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Chemical Indicators and Surrogate Parameters in Water Treatment
Producing high quality water from potentially contaminated supplies is made difficult by the high cost of measuring the wide range of chemical, biological, and physical parameters of concern. This article describes a study conducted at Water Factory 21 in Orange County, Calif., to identify chemical indicators that could be measured relatively inexpensively and used as surrogates for monitoring treatment process efficiency. Various collective parameters (e.g., total organic carbon, chemical oxygen demand, and electroconductivity) and individual contaminants (e.g., chloroform, barium, and copper) were evaluated.
Chemical Indicators and Surrogate Parameters in Water Treatment
Producing high quality water from potentially contaminated supplies is made difficult by the high cost of measuring the wide range of chemical, biological, and physical parameters of concern. This article describes a study conducted at Water Factory 21 in Orange County, Calif., to identify chemical indicators that could be measured relatively inexpensively and used as surrogates for monitoring treatment process efficiency. Various collective parameters (e.g., total organic carbon, chemical oxygen demand, and electroconductivity) and individual contaminants (e.g., chloroform, barium, and copper) were evaluated.
Chemical Indicators and Surrogate Parameters in Water Treatment
McCarty, Perry L. (author) / Aieta, E. Marco (author)
Journal ‐ American Water Works Association ; 76 ; 98-106
1984-10-01
9 pages
Article (Journal)
Electronic Resource
English
| Taylor & Francis Verlag | 2018
Chloramine demand estimation using surrogate chemical and microbiological parameters
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Chloramine demand estimation using surrogate chemical and microbiological parameters
| Online Contents | 2017