Upgrading
wastewater treatment plants (WWTPs) with advanced technologies
is one key strategy to reduce micropollutant emissions. Given the
complex chemical composition of wastewater, toxicity removal is an
integral parameter to assess the performance of WWTPs. Thus, the goal
of this systematic review is to evaluate how effectively ozonation
and activated carbon remove in vitro and in vivo toxicity. Out of
2464 publications, we extracted 46 relevant studies conducted at 22
pilot or full-scale WWTPs. We performed a quantitative and qualitative
evaluation of in vitro (100 assays) and in vivo data (20 species),
respectively. Data is more abundant on ozonation (573 data points)
than on an activated carbon treatment (162 data points), and certain
in vitro end points (especially estrogenicity) and in vivo models
(e.g., daphnids) dominate. The literature shows that while a conventional
treatment effectively reduces toxicity, residual effects in the effluents
may represent a risk to the receiving ecosystem on the basis of effect-based
trigger values. In general, an upgrade to ozonation or activated carbon
treatment will significantly increase toxicity removal with similar
performance. Nevertheless, ozonation generates toxic transformation
products that can be removed by a post-treatment. By assessing the
growing body of effect-based studies, we identify sensitive and underrepresented
end points and species and provide guidance for future research.
The removal of organic contaminants during post-treatment with deep-bed filters after ozonation in tertiary municipal wastewater treatment can be optimised by the choice of filter material and contact time.
First published by Springer:
Jekel, Martin et al.: Anthropogenic organic micro-pollutants and pathogens in the urban water cycle: assessment, barriers and risk communication (ASKURIS). - In: Environmental Sciences Europe. - ISSN 2190-4715 (online). - 25 (2013), art. 20. - doi:10.1186/2190-4715-25-20.In urban areas, water often flows along a partially closed water cycle in which treated municipal wastewater is discharged into surface waters which are one source of raw waters used for drinking water supply. A number of organic micro-pollutants (OMP) can be found in different water compartments. In the near future, climatic and demographic changes will probably contribute to an increase of OMP and antibiotic-resistant pathogens in aquatic ecosystems. The occurrence of OMP, possible adverse effects on aquatic organisms and human health and the public perception must be carefully assessed to properly manage and communicate potentially associated risks and to implement appropriate advanced treatment options at the optimum location within the water cycle. Therefore, the interdisciplinary research project ASKURIS focuses on identification and quantification, toxicological assessment and removal of organic micro-pollutants and antibiotic-resistant pathogens in the Berlin water cycle, life cycle-based economic and environmental assessment, public perception and management of potential risks
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