Lead and Cadmium Ions Mitigation in Soil using Calcium Carbide Waste-Carbonised Lophira Alata Sawdust Composite (CCW-CLAS) as Immobilizing Agent

O. Moses, Queen Omone Asekhame
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Abstract

Soil contamination with heavy metals is a global environmental matter of interest due to its thinkable dangers to humans, environmental health and ecosystem preceding shortfalls in agricultural produce and dangerous health outcomes as they penetrate the food chain. The aim of this study was to mitigate lead and cadmium ions contaminant in soil using calcium carbide waste-carbonized lophira alata sawdust composite (CCW-CLAS). Contaminated soil samples were collected from Evbareke spare parts market, Benin City, Edo state Nigeria, using a grid sampling method at the depth of 0-20cm with the aid of soil auger. 50% W/W of the powdered calcium carbide waste and lophira alata sawdust was placed in a ceramic crucible and put into muffle furnace and heated at 350oC for 3 hours. The X-ray diffraction analysis for the calcium carbide waste-carbonized lophira alata sawdust composite (CCW-CLAS) revealed that it was made up of predominantly calcite fraction (55.0%), portlandite (25.0%), coesite (7.3%), muscovite (6.7%), dolomite (4.0%) and lime (2.1%) this was supported by FTIR analysis. SEM analysis revealed that calcium carbide waste-carbonized lophira alata sawdust composite (CCW-CLAS) possess a rough surface with pore of varied size and irregular shape. The contaminated soil from the Evbareke spare parts market was heavily polluted with petroleum hydrocarbons, and the soil was highly saline with low C.E.C. The soil texture was loamy-sand. As the amount of CCW-CLAS increased in the soil, the amount of cadmium and lead ions that was releasable in the soil reduced, indicating that CCW-CLAS was effective in immobilizing cadmium and lead ions. The optimum amount of the amender in the contaminated soil to immobilize lead ion was 4% w/w and cadmium ion was 2%. 
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电石废弃物-炭化木屑复合材料(CCW-CLAS)对土壤中铅、镉离子的抑制作用
土壤重金属污染是一个全球性的环境问题,因为它对人类、环境健康和生态系统的危害是可以想象的,在农产品短缺之前,重金属污染会渗透到食物链中,造成危险的健康后果。研究了利用电石渣-炭化木屑复合材料(CCW-CLAS)减轻土壤中铅和镉离子的污染。在尼日利亚江户州贝宁市Evbareke备件市场,采用网格采样法,借助土壤螺旋钻在0 ~ 20cm深度采集污染土壤样本。将50% W/W的电石粉废和海木屑放入陶瓷坩埚中,放入马弗炉,350℃加热3小时。x射线衍射分析表明,电石废-碳化木屑复合材料(CCW-CLAS)主要由方解石(55.0%)、波特兰石(25.0%)、钴矿(7.3%)、白云母(6.7%)、白云石(4.0%)和石灰(2.1%)组成,FTIR分析也证实了这一点。SEM分析表明,电石渣-碳化木屑复合材料(CCW-CLAS)表面粗糙,孔隙大小不一,形状不规则。Evbareke零配件市场污染土壤中石油烃污染严重,土壤高盐碱度,cec较低,土壤质地为壤土-砂质。随着土壤中CCW-CLAS含量的增加,土壤中镉和铅离子的释放量减少,表明CCW-CLAS具有固定镉和铅离子的有效作用。修复剂对铅离子和镉离子的最适固定量分别为4% w/w和2% w/w。
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