Please use this identifier to cite or link to this item: http://hdl.handle.net/123456789/6236
Title: Microbial purification in well-water using uv-vis leds and monitoring using laser-induced fluorescence
Authors: Sackey, Samuel Sonko
Sefa-Ntiri, Baah
Mensah-Amoah, Patrick
Ntow, Jonathan
Vowotor, Michael Kwame
Huzortey, Andrew
Akyea, Angela
Keywords: Coliform bacteria
Escherichia coli
Laser induced fluorescence
Microbial purification
Total heterotrophic bacteria
Ultra-violet and visible spectral regions
Issue Date: 2017
Publisher: University of Cape Coast
Abstract: Well-water contaminated by microbial bacteria has been purified using LEDs radiating in the ultra-violet and visible spectral regions. The contaminated water sample was exposed to the LEDs in specially constructed chambers and the purification process carried on for 3 days. The efficiency of the process was determined using a 445 nm diode laser to induce fluorescence (LIF) and the monitoring of coliform bacteria count (Total coliform, Fecal coliform and Escherichia coli) as well as Total Heterotrophic Bacteria (THB). The LIF peak fluorescence intensities at 526 nm (Raman water peak) and dissolved organic matter fluorescence intensity at 550 nm were determined. Using the fluorescence intensity of purified drinking water as reference, a fluorescence intensity ratio was calculated. A decrease in this ratio with time, at the two wavelengths indicated a proof of purification. Using the values of the slopes, the red and green LEDs proved most efficient while the UV was the least. From the counts of coliform bacteria and THB, the light sources registered zero after the first day of purification, but counts were recorded thereafter for some of the bacterial for some light sources. This may be attributable to bio-films formation on internal surfaces of the purification chamber due to excessive temperatures. A reduction in fluorescence intensity observed in the sample stored in dark environment could be attributed to the stationary and logarithmic decline phases of the growth curve of bacterial population. This purification technique is inexpensive and can easily be adapted for domestic water purification for reducing waterborne bacteria
Description: 11p:, ill.
URI: http://hdl.handle.net/123456789/6236
ISSN: 23105496
Appears in Collections:Department of Physics

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