4.3 Article

Copyrolytic Biochar for Remediation of Cadmium Contaminated Soil

Journal

ENVIRONMENTAL ENGINEERING SCIENCE
Volume -, Issue -, Pages -

Publisher

MARY ANN LIEBERT, INC
DOI: 10.1089/ees.2022.0324

Keywords

bioavailability; cadmium; co-pyrolyzed biochar; passivation; remediation

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This study evaluated the physical characterization of biochar produced from lobster shells and straw through co-pyrolysis, and found that the biochar reduced cadmium content in contaminated soil and improved cadmium fixation. The co-pyrolysis process altered the physical properties of the resulting biochar compared to biochar derived solely from straw or lobster shells. Incorporating the biochar into soil significantly increased soil pH and electrical conductivity, while reducing the availability of heavy metals. The application of different biochars resulted in varying levels of reduced cadmium content in the soil, with the biochar produced from a 1:3 mass ratio of lobster shells to straw proving most effective.
Biochar is an economical and efficient adsorption material of heavy metals. This study has evaluated physical characterization of biochar produced by co-pyrolysis at 500 & DEG;C from lobster shells and straw. The availability of biochar reduces cadmium in cadmium-contaminated soil, and improves cadmium fixation. The results revealed that co-pyrolysis process has altered physical characterization of co-pyrolysis biochar compared with individual straw or lobster shell biochar. The incorporation of biochar in the soil has significantly enhanced soil pH, EC, and has reduced available forms of heavy metals in the soil. The biochar has enhanced carbonate-bound metal forms that has directly converted highly utilized metal forms in stable forms in the soil. The application of five biochars has reduced available content of Cd in the soil compared with control. The content of available Cd is in order of L1J3 < L1J1 < L < J < L3J1 < CK after 150 days of incubation, which has decreased available Cd by 58.49%, 54.09%, 51.45%, 50.60%, and 42.42%, respectively. The five biochars treatments of 1L3J were proved as effective soil amendment for remediation of cadmium pollution. It is concluded that co-pyrolysis biochar from lobster shell pyrolysis with mass ratio of 1:3 of straw was most efficient for cadmium fixation in the soil.

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