可可豆荚-长石复合吸附剂去除废水中重金属的潜力评价

IF 2.3 3区社会学 Q2 DEVELOPMENT STUDIES Journal of Environment & Development Pub Date : 2023-08-07 DOI:10.47941/je.1380

Yakubu Yahaya, M. M. Ambursa, Aminu Rabiu Koko, Sanusi Kabir Adebayo

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引用次数: 0

摘要

目的:大多数用于去除重金属的传统废水处理技术都非常昂贵，并且可能产生污泥处理问题。吸附技术相对便宜，特别是在使用低成本材料和生物质的情况下。研究了以农业废生物质(可可豆荚)和长石矿物为原料制备的改性长石复合吸附剂对废水中重金属的去除效果。方法:采用标准方法对改性长石复合材料处理前后的废水样品进行理化分析。部分样品直接消化分析Pb、Cd、Cr和As，部分样品在最佳条件下用改性可可豆荚- felspar (TCPF)吸附剂处理，然后进行重金属分析。用0.1 M HCl对废水中重金属(Pb、Cd、As、Cr)进行吸附后的TCPF吸附剂解吸(清洗)。结果:原子吸收光谱分析表明，TCPF处理前废水中重金属浓度较高，呈现Pb>Cr>Cd>As的趋势，均高于WHO和NESREA标准。经TCPF处理后样品的Cr>As>Pb>Cd值较低，符合标准要求。TCPF吸附剂处理前后废水中各金属的测定值差异显著，p< 0.05。TCPF对Pb(98.92%)、Cd(96.88%)和Cr(97.18%)的吸附效率较高。同样，TCPF对Pb、Cd、As和Cr的解吸效率分别为76.8%、90.6%、94.4%和80.3%。对理论、政策和实践的独特贡献:改性复合材料(TCPF)在去除废水和工业废水中的某些重金属方面显示出巨大的潜力。

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Assessment of the Potentials of Theobroma Cacao Pod-Feldspar Composite Adsorbent for Heavy Metal Removal in Waste Water

Purpose: Most conventional wastewater treatment techniques for the removal heavy metals are highly expensive and may, create sludge disposal problems. Adsorption techniques are relatively cheaper particularly when the process is carried out using low-cost materials and biomass. This paper is on the assessment of the potentials of a modified feldspar composite absorbent developed from waste agricultural biomass (Theobroma cocoa pod) and feldspar mineral in the removal of heavy metals from wastewater. Methodology: The physicochemical analysis were carried out on the wastewater samples before and after treatment with modified feldspar composite using standard methods. Portions of the samples were directly digested and analysed for Pb, Cd, Cr and As, while the second portions were treated with the modified Theobroma cocoa pod-Felspar (TCPF) adsorbent under optimum conditions before analysing for the heavy metals. The desorption (cleaning) of the TCPF adsorbent after the adsorption of the heavy metals (Pb, Cd, As and Cr) from the wastewater was carried out with 0.1 M HCl. Findings: The AAS analysis revealed that, the concentrations of the heavy metals in the wastewater before treatment with TCPF were higher and followed Pb>Cr>Cd>As trend and were above WHO and NESREA standards. The values for the samples treated with TCPF were lower and followed Cr>As>Pb>Cd trend and were within the standards. The differences between the values for the individual metals in the wastewater before and after treatment with the TCPF adsorbent were significant at p< 0.05. The adsorption efficiency of the TCPF was high for Pb (98.92%), Cd (96.88%) and Cr (97.18). Similarly, the TCPF showed high desorption efficiency with 76.8% for Pb, 90.6% for Cd, 94.4% for As and 80.3% for Cr. Unique contribution to theory policy and practice: The modified composite (TCPF) has shown some significant potentials for use in the removal of the selected heavy metals from wastewater and industrial effluent.

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Journal of Environment & Development Multiple-

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期刊介绍： The Journal of Environment & Development seeks to further research and debate on the nexus of environment and development issues at the local, national, regional, and international levels. The journal provides a forum that bridges the parallel debates among policy makers, attorneys, academics, business people, and NGO activists from all regions of the world. The journal invites submissions in such topics areas as the interaction between trade and environment; the role of local, national, regional, and international institutions in environmental governance; analysis of international environmental agreements; the impact of environmental regulation on investment policy; legal and scientific issues related to sustainable development.