Two BSFs were built: a control with maximum grain size, dmax = 0.70 mm and an experimental with grain sizes ranging from 0.70 mm to dmax = 2.0 mm. Untreated water was passed through each BSF daily. Results show Escherichia coli and turbidity removal characteristics of the control and experimental BSFs were not significantly different from one another. Both BSFs produced water that met World Health Organization (WHO) drinking water guidelines for turbidity, and although E. coli reduction was over 98% for each BSF, a high initial bacteria concentration resulted in effluent levels above WHO guidelines. Subsequently, effluent from each BSF was placed in clear plastic bottles under UV light, after which water from each BSF met E. coli guidelines. The data yielded promising results for using larger sand in BSFs, but longer duration studies with more data points are needed.

Keywords: biosand water filter; developing countries; disinfection; grain size; water quality


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