Impacts of blending ground, surface, and saline waters on lead release in drinking water distribution systems

    Authors

    Z. J. Tang; S. Hong; W. Z. Xiao;J. Taylor

    Comments

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    Abbreviated Journal Title

    Water Res.

    Keywords

    lead corrosion; water blending; water quality; statistical regression; pipe distribution systems; SOLUBILITY; CARBONATE; Engineering, Environmental; Environmental Sciences; Water Resources

    Abstract

    The impacts of distribution water quality changes caused by blending different source waters on lead release from corrosion loops containing small lead coupons were investigated in a pilot distribution study. The 1-year pilot study demonstrated that lead release to drinking water increased as chlorides increased and sulfates decreased. Silica and calcium inhibited lead release to a lesser degree than sulfates. An additional 3-month field study isolated and verified the effects of chlorides and sulfates on lead release. Lead release decreased with increasing pH and increasing alkalinity during the 1-year pilot study; however, the effects of pH and alkalinity on lead release, were not clearly elucidated due to confounding effects. A statistical model was developed using nonlinear regression, which showed that lead release increased with increasing chlorides, alkalinity and temperature, and decreased with increasing pH and sulfates. The model indicated that primary treatment processes such as enhanced coagulation and RO (reverse osmosis membrane) were related to lead release by water quality Chlorides are high in RO-finished water and increase lead release, while sulfates are high following enhanced coagulation and decrease lead release. (c) 2006 Elsevier Ltd. All rights reserved.

    Journal Title

    Water Research

    Volume

    40

    Issue/Number

    5

    Publication Date

    1-1-2006

    Document Type

    Article

    Language

    English

    First Page

    943

    Last Page

    950

    WOS Identifier

    WOS:000236300100011

    ISSN

    0043-1354

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