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DBP reduction using mixed oxidants generated on site
This paper describes how mixed oxidants generated on site have a demonstrated track record of reducing both total trihalomethanes (TTHMS) and haloacetic acids (HAAS) without the attendant problems associated with bromates and chlorites or issues regarding safe handling. Mixed‐oxidant chemistry is discussed along with theories for behavioral differences that include: preferential‐acting nonchlorine oxidants; biofilm elimination; improved residual at a reduced dosage; and, microflocculation.
DBP reduction using mixed oxidants generated on site
This paper describes how mixed oxidants generated on site have a demonstrated track record of reducing both total trihalomethanes (TTHMS) and haloacetic acids (HAAS) without the attendant problems associated with bromates and chlorites or issues regarding safe handling. Mixed‐oxidant chemistry is discussed along with theories for behavioral differences that include: preferential‐acting nonchlorine oxidants; biofilm elimination; improved residual at a reduced dosage; and, microflocculation.
DBP reduction using mixed oxidants generated on site
Hamm, Beth (Autor:in)
Journal ‐ American Water Works Association ; 94 ; 49-53
01.11.2002
8 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Trihalomethanes , Haloacetic Acids , Reduction , Biofilm , Bromate , Chemistry , Oxidants , Dosage
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