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Experimental and numerical investigations of biochar-facilitated Cd2+ transport in saturated porous media: role of solution pH and ionic strength

Dan Zhou, Xingyue Bao, Zhe Chen, Rui Liu, Mingzheng Huang, Yonglian Xia, Chao Li, Yi Huang

2023Biochar14 citationsDOIOpen Access PDF

Abstract

Abstract The nanoscale biochar (N-BC) generated during the production and weathering of bulk biochar has caused significant concerns for its cotransport with contaminants spreading the contamination. In this study, the cotransport behaviors of N-BC with Cd 2+ under variable solution chemistry were investigated for the first time, which can pose environmental contamination risks but have received little attention. The column experiment results showed that increasing ionic strength (IS) or decreasing pH retarded the transport of N-BC but promoted the transport of Cd 2+ in their individual transport. In cotransport scenarios, Cd 2+ facilitated the deposition of N-BC on the quartz sand with increasing IS or decreasing pH by providing additional sorption sites and led to the ripening of N-BC via cation bridging. N-BC retarded the transport of Cd 2+ under all conditions. However, lower pH and higher IS could facilitate the release of Cd 2+ from the immobile N-BC. The cotransport modeling results demonstrated that the Cd 2+ adsorption on and desorption from the immobile N-BC controlled the retention and release of Cd 2+ under variable pH and IS, while the influence of mobile N-BC on Cd 2+ transport was minor. This study provided new insight for evaluating the potential contamination-spreading risks and suggested that rational use of biochar with great caution is necessary. Graphical Abstract

Topics & Concepts

BiocharIonic strengthChemistryDesorptionCotransporterSorptionAdsorptionContaminationEnvironmental chemistryChemical engineeringAqueous solutionOrganic chemistryBiologyEcologyPyrolysisSodiumEngineeringAdsorption and biosorption for pollutant removalLandfill Environmental Impact StudiesGroundwater flow and contamination studies
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