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Release of Particulate Lead from Four Lead Corrosion Products in Drinking Water: A Laboratory Study Coupled with Microscopic Observations and Computational Fluid Dynamics

Yucheng Peng, Yifang Lu, Yi-Pin Lin

2022Environmental Science & Technology21 citationsDOI

Abstract

Particulate lead resulting from the detachment of lead corrosion products (LCPs) contributes significantly to lead contamination in drinking water. Since LCPs formed under different water chemistry possesses different crystal structures, their hydrodynamic behaviors could be significantly different in flowing water. In this study, flushing experiments and microscopic observations were employed to investigate the release of cerussite (PbCO3), hydrocerussite (Pb3(CO3)2(OH)2), chloropyromorphite (Pb5(PO4)3Cl), and lead dioxide (scrutinyite α-PbO2/plattnerite β-PbO2), the four LCPs commonly found in the drinking water distribution system. Under the same flow rate, particulate lead release showed the following trend: lead dioxide > cerussite ∼ chloropyromorphite > hydrocerussite. In the range of 1–10 L/min, a higher flow rate enhanced the release of cerussite, chloropyromorphite, and lead dioxide, while the release of hydrocerussite was not significantly affected, likely due to its platelike crystal structure that reduced the shear force exerted by the flowing water. The detachments of visible cerussite and chloropyromorphite particles were captured using a digital microscope at flow rates of 8.0 and 8.2 L/min, and the shear forces causing their detachments were determined to be 5.8 × 10–11 and 3.1 × 10–10 N, respectively, using computational fluid dynamics (CFD). Our study demonstrated that crystal structure could be an important factor affecting the detachment of LCPs and CFD could be a useful tool to characterize their hydrodynamic behaviors.

Topics & Concepts

Lead dioxideChemistryLead (geology)ParticulatesEnvironmental chemistryCorrosionLead oxideVolumetric flow rateChemical engineeringMineralogyThermodynamicsGeologyPhysical chemistryGeomorphologyEngineeringElectrodeElectrochemistryPhysicsOrganic chemistryWater Treatment and DisinfectionMercury impact and mitigation studiesUrban Stormwater Management Solutions
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