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deionized waterBuilding
ironMilitary unit
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sorptionLocomotive
sorbentLocomotive
oxygenChemical substance
nitrogenMilitary unit
phosphorusMilitary unit
ThailandPlace
Drinking water treatment residuals (DWTRs) generated during drinking water treatment have been proposed for use in lake restoration as a solid-phase sorbent to inactivate phosphorus (P) in lake sediment. However, treatments that minimize leaching of nitrogen (N) and optimize P sorption capacity may be necessary prior to use. This study assessed seven different treatment methods, including washing and heat treatments at different temperatures and with and without oxygen limitation, among two DWTRs from Thailand. Results showed that oxygen-limited heat treatment at 600 degrees C substantially reduced N leaching (<0.2 mg/kg TKN) while also improving P sorption capacity (increase of 18-32% compared to untreated DWTR) to a maximum of 45.7 mg P/k...
Eutrophication caused by excess phosphorus (P) loading poses serious environmental risk to freshwate...
Abstract114 lakes treated with aluminum (Al) salts to reduce internal phosphorus (P) loading were an...
Anthropogenic phosphorus (P) and nitrogen (N) inputs to aquatic environments have rapidly increased ...
Drinking water treatment residuals (DWTRs) generated during drinking water treatment have been propo...
Historical accumulation of phosphorus (P) in lake sediment often contributes to and sustains eutroph...
Over the past several decades, the value of drinking water treatment residuals (WTRs), a byproduct o...
A high amorphous aluminum or iron oxide content in drinking water treatment residuals (WTRs) can res...
Excess phosphorus levels in water ways can lead to eutrophication. A low cost measure to reduce P le...
Water treatment residuals (WTRs) are the by-products of drinking water clarification processes, wher...
Lakes are important for many reasons as they provide valuable ecological and human services, such as...
Excessive phosphorus (P) is a threat to water quality and aquatic life, and one of the governing cau...
Drinking-water treatment residuals (WTRs) are amorphous metal hydroxides with significant phosphoru...
For more than 50 years, aluminum (Al)-salts have been used with varying degrees of success to inacti...
<p>Schütz J, Rydin E, Huser BJ. 2017. A newly developed injection method for aluminum treatment in e...
Water treatment residuals (WTRs) are the by-products of drinking water clarification processes, wher...
Eutrophication caused by excess phosphorus (P) loading poses serious environmental risk to freshwate...
Abstract114 lakes treated with aluminum (Al) salts to reduce internal phosphorus (P) loading were an...
Anthropogenic phosphorus (P) and nitrogen (N) inputs to aquatic environments have rapidly increased ...
Drinking water treatment residuals (DWTRs) generated during drinking water treatment have been propo...
Historical accumulation of phosphorus (P) in lake sediment often contributes to and sustains eutroph...
Over the past several decades, the value of drinking water treatment residuals (WTRs), a byproduct o...
A high amorphous aluminum or iron oxide content in drinking water treatment residuals (WTRs) can res...
Excess phosphorus levels in water ways can lead to eutrophication. A low cost measure to reduce P le...
Water treatment residuals (WTRs) are the by-products of drinking water clarification processes, wher...
Lakes are important for many reasons as they provide valuable ecological and human services, such as...
Excessive phosphorus (P) is a threat to water quality and aquatic life, and one of the governing cau...
Drinking-water treatment residuals (WTRs) are amorphous metal hydroxides with significant phosphoru...
For more than 50 years, aluminum (Al)-salts have been used with varying degrees of success to inacti...
<p>Schütz J, Rydin E, Huser BJ. 2017. A newly developed injection method for aluminum treatment in e...
Water treatment residuals (WTRs) are the by-products of drinking water clarification processes, wher...
Eutrophication caused by excess phosphorus (P) loading poses serious environmental risk to freshwate...
Abstract114 lakes treated with aluminum (Al) salts to reduce internal phosphorus (P) loading were an...
Anthropogenic phosphorus (P) and nitrogen (N) inputs to aquatic environments have rapidly increased ...
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