Coagulation and chemical oxidation have long been recognized as two major mechanisms of ferrate(vi) (i.e. FeO42-, an oxyanion containing Fe(vi)) in its environmental applications. Although ferrate(vi) oxidation of various contaminants has been extensively studied, few efforts were made to appreciate the mechanisms and behaviors of ferrate(vi)-driven coagulation in water. In this study, coagulation of colloidal kaolin particles with ferrate(vi) in simulated natural water was investigated under the conditions related to drinking water treatment (initial turbidity 25.00 NTU, 0.0-9.0 mg L-1 Fe(vi), pH 7.5, and 0.50-10.00 mg L-1 DOC). Fe(iii) produced from Fe(vi) reduction initiated in situ coagulation. Lower minimum effective iron doses (MEIDs)...
In this study, ferrate was synthesized and applied as a green and multi-purpose agent for simultaneo...
Studies were conducted evaluating the nature of particles that result from ferrate reduction in a la...
International audienceThis review is intended to evaluate the use of ferrate (Fe(VI)), being a green...
Ferrate(VI) (Fe(VI)) has been recognized as an alternative treatment agent for water reuse. Although...
Ferrate is believed to have a dual role in water treatment, both as oxidant and coagulant. Few studi...
Increases in harmful algal blooms has negatively impacted many surface-sourced drinking water utilit...
Ferrate(VI) ion has the formula FeO 4 2-, and possesses unique properties, vs. strong oxidising pote...
Ferrate (Fe(IV)) has been proposed as a viable alternative for pre-oxidation in drinking water treat...
A laboratory assessment of ferrate (Fe(VI)) for drinking water treatment was conducted, including ba...
Increases in harmful algal blooms has negatively impacted many surface-sourced drinking water utilit...
Iron(VI) and iron(V), known as ferrates, are powerful oxidants and their reactions with pollutants a...
Context Coagulation, chemical oxidation and disinfection are essential processes in water ...
Ferrate(VI) is an oxidant; under acidic conditions, the redox potential of ferrate(VI) salt is the s...
Ferrate(VI) is a green and efficient water treatment agent for drinking and wastewater. It is widely...
International audienceFerrate-based technologies can play versatile roles in water treatment because...
In this study, ferrate was synthesized and applied as a green and multi-purpose agent for simultaneo...
Studies were conducted evaluating the nature of particles that result from ferrate reduction in a la...
International audienceThis review is intended to evaluate the use of ferrate (Fe(VI)), being a green...
Ferrate(VI) (Fe(VI)) has been recognized as an alternative treatment agent for water reuse. Although...
Ferrate is believed to have a dual role in water treatment, both as oxidant and coagulant. Few studi...
Increases in harmful algal blooms has negatively impacted many surface-sourced drinking water utilit...
Ferrate(VI) ion has the formula FeO 4 2-, and possesses unique properties, vs. strong oxidising pote...
Ferrate (Fe(IV)) has been proposed as a viable alternative for pre-oxidation in drinking water treat...
A laboratory assessment of ferrate (Fe(VI)) for drinking water treatment was conducted, including ba...
Increases in harmful algal blooms has negatively impacted many surface-sourced drinking water utilit...
Iron(VI) and iron(V), known as ferrates, are powerful oxidants and their reactions with pollutants a...
Context Coagulation, chemical oxidation and disinfection are essential processes in water ...
Ferrate(VI) is an oxidant; under acidic conditions, the redox potential of ferrate(VI) salt is the s...
Ferrate(VI) is a green and efficient water treatment agent for drinking and wastewater. It is widely...
International audienceFerrate-based technologies can play versatile roles in water treatment because...
In this study, ferrate was synthesized and applied as a green and multi-purpose agent for simultaneo...
Studies were conducted evaluating the nature of particles that result from ferrate reduction in a la...
International audienceThis review is intended to evaluate the use of ferrate (Fe(VI)), being a green...