Abstract
Abstract
Phosphate is a naturally occurring chemical found in large quantities on the Earth’s surface that causes eutrophication when deposited into rivers. A number of studies have been conducted to assess the ability of various treatments to remove phosphates from sewage. Lately, it has been discovered that phosphorus recovery may be accomplished by filtering the water. The cost of the filtering materials, on the other hand, is prohibitively expensive. As a result, current research has concentrated on utilising low-cost ones to minimise the expense of filtering. Steel production residues, such as kiln bottom ashes, are being utilised in this study to recover phosphates from contaminated wastewater. A variety of operational settings have been investigated in order to obtain the highest possible extraction efficiency at the lowest feasible cost. Bottom ashes were demonstrated to be an effective substitute for phosphorus extraction. The highest phosphorus extraction was 90.1 percent after 40 minutes, with a starting concentration of 5 mg/L and an ash dose of 530 mg/L. The findings were used to create a prediction model with a high degree of reliability.
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