Calcium-containing biochar (ES-BC) was prepared by pyrolyzing eggshell and kitchen wastes, and the ES-BC composite was used to remove phosphate (marked as ES-BC/P). Based on the high affinity of phosphate and carbonate to lead, the ES-BC/P was then used to remove lead from the water. The results showed that, in the appropriate dosage, ES-BC/P could remove lead efficiently at different initial concentrations (1-100 mg·L), and the removal efficiency could reach to 99%. Meanwhile, the release of phosphorus could be ignored after the reaction. As ES-BC/P was alkaline, and the lead-containing solution was weakly acidic, the addition of ES-BC/P could adjust the pH of the system automatically. The reaction kinetics and isotherm experiments showed that the lead removal by ES-BC/P was mainly monolayer chemisorption with a maximum adsorption capacity of 493.12 mg·g (318 K). The characterization results showed that lead was mainly removed through the ion exchanges of Pb in the solution with Ca in ES-BC/P. Then, the Pb combined with CO and PO to form many precipitates, including Pb(PO)OH, Pb(PO)(OH), PbCO, and Pb(CO)(OH). In summary, the ES-BC/P material could achieve the efficient removal of lead from the water, thereby realizing the resource utilization of the wastes.
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Huan Jing Ke Xue
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College of Ecology and Environment, Chengdu University of Technology, Chengdu 610059, China.
Calcium-containing biochar (ES-BC) was prepared by pyrolyzing eggshell and kitchen wastes, and the ES-BC composite was used to remove phosphate (marked as ES-BC/P). Based on the high affinity of phosphate and carbonate to lead, the ES-BC/P was then used to remove lead from the water. The results showed that, in the appropriate dosage, ES-BC/P could remove lead efficiently at different initial concentrations (1-100 mg·L), and the removal efficiency could reach to 99%.
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