Abstract
Parasitic clear water infiltration is known to increase the waste water volumes in most sewerage systems. Amongst others, a problem arising from that is a significant variation of waste water pollutant concentration over time, which complicates the purification process and increases its cost. Capitalizing on new extensive databases, we propose a new method for the identification of clear water infiltration rates based on data-mining and data consolidation of long time data series. Based on a straightforward anthropogenic tracer, together with a simple but rigorous water budget, the infiltrated volumes are quantified day-by-day for the entire zone treated by a major waste water treatment plant. Brussels city is used as an example of the applicability of the method over several years, demonstrating the significant seasonal changes in sewer infiltration rates in the area and the progress achieved so far by structural sewer repair.
Acknowledgements
The Flowbru telemetry system is operated by the Societe Bruxelloise de Gestion de l’Eau and the efficient help provided by Ir Gisele Bazier (SBGE) is acknowledged with thanks. The authors are also grateful to Vivaqua, the local drinking water production company, and to Aquiris S.A., the operator of Brussels main WWTP, for the access to operational data which allowed to complete the study successfully.