H2Open Journal (Jun 2022)
Characterization and evaluation of waste stabilization pond systems in Namibia
Abstract
Waste stabilization ponds (WSP) exist worldwide to treat wastewater, especially in warm climates. They are characterized by simple operation and maintenance and over 50 years many WSP were built in urban communities in Namibia. This study characterized and evaluated nine of these WSP systems in terms of their influent and effluent water quality and compared them with the requirements for water reuse in agriculture. In their current state none of them adhered with the Namibian or the new European reuse standards, especially due to tCOD concentrations above 100 mg/L caused by high algal fractions in the pCOD. The algae related chlorophyll-a concentrations correlated linearly with the pCOD and this correlation can therefore be used to fractionate the tCOD for further judgement. Additionally, microbial community analyses determined the composition of pathogens in the WSP influent and effluent, this helped to assess potential risks and distinguish between potentially toxic and non-toxic cyanobacteria. The EU requirement of less than 1,000 E. coli per 100 mL for fodder crop irrigation was only achieved with one WSP system which was enhanced with additional pre- and post-treatment. This research delivers a first overview of the current situation and can be used as basis to establish possible enhancement measures for existing WSP as well as to investigate possible effluent application in agricultural irrigation. HIGHLIGHTS First systematic evaluation of nine pond systems in Namibia.; All WSP do not fulfill national and international requirements for water reuse with their current design and operation.; High COD due to algae requires adaptations to meet reuse standards.; Acinetobacter were more abundant in the influent and Mycobacterium in the effluent.; EU E. coli-requirement for irrigation of fodder crops is only reached with enhancements.;
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