Adsorption of Fe , Pb , Zn and Cr ions from aqueous solutions using natural, ammonium oxalate and sodium hydroxide modified Kaolinite clay

Ife Journal of Science Pub Date : 2021-01-25 DOI:10.4314/IJS.V22I3.1

J. A. Lawal, E. Odebunmi, F. A. Adekola

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引用次数: 1

Abstract

001 Ife Journal of Science vol. 22, no. 3 (2020) INTRODUCTION Effluents discharge from industries is a major source of environmental pollution globally. Heavy metals are one of the dominant contaminants in industrial effluents and discharging heavy-metal laden contaminated wastewater into water bodies at elevated concentrations is considered lethal to living organisms. Excessive accumulation of metal ions in living tissue impedes the biological functions of vital organs resulting into health problems (Chandra and Mandal, 2000; Jiang et al., 2010). Several treatment methods have been devised for removal of heavy metals from wastewater. Adsorption technique is considered one of the effective low-cost methods for removal of heavy metals. Adsorption of heavy metals from aqueous solutions has been studied using different adsorbents including clay (Sari et al., 2007; Adebowale et al., 2008; Dawodu and Akpomie, 2014). The use of kaolinite clay for adsorption is worthwhile because of its abundance in deposit especially in Nigeria (Olusola et al., 2011; Fakoluji et al., 2012). Kaolinite clay is a phyllosilicate clay mineral of interlayer structure type 1:1 with ideal structural formula of Al Si O (OH) (Barth, 1994; 2 2 5 4 Bergaya et al., 2006; Uddin, 2017). Several researchers have investigated the adsorption of heavy metal ions in aqueous solution on kaolinite 2+ clay. The data obtained from adsorption of Pb , 2+ 3+ 2+ 2+ Cu , Fe , Mn and Zn ions on kaolinite showed that there was favourable adsorption of the metal ions (Kamel et al., 2004). Investigation of 2+ 2+ 2+ 2+ adsorption of Pb , Cu , Cd , and Zn ions on 2+ different clays have shown that Pb ion, has greater affinity for the clays than the other metal ions (Olaofe et al., 2015). Nigerian kaolinite clay https://dx.doi.org/10.4314/ijs.v22i3.1

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天然、草酸铵和氢氧化钠改性高岭石粘土对水溶液中铁、铅、锌和铬离子的吸附研究

《生命科学》第22卷，第1期。工业废水排放是全球环境污染的主要来源。重金属是工业废水中的主要污染物之一，将重金属污染废水高浓度排放到水体中被认为对生物是致命的。金属离子在活组织中的过度积累妨碍重要器官的生物功能，从而导致健康问题(Chandra和Mandal, 2000年;Jiang et al.， 2010)。已经设计了几种去除废水中重金属的处理方法。吸附技术被认为是一种有效的低成本去除重金属的方法。已经研究了使用不同的吸附剂，包括粘土，从水溶液中吸附重金属(Sari等人，2007;Adebowale et al.， 2008;Dawodu and Akpomie, 2014)。使用高岭石粘土进行吸附是值得的，因为高岭石粘土在沉积物中储量丰富，特别是在尼日利亚(Olusola等人，2011;Fakoluji et al.， 2012)。高岭石粘土是层间结构类型为1:1的层间硅酸盐粘土矿物，具有Al Si O (OH)的理想结构式(Barth, 1994;2 2 5 4 Bergaya等人，2006;Uddin, 2017)。一些研究人员研究了高岭石2+粘土对水溶液中重金属离子的吸附。对Pb、2+ 3+ 2+ 2+ Cu、Fe、Mn和Zn离子在高岭石上的吸附数据表明，这些金属离子具有良好的吸附作用(Kamel etal .， 2004)。2+ 2+ 2+ 2+ 2+吸附Pb、Cu、Cd和Zn离子在2+不同粘土上的研究表明，Pb离子对粘土的亲和力大于其他金属离子(Olaofe etal .， 2015)。尼日利亚高岭石粘土https://dx.doi.org/10.4314/ijs.v22i3.1

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Ife Journal of Science

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