The oxidation of sulfur(iv) by reaction with iron(iii): a critical review and data analysis

The dependences on ionic strength of the hydrolysis constants of Fe 3+ and of the first dissociation constant of sulfurous acid are briefly reviewed. The data are needed to derive from apparent stability constants reported in the literature the stability constants for the three iron-sulfito complexe...

Full description

Saved in:
Bibliographic Details
Published in:Physical chemistry chemical physics : PCCP 2018, Vol.2 (6), p.42-437
Main Author: Warneck, Peter
Format: Article
Language:English
Subjects:
Coordination compounds
Data analysis
Iron
Oxidation
Stability
Stability constants
Sulfur trioxide
Tricalcium aluminum ferrite
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The dependences on ionic strength of the hydrolysis constants of Fe 3+ and of the first dissociation constant of sulfurous acid are briefly reviewed. The data are needed to derive from apparent stability constants reported in the literature the stability constants for the three iron-sulfito complexes defined by the equilibria (c1) FeOH 2+ + HSO 3 − = FeSO 3 + + H 2 O, (c2) FeSO 3 + + HSO 3 − = Fe(SO 3 ) 2 − + H + , (c3a) Fe(SO 3 ) 2 − + HSO 3 − = Fe(SO 3 ) 3 H 2− , where K c1 = 1982 ± 518 dm 3 mol −1 , K c2 = 0.72 ± 0.08, K c3a = 189 ± 9 dm 3 mol −1 (ionic strength μ = 0.1 mol dm −3 ). The rapid formation of these complexes is followed by a slower decomposition leading to the formation of SO 3 − radicals; the associated rate coefficients are k 1 = 0.19 s −1 , k 1a 0.04 s −1 , and k 1b 0.08 s −1 , respectively. The subsequent reaction leads to dithionate and sulfate as products. Overall rates and product yields from a variety of studies of the slow reaction are found to be consistent with a mechanism, in which the production of dithionate occurs mainly by the reaction of SO 3 − with FeSO 3 + and that of sulfate by the reaction of SO 3 − with FeOH 2+ and/or Fe 3+ . The role of copper as a catalyst is also analyzed. Rate coefficients for individual reactions are estimated from the data at low pH ( μ = 1.0 mol dm −3 ) under conditions where the 1 : 1-complex is prevalent. They are extrapolated to lower ionic strengths for an analysis of the data obtained at higher pH to explore conditions when reactions of the higher complexes become important. The overall rate and the product yields of the reaction depend critically on the pH, the initial ratio of S( iv ) to Fe( iii ) and the ionic strength of the solution. Iron( iii )-sulfito complexes: equilibrium constants, decomposition, and rate coefficients of subsequent SO 3 − radical reactions leading to dithionate and sulfate.
ISSN:1463-9076
1463-9084
DOI:10.1039/c7cp07584g