A simple and efficient alternative treatment for different drinking water

Abstract A bench–scale experiment was performed to assess whether union use of ferrate (Fe(VI)) and ferric (Fe(III)) addition in real surface water (reservoir and river water) resulted in better water remediation. The results indicated that increased Fe dosage improved the treatment performance, the...

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Bibliographic Details
Published inWater science & technology. Water supply Vol. 22; no. 11; pp. 8014 - 8022
Main Authors Zhang, Huiqin, Li, Renwei, Wang, Shulian, Pi, Kewu, Shi, Yafei, Gerson, Andrea R., Hei, Shengqiang
Format Journal Article
LanguageEnglish
Published London IWA Publishing 01.11.2022
Subjects
Adsorption
Biodegradation
Coagulants
Coagulation
Coliforms
Disinfection
Disinfection & disinfectants
Dissolved organic carbon
Dosage
Drinking water
ferrate(vi)
ferric(iii)
Flocculation
Iron
Membrane filters
Molecular weight
multiple treatment mechanisms
Organic matter
Oxidants
Oxidation
Oxidizing agents
Pollutants
Removal
River water
Rivers
Surface water
Turbidity
Water purification
Water quality
Water treatment
United States > US
New Jersey
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Summary:Abstract A bench–scale experiment was performed to assess whether union use of ferrate (Fe(VI)) and ferric (Fe(III)) addition in real surface water (reservoir and river water) resulted in better water remediation. The results indicated that increased Fe dosage improved the treatment performance, the removals of total coliform, turbidity and DOC were better when the mass ratio of Fe(VI): Fe(III) was 1:2 and pH was 8, regardless of the water source. Alkalescency condition benefits Fe(III) coagulation and Fe(VI) disinfection efficiency due to the better stability and greater exposure to Fe(VI). Union use of Fe(VI) and Fe(III), as a coagulant and oxidant to enhance flocculation precipitation, can simultaneously remove turbidity, degraded natural organic matter (NOM) degradation, and destroy bacterial activity. At optimized dosage and pH, chemical oxidation plays the dominant role in the disinfection performance and secondary removal of DOC for Fe(VI) treatment, while for the mechanisms of Fe(III), coagulation and adsorption make the dominant contribution to the removal of turbidity and DOC. The application of the optimal ratio can maximize the advantages of both Fe(VI) and Fe(III), and enables the maximum purification effectiveness at minimum dosage and cost, so it will be a simple and efficient treatment for different drinking water.
ISSN:1606-9749
1607-0798
DOI:10.2166/ws.2022.380