Journal
INTERNATIONAL JOURNAL OF HYGIENE AND ENVIRONMENTAL HEALTH
Volume 211, Issue 5-6, Pages 534-545Publisher
ELSEVIER GMBH, URBAN & FISCHER VERLAG
DOI: 10.1016/j.ijheh.2008.04.003
Keywords
Sewage treatment plant; Treatment system; Compact facility; Tertiary treatment; Removal efficiency; Microbiology; Bacteria; Protozoa; Public health
Funding
- Ministry of the Environment of North-Rhine Westphalia
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Six sewage treatment plants (STP) were investigated over a 12-month period to measure the microbiological load of untreated municipal wastewater and to evaluate the removal efficiencies of different treatment systems. The STP investigated can be classified into three categories: bigger plants with tertiary treatment , smaller plants with enhanced secondary treatment, and very small compact facilities. The plants studied had a considerable quantitative impact on the hydrology of the catchment area; consequently, it was anticipated that the microbiological load of the effluent would also be significant. Eight samples were taken from the influent and effluent of the STP, regardless of weather conditions, and several bacterial and two parasitological parameters were analysed. The average microbiologial reduction of each STP was dependent on its capacity and treatment procedures and varied between 1.9 and 3.5log(10). Small compact facilities had a significant lower removal efficiency (2.0 +/- log(10)) and discharged treated wastewater with a poorer microbiological quality compared to larger plants with tertiary treatment or with enhanced secondary treatment (>= 2.8 log(10)). Final sand filtration and extensive intermediate settling considerably improved the overall microbiological removal efficiency. During the study period, the microbiological water quality of the receiving water course was not significantly impaired by the discharge of any of the investigated plants; however, the compact facilities showed critical treatment deficiencies. In particular, the reduction of Giardia cysts was insufficient (<1.5 log(10)) compared to that of the bigger plants (>3.0 log(10)). In order to quantify the overall impact of microbiological loads on the receiving watercourse in this catchment area, it is also necessary to assess the pollution from combined sewer overflow basins and diffuse pollution. This will be considered in subsequent studies. (C) 2008 Elsevier GmbH. All rights reserved.
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