Determination of Removal Efficiencies for Escherichia coli, Clostridial Spores, and F-Specific Coliphages in Unit Processes of Surface Waterworks for QMRA Applications

The removal efficiencies of bacteria, bacterial spores, and viruses after a change in source water and water pH in coagulation were studied at pilot scale in coagulation with flotation, rapid sand filtration, and disinfection with UV and chlorine. The results were compared to the treatment efficienc...

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Published inWater (Basel) Vol. 10; no. 11; p. 1525
Main Authors Hokajärvi, Anna-Maria, Pitkänen, Tarja, Meriläinen, Päivi, Kauppinen, Ari, Matikka, Ville, Kovanen, Sara, Vepsäläinen, Asko, Miettinen, Ilkka
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 26.10.2018
Subjects
Activated carbon
Bacteria
Chlorine
Clostridium
Coagulation
Disinfection
Drinking water
E coli
Efficiency
F-specific coliphage
Feces
Filtration
Flotation
Health risk assessment
Health risks
Illnesses
Microorganisms
removal efficiency
Risk assessment
Sand
Sand filters
Spores
Surface water
Viruses
Water quality
Water treatment
Water utilities
Waterworks
United Kingdom > UK
Finland
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Summary:The removal efficiencies of bacteria, bacterial spores, and viruses after a change in source water and water pH in coagulation were studied at pilot scale in coagulation with flotation, rapid sand filtration, and disinfection with UV and chlorine. The results were compared to the treatment efficiencies of full-scale waterworks and data from literature. A quantitative microbial risk assessment (QMRA)-method was applied to estimate the numbers of illness cases caused by Campylobacter and norovirus after simulation of six operational malfunction scenarios. Coagulation with flotation and disinfection were more efficient in removing Clostridium spp. spores and MS2 coliphages than sand filtration in the pilot scale experiments (p < 0.001–0.008). The removal of E. coli was more efficient in sand filtration and in disinfection compared to coagulation with flotation (p = 0.006 and 0.01). Source water or pH change in coagulation had not significant effects on the removal efficiency of microbes. In QMRA, when disinfection was not in use, an increase in the number of illness cases compared to the normal situation was noticed. The variability in the number of illness cases demonstrated the importance of site-specific data in QMRA. This study provides new information on applying QMRA in both pilot and full-scale waterworks.
ISSN:2073-4441
2073-4441
DOI:10.3390/w10111525