THM Formation by the Transfer of Active Chlorine From Monochloramine to Phloroacetophenone: Fid-Bau Portal

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THM Formation by the Transfer of Active Chlorine From Monochloramine to Phloroacetophenone

Topudurti, Kirankumar V. / Haas, Charles N.

The purpose of this study was to investigate whether there is a direct transfer of active chlorine (Cl⁺) from monochloramine to phloroacetophenone (PAP), leading to the formation of trihalomethanes. The reactions of monochloramine and free chlorine with PAP were studied in batch and flow‐through reactors. Chloroform was found to be formed at neutral pH, primarily as a result of direct transfer of Cl⁺ from monochloramine to PAP. Although the chloroform concentration was two orders of magnitude less with monochloramine than with free chlorine, monochloramine can still produce significant concentrations of chloroform.

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THM Formation by the Transfer of Active Chlorine From Monochloramine to Phloroacetophenone

Topudurti, Kirankumar V. / Haas, Charles N.

The purpose of this study was to investigate whether there is a direct transfer of active chlorine (Cl⁺) from monochloramine to phloroacetophenone (PAP), leading to the formation of trihalomethanes. The reactions of monochloramine and free chlorine with PAP were studied in batch and flow‐through reactors. Chloroform was found to be formed at neutral pH, primarily as a result of direct transfer of Cl⁺ from monochloramine to PAP. Although the chloroform concentration was two orders of magnitude less with monochloramine than with free chlorine, monochloramine can still produce significant concentrations of chloroform.

THM Formation by the Transfer of Active Chlorine From Monochloramine to Phloroacetophenone

Topudurti, Kirankumar V. / Haas, Charles N.

The purpose of this study was to investigate whether there is a direct transfer of active chlorine (Cl⁺) from monochloramine to phloroacetophenone (PAP), leading to the formation of trihalomethanes. The reactions of monochloramine and free chlorine with PAP were studied in batch and flow‐through reactors. Chloroform was found to be formed at neutral pH, primarily as a result of direct transfer of Cl⁺ from monochloramine to PAP. Although the chloroform concentration was two orders of magnitude less with monochloramine than with free chlorine, monochloramine can still produce significant concentrations of chloroform.

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Title:

THM Formation by the Transfer of Active Chlorine From Monochloramine to Phloroacetophenone

Contributors:

Topudurti, Kirankumar V. (author) / Haas, Charles N. (author)

Published in:

Journal ‐ American Water Works Association ; 83 ; 62-66

Publication date:

1991-05-01

Size:

6 pages

ISSN:

1551-8833 , 0003-150X

DOI:

https://doi.org/10.1002/j.1551-8833.1991.tb07148.x

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Trihalomethanes , Chloramines , Research , Chloroform

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