Dynamic Hydraulics in a Drinking Water Distribution System Influence Suspended Particles and Turbidity, But Not Microbiology

Spatial and short-term temporal changes in water quality as a result of water age and fluctuating hydraulic conditions were investigated in a drinking water distribution system. Online measurements of total and intracellular adenosine tri-phosphate (ATP), total and intact cell concentrations measured with flow cytometry (FCM), turbidity, and particle counts were performed over five weeks at five subsequent locations of the distribution system. The high number of parallel FCM and ATP measurements revealed the combined effect of water age and final disinfection on spatial changes in microbiology in the system. The results underlined that regular daily dynamics in flow velocities are normal and inevitable in drinking water distribution systems, and significantly impact particle counts and turbidity. However, hydraulic conditions had no detectable impact on the concentration of suspended microbial cells. A weak correlation between flow velocity and ATP concentrations suggests incidental resuspension of particle-bound bacteria, presumably caused by either biofilm detachment or resuspension from sediment when flow velocities increase. The highly dynamic hydraulic conditions highlight the value of online monitoring tools for the meaningful description of short-term dynamics (day-scale) in drinking water distribution systems.

Automated summary

Spatial and short-term temporal changes in water quality in a drinking water distribution system were investigated, showing the combined effect of water age and fluctuating hydraulic conditions on microbiology and the impact of flow velocity on particle counts and turbidity. Hydraulic conditions had no detectable impact on suspended microbial cell concentration, but a weak correlation between flow velocity and ATP concentrations suggests incidental resuspension of particle-bound bacteria. The highly dynamic hydraulic conditions emphasize the value of online monitoring tools for describing short-term dynamics in drinking water distribution systems.