Lead (Pb) deposition onto new and biofilm-laden potable water pipes
Abstract
Heavy metals' interactions with plumbing materials are complicated due to the differential formation of biofilms within pipes that can modulate, transform, and/or sequester heavy metals. This research aims to elucidate the mechanistic role of biofilm presence on Lead (Pb) accumulation onto crosslinked polyethylene (PEX-A), high-density polyethylene (HDPE), and copper potable water pipes. For this purpose, biofilms were grown on new pipes for three months. Five-day Pb exposure experiments were conducted to examine the kinetics of Pb accumulation onto the new and biofilm-laden pipes. Additionally, the influence of Pb initial concentration on the rate of its accumulation onto the pipes was examined. The results revealed greater biofilm biomass on the PEX-A pipes compared to the copper and HDPE pipes. More negative zeta potential was found for the biofilm-laden plastic pipes compared to the new plastic pipes. After five days of Pb exposure under stagnant conditions, the biofilm-laden PEX-A (980 μg m) and HDPE (1170 μg m) pipes accumulated more than three times the Pb surface loading compared to the new PEX-A (265 μg m) and HDPE pipes (329 μg m), respectively. However, under flow conditions, Pb accumulation on biofilm-laden plastic pipes was lower than on the new pipes. Moreover, with increasing the initial Pb concentration, greater rates of Pb surface accumulation were found for the biofilm-laden pipes compared to the new pipes under stagnant conditions. First-order kinetics model best described the Pb accumulation onto both new and biofilm-laden water pipes under both stagnant and flow conditions.
Publication Title
Chemosphere
Recommended Citation
Hadiuzzaman, M., Mirza, N., Brown, S. P., Ladner, D. A., & Salehi, M. (2023). Lead (Pb) deposition onto new and biofilm-laden potable water pipes. Chemosphere, 342, 140135. https://doi.org/10.1016/j.chemosphere.2023.140135