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Phosphorus sorption by peat and sand amended with iron oxides or steel wool
ABSTRACT: Efficient removal of nutrients from municipal sewage treatment plant wastewater is needed to protect surface waters from eutrophication, but artificial peat beds designed for this purpose have proved unsuccessful for phosphorus removal. Laboratory studies were conducted to evaluate the feasibility of adding iron oxides or steel wool to peat and sand to increase phosphate sorption. Langmuir‐type batch isotherms and column leaching studies showed that preformed rust and untreated steel wool markedly increased phosphorus sorption by peat and sand, with the steel wool‐peat combination removing the most phosphorus under realistic, leaching conditions. Estimated useful lives for the ironamended materials ranged from zero years for unamended sand to several years for steel wool‐amended peat, depending on quantities of iron material added. The results suggested that steel wool offers a low‐cost, efficient amendment for peat and sand beds designed for phosphorus removal from wastewater.
Phosphorus sorption by peat and sand amended with iron oxides or steel wool
ABSTRACT: Efficient removal of nutrients from municipal sewage treatment plant wastewater is needed to protect surface waters from eutrophication, but artificial peat beds designed for this purpose have proved unsuccessful for phosphorus removal. Laboratory studies were conducted to evaluate the feasibility of adding iron oxides or steel wool to peat and sand to increase phosphate sorption. Langmuir‐type batch isotherms and column leaching studies showed that preformed rust and untreated steel wool markedly increased phosphorus sorption by peat and sand, with the steel wool‐peat combination removing the most phosphorus under realistic, leaching conditions. Estimated useful lives for the ironamended materials ranged from zero years for unamended sand to several years for steel wool‐amended peat, depending on quantities of iron material added. The results suggested that steel wool offers a low‐cost, efficient amendment for peat and sand beds designed for phosphorus removal from wastewater.
Phosphorus sorption by peat and sand amended with iron oxides or steel wool
James, Bruce R. (author) / Rabenhorst, Martin C. (author) / Frigon, George A. (author)
Water Environment Research ; 64 ; 699-705
1992-07-01
7 pages
Article (Journal)
Electronic Resource
English
wastewater , isotherms , tertiary treatment , rust , wetlands , sorption
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