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Back to chromite as a mineralogical strategy for long-term chromium pollution control

Tianci Hua, Yanzhang Li, Yuxuan Hu, Rongzhang Yin, Yanan Zhang, Bingxu Hou, Houze Lu, Xiang Shan Ji, Xiangzhi Bai, Anhuai Lu, Yan Li, Yan Li, Yan Li

2025Nature Communications25 citationsDOIOpen Access PDF

Abstract

Re-oxidation of Cr(III) in treated Cr-contaminated sites poses a considerable source of Cr(VI) pollution, necessitating stable treatment solutions for long-term control. This study explores the immobilization of Cr(VI) into chromite, the most stable and weathering-resistant Cr-bearing mineral, under ambient conditions. Batch experiments demonstrate chromite formation at pH above 7 and Fe(III)/Cr(III) ratios exceeding 1, with Fe(III) occupying all tetrahedral sites, essential for stability. A theoretical model is developed to evaluate the effects of pH and Fe(III)/Cr(III) ratios on chromite crystallinity, resulting in AI4Min-Cr, a publicly accessible platform offering real-time intelligent remediation strategies. To tackle the complexities of non-point source Cr pollution, we employ microbial methods to regulate on-site Eh and pH, optimizing chromite precipitation. Long-term stability tests confirm that chromite remained stable for over 180 days, with potential for magnetic separation recovery. This study presents a mineralogical strategy to address re-oxidation and Cr resource recovery in Cr-contaminated water and soil.

Topics & Concepts

ChromiteChromiumTerm (time)PollutionEnvironmental scienceNatural resource economicsComputer scienceBusinessGeologyGeochemistryBiologyMetallurgyMaterials scienceEcologyPhysicsEconomicsQuantum mechanicsChromium effects and bioremediationHeavy metals in environmentMetal Extraction and Bioleaching
Back to chromite as a mineralogical strategy for long-term chromium pollution control | Litcius