生物炭、赤泥和粉煤灰对污染土壤重金属的固定化研究

YMER Digital Pub Date : 2022-08-05 DOI:10.37896/ymer21.08/11
Sukhdeep Singh
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摘要

由于佛州明渠附近的工业活动,长期的废水灌溉或固体废物处理导致土壤和地下水受到重金属污染。重金属的整治值得考虑;然而,这些过程的费用阻碍了它。本综述的主要目的是展示通过协调复合固定策略同时修复重金属污染土壤和地下水的理论。本研究以赤泥、生物炭、粉煤灰等副产物为粘结剂,与水玻璃溶液结合固定化重金属,制备可作为建筑材料的地聚合物基材料。利用生物炭修复退化土壤可能为土壤污染问题提供另一种解决方案。这项研究集中在未提炼的成分和地聚合物中重金属的可浸出性,因为这对调查项目的自然影响至关重要。重金属如Cu、Zn、Cd、Pb、Fe和Cr的可浸出性根据印度pH值为7的标准进行了评估。结果表明:原料(生物炭、赤泥和粉煤灰)的浸出率高于地聚合物样品;此外,还介绍了地聚合物基材料中重金属的浸出试验值。关键词:固定化,重金属,生物炭,赤泥,粉煤灰
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Study of Heavy Metals Immobilization of Contaminated Soil by the impetus of Biochar, Red mud & Fly ash
Long-term wastewater irrigation or solid waste disposal has resulted in heavy metal contamination in both soil and groundwater, due to the industrial activity nearby Buddha Nullah Area. The remediation of heavy metals merits consideration; however, it is impeded by the expense of these processes. The primary target of this review was to exhibit the theory of concurrent remediation of both heavy metals defiled soil and groundwater by coordinating the compound immobilization strategies. In this study, byproducts such as red mud, biochar and fly ash were used as binders, for the immobilization of heavy metals in combination with sodium silicate solution to produce a geopolymer-based material that can be utilized as building materials. The utilization of biochar for the remediation of debased soils might give another solution to the problem for the soil contamination issue. This study concentrated on the leachability of heavy metals in the unrefined components and the geopolymer as this would be critical in surveying the natural effect of the item. The leachability of heavy metals such as Cu, Zn, Cd, Pb, Fe, and Cr was evaluated based on Indian standards with pH values at 7. The results showed that raw materials (biochar, red mud and fly ash) have higher leachability than geopolymer specimens; also the values of leaching tests for heavy metals in the geopolymer-based materials. Keywords: Immobilization, Heavy Metals, Biochar, Red Mud, Fly Ash.
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