Removal of organic matter from surface water during coagulation with sludge flotation and rapid filtration - a full-scale technological investigation

Coagulation with sludge flotation and rapid filtration was selected as a surface water treatment technology to be optimised with a full-scale investigation, which was carried out in Poland between August and October 2013. The river water treated was characterized by low alkalinity, high-temperature...

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Bibliographic Details
Published in:Water science and technology 2015-01, Vol.71 (4), p.645-652
Main Author: Pruss, Alina
Format: Article
Language:English
Subjects:
Activated carbon
Algae
Algal blooms
Alkalinity
Aquatic ecosystems
Biomass
Coagulants
Coagulation
Cyanobacteria
Desalination
Dissolved organic matter
Drinking water
Filters
Filtration
Filtration - methods
Flotation
Fluid filters
Fresh Water
High temperature
Molecular weight
Organic carbon
Organic matter
Oxidation
Plankton
Poland
Removal
River water
Rivers
Science
Sewage - chemistry
Sludge
Studies
Surface water
Technology
Total organic carbon
Treated water
Water delivery
Water Pollutants - chemistry
Water purification
Water Purification - methods
Water shortages
Water supply
Water treatment
Water treatment plants
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Summary:Coagulation with sludge flotation and rapid filtration was selected as a surface water treatment technology to be optimised with a full-scale investigation, which was carried out in Poland between August and October 2013. The river water treated was characterized by low alkalinity, high-temperature variability and a high organic matter content. In the course of technological studies, the processes of coagulation with sludge flotation and rapid filtration were analysed. The studies were performed in the most adverse conditions for the applied technology i.e. during the period of algal bloom and subsequent decomposition of dead plankton. Throughout the study, the river water contained mainly dissolved organic matter, with occasional increases in the concentration of the undissolved fraction during algal bloom. The undissolved total organic carbon (TOC) fraction was effectively removed through coagulation while small doses of ClO₂added prior to coagulation enhanced the process. The process of coagulation using high-coagulant doses at pH = 6.5 did not provide a reduction in the TOC value below the level of 4 mg C/L required for treated water. The effect was achieved by adding powdered activated carbon (PAC) before the filters. The coagulation products were characterised by low-hydraulic resistance which should be taken into account at the stage of water delivery to the filters, after flotation.
ISSN:0273-1223
1996-9732
DOI:10.2166/wst.2014.514