This powerpoint presentation begins by providing a brief overview of transient pressures from unsteady flow, the source of external contamination, and AwwaRF Project #4152, "Managing Distribution System Pressures to Protect Water Quality." Topics presented include: intrusion algorithm; identify intrusion locations; development of QMRA; virus transport without a disinfectant residual; risk model iterations; risk management options; impact of external virus concentration; norovirus infectivity; negative pressure duration; sensitivity analysis; and, the importance of axial dispersion - research needed. A case study of an Illinois water system is presented, along with types of surge mitigation including hydropneumatic tanks, and comparison of norovirus and rotavirus risk. Conclusions indicate the following: sufficient information is available to model risks from intrusion,this study examined just one set of scenarios; the coincidence of virus consumption and the duration of the negative pressure event are the most critical parameters driving risk; maintenance of a free chlorine residual (0.2 mg/L) providesa protective barrier against low-level intrusions; a monochloramine residual (0.5 mg/L) does not have a big impact onNorovirus risk reduction due to the highly infectious nature of theviruses; external virus concentrations, mixing, or orifice size had little impactof risk; pressure management to reduce the extent of negative pressureevents is particularly important in chloraminated systems; axial dispersion of microbes (through interactions with biofilms) willlikely have an important impact on risk and should be studied. Includes figures.
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Edition: Vol. - No. Published: 11/01/2009 Number of Pages: 30File Size: 1 file , 1.4 MB