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    Controlling DBPs with monocholoramine

    New search for: Carlson, Mark
    New search for: Hardy, Douglas

    Operators can adjust pH, contact time, and chlorine dosage to promote disinfection while retarding formation of disinfection by‐products.

    Balancing disinfection with control of disinfection by‐products (DBPs) requires an understanding of how common water quality variables such as chlorine dosage and contact time, temperature, pH, and total organic carbon (TOC) affect both processes. This article examines how these variables affect the concentrations of trihalomethanes (THMs) and haloacetic acids (HAAs) at the shorter contact times associated with the use of chloramines, rather than chlorine, for residual disinfection. Five case studies evaluated DBPs in five water sources of differing quality. The most important variables were TOC and chlorine contact time, but chlorine dosage, pH, and temperature also had an effect. Response to some variables was linear; response to others was nonlinear. In most water sources, THM concentrations were greater than HAA concentrations, but in some the reverse was true. DBP concentrations must be investigated under a range of conditions to determine the best way to use chlorine disinfection while minimizing concentrations of DBPs.

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    Controlling DBPs with monocholoramine

    New search for: Carlson, Mark
    New search for: Hardy, Douglas

    Operators can adjust pH, contact time, and chlorine dosage to promote disinfection while retarding formation of disinfection by‐products.

    Balancing disinfection with control of disinfection by‐products (DBPs) requires an understanding of how common water quality variables such as chlorine dosage and contact time, temperature, pH, and total organic carbon (TOC) affect both processes. This article examines how these variables affect the concentrations of trihalomethanes (THMs) and haloacetic acids (HAAs) at the shorter contact times associated with the use of chloramines, rather than chlorine, for residual disinfection. Five case studies evaluated DBPs in five water sources of differing quality. The most important variables were TOC and chlorine contact time, but chlorine dosage, pH, and temperature also had an effect. Response to some variables was linear; response to others was nonlinear. In most water sources, THM concentrations were greater than HAA concentrations, but in some the reverse was true. DBP concentrations must be investigated under a range of conditions to determine the best way to use chlorine disinfection while minimizing concentrations of DBPs.

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    Controlling DBPs with monocholoramine

    New search for: Carlson, Mark
    New search for: Hardy, Douglas

    Operators can adjust pH, contact time, and chlorine dosage to promote disinfection while retarding formation of disinfection by‐products.

    Balancing disinfection with control of disinfection by‐products (DBPs) requires an understanding of how common water quality variables such as chlorine dosage and contact time, temperature, pH, and total organic carbon (TOC) affect both processes. This article examines how these variables affect the concentrations of trihalomethanes (THMs) and haloacetic acids (HAAs) at the shorter contact times associated with the use of chloramines, rather than chlorine, for residual disinfection. Five case studies evaluated DBPs in five water sources of differing quality. The most important variables were TOC and chlorine contact time, but chlorine dosage, pH, and temperature also had an effect. Response to some variables was linear; response to others was nonlinear. In most water sources, THM concentrations were greater than HAA concentrations, but in some the reverse was true. DBP concentrations must be investigated under a range of conditions to determine the best way to use chlorine disinfection while minimizing concentrations of DBPs.

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    Title:

    Controlling DBPs with monocholoramine

    Contributors:

    Carlson, Mark (author) / Hardy, Douglas (author)

    Published in:

    Journal ‐ American Water Works Association ; 90 ; 95-106

    Publication date:

    1998-02-01

    Size:

    12 pages

    ISSN:

    1551-8833 , 0003-150X

    DOI:

    https://doi.org/10.1002/j.1551-8833.1998.tb08381.x

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Trihalomethanes , Haloacetic Acids , Disinfection Byproducts , Temperature , Chlorine , pH , Water Quality , Disinfection , Organic Carbon

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