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Preparation and application of soil conditioner using iron ore tailings-biochar composite material

Xiaojie Hou, Y.B. Zhang, Xuan Liu, Chunsheng Zhou, Jiaying Li, Miaomiao Ke

2024Alexandria Engineering Journal12 citationsDOIOpen Access PDF

Abstract

Iron ore tailings (IOT) are industrial solid wastes that pose environmental threats. This study prepared IOT-biochar composite materials as multifunctional soil conditioners through an in-situ growth method. Biochar served as a carrier to improve the dispersity and reactivity of IOT in soil. The IOT-biochar composite (FeOT-BC) showed balanced impacts on soil properties, increasing pH, organic matter and available nutrients compared to IOT alone. This was due to the buffering effects of biochar. In pot experiments, FeOT-BC significantly promoted rice plant growth compared to IOT alone. The improvements were attributed to the improved soil fertility and increased microbial activities induced by biochar. The results suggest that integrating IOT with biochar can mitigate the negative effects of tailings and convert them into a value-added product. The biochar component can optimize the performance of IOT by moderating soil acidification, enhancing nutrient release from iron minerals, and stimulating microbial activities. The IOT-biochar composite materials integrate the functionalities of both components for optimized soil conditioning effects, providing a promising strategy for comprehensive tailings utilization.

Topics & Concepts

BiocharTailingsEnvironmental scienceSoil conditionerComposite numberNutrientSoil fertilityOrganic matterWaste managementSoil waterChemistryMaterials scienceSoil sciencePyrolysisMetallurgyEngineeringOrganic chemistryComposite materialIron oxide chemistry and applicationsMine drainage and remediation techniquesClay minerals and soil interactions
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