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The impact of suspended particles on both UV dose transmission and spectrophotometric absorbance measurement for unfiltered raw water with turbidity up to 10 NTU was assessed. Results from bench scale "collimated beam" experiments indicate that a low percentage of total incident UV light is attenuated by particles at 5 NTU turbidity. However, at a set applied UV dose, when particles were added to achieve turbidity from 1 to 10 NTU, the average dose in the collimated beam reactor decreased from 5 to 30 percent respectively, suggesting that spikes in particles entering a UV reactor may compromise lethal delivery of UV energy if not adjusted for. UV absorbance coefficients, measured using direct and integrating sphere spectroscopy (which accounts for scattering effects by particles) were significantly different, suggesting that suspended particles in unfiltered water both absorb and scatter UV light. When absorbance, measured using the direct method, was used to model the average irradiance in a UV reactor, the average UV irradiance was underestimated by 5 to 20 percent at turbidity of 3 to 10 NTU, respectively, as compared to irradiance calculations made using integrating sphere absorbance measurements. This analysis suggests that UV systems designed based on direct absorbance measurements of unfiltered waters with turbidity above 3 NTU may be overly conservative. Includes 29 references, tables, figures.

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Edition: Vol. - No. Published: 06/16/2002 Number of Pages: 18File Size: 1 file , 380 KB