Kinetics and Mechanistic Aspects of As(III) Oxidation by Aqueous Chlorine, Chloramines, and Ozone:  Relevance to Drinking Water Treatment

Abstract: Kinetics and mechanisms of As(III) oxidation by free available chlorine (FAC-the sum of HOCl and OCl-), ozone (O3), and monochloramine (NH2Cl) were investigated in buffered reagent solutions. Each reaction was found to be first order in oxidant and in As(III), with 1:1 stoichiometry. FAC-As(III) and O3-As(III) reactions were extremely fast, with pH-dependent, apparent second-order rate constants, k''app, of 2.6 (+/- 0.1) x 10(5) M(-1) s(-1) and 1.5 (+/- 0.1) x 10(6) M(-1) s(-1) at pH 7, whereas the NH2Cl-As(II… Show more

“…As depicted in Fig. S2, an increase in the fractions of As(III) as H 2 AsO 3 À , HAsO 3 2À and AsO 3 3À was present at pH > 9.0, which were expected to be stronger nucleophiles than As(OH) 3 [27]. In this case, H 2 O 2 can be the primary reagent instead of Å OH for As(III) oxidation, whereas ionic As(III) species exerted negligible influence on As(V) formation at pH < 8.5, since fractions of these species are very small (<5 Â 10 À6 ).…”

A green approach towards simultaneous remediations of chromium(VI) and arsenic(III) in aqueous solution

“…As depicted in Fig. S2, an increase in the fractions of As(III) as H 2 AsO 3 À , HAsO 3 2À and AsO 3 3À was present at pH > 9.0, which were expected to be stronger nucleophiles than As(OH) 3 [27]. In this case, H 2 O 2 can be the primary reagent instead of Å OH for As(III) oxidation, whereas ionic As(III) species exerted negligible influence on As(V) formation at pH < 8.5, since fractions of these species are very small (<5 Â 10 À6 ).…”

A green approach towards simultaneous remediations of chromium(VI) and arsenic(III) in aqueous solution

“…As discussed further in Chapter 7, As(III) oxidation in water may be enhanced with radiation (Hug et al, 2001), electrochemical methods (Arienzo et al, 2002;Licht and Yu, 2005; Maldonado-Reyes, Montero-Ocampo and Solorza-Feria, 2007), a variety of chemical oxidants (Hug and Leupin, 2003;Dodd et al, 2006), and/or bacteria (Ehrlich, 2002;Anderson et al, 2002;De, 2005), 684. Effective chemical oxidants for arsenic in water include: chlorine (Cl 2 ), ozone (O 3 ), sodium hypochlorite (NaOCl), chlorine dioxide (ClO 2 ), potassium permanganate (KMnO 4 ), iron(VI) compounds (such as K 2 FeO 4 ), and manganese (oxy)(hydr)oxides (Foster, 2003), 58; (Bissen and Frimmel, 2003;Licht and Yu, 2005;Dodd et al, 2006;Dutta et al, 2005), 1827; (Tournassat et al, 2002;Tani et al, 2004), 6618; (Manning et al, 2002;Clifford and Ghurye, 2002), 231; (Thirunavukkarasu et al, 2005). …”

Arsenic Chemistry

“…The following oxidants can be used: KMnO 4 , ozone, chlorine or hypochlorite [9,19 and refs. therein], where ozone is the fastest of those at pH > 8 [124]. Photochemical oxidation of acid samples also results in oxidation of all the forms of arsenic to As(V) [12,91,118,125,126].…”

Inorganic arsenic speciation by electroanalysis. From laboratory to field conditions: A mini-review