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Coagulation performance evaluation of alginate as a natural coagulant for the treatment of turbid water
Summary
This study tested alginate derived from seaweed as a natural coagulant for removing turbidity from drinking water, finding that calcium alginate effectively clumped suspended particles. Natural coagulants offer an environmentally friendly alternative to conventional synthetic coagulants in water treatment, potentially relevant for systems designed to also capture microplastic particles.
Abstract Alginates are quite abundant in nature as they occur both as a structural component in marine brown algae (Phaeophyceae) comprising up to 40% of dry matter and as capsular polysaccharides in soil bacteria. Alginic acid is the only polysaccharide, which naturally contains carboxyl groups in each constituent residue, and possesses various abilities for functional materials. Experiments were carried out for water of turbidity 300 NTU. Alginate as such doesn't act as a coagulant, instead it should be converted to calcium alginate by adding calcium ions. Calcium chloride was used for imparting calcium ions necessary for the reaction. The dosage of calcium was fixed as 50 mg/L, 75 mg/L, 100 mg/L, 150 mg/L, 200 mg/L, and alginate doses between 2 to 10 mg/L. Calcium dosage below 50 mg/L was not sufficient for the formation of the egg-box structure which is responsible for the coagulation and flocculation process. For the mechanism of charge neutralization to take place effectively, calcium should be added first followed by alginate. pH and conductivity of the sample remain constant before and after the treatment. The dosage of alginate required for the treatment is less, so the cost of treatment also will be much less, thus alginate can replace the usage of chemical coagulants like alum.
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