Novel aluminium (hydr) oxide-functionalized activated carbon derived from Raffia palm (Raphia hookeri) shells: Augmentation of its adsorptive properties for efficient fluoride uptake in aqueous media

IF 9 Q1 ENVIRONMENTAL SCIENCES Environmental Chemistry and Ecotoxicology Pub Date : 2021-01-01 DOI:10.1016/j.enceco.2021.03.003
Raphael T. Iwar , Oliver T. Iorhemen , Kola' Ogedengbe , Kamil Kayode Katibi
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引用次数: 13

Abstract

In this study a novel activated carbon derived from Raffia palm shells was synthesized firstly by activating the precursor with phosphoric acid to produce Raffia Palm Shell Activated Carbon (RPSAC) and further functionalized by coating its surface with aluminium hydroxide to produce a composite called Aluminium Oxide-coated Raffia Palm Shell Activated Carbon (ACRPSAC). These adsorbents were extensively characterized and tested for fluoride adsorption in aqueous media using batch adsorption experiment in comparison with a commercially available activated carbon (CAC). ACRPSAC demonstrated excellent qualities and fluoride adsorption capacity as compared to RPSAC. SEM/EDX revealed that ACRPSAC developed both micro and meso-pores on its surface with BET-surface area and pore volume of 715.80 m2/g and 0.47 cm3/g respectively. FTIR and XRD proved that ACRPSAC was largely amorphous and had sufficient functionality for fluoride uptake in solution. Batch adsorption studies showed that the fluoride removal abilities were in the order of ACRPSAC > RPSAC > CAC with maximum Langmuir adsorption capacity of 4.10 > 2.26 > 2.24 mg/g. respectively. The experimental data was well described by the Langmuir (R2 = 0.8802–0.9751) and the pseudo-second order kinetic (R2 = 0.9974–0.9999) models, signifying that fluoride uptake by the adsorbents was a chemisorption process. Thermodynamic studies revealed that the process was spontaneous, endothermic and feasible for ACRPSAC and RPSAC but was non-spontaneous for CAC. It was concluded that ACRPSAC is an excellent activated carbon for eliminating fluoride from groundwater and can be further studied for its commercialization.

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新型铝(水)氧化物功能化活性炭来源于拉菲棕榈壳:增强其在水介质中有效吸收氟化物的吸附性能
本研究首先用磷酸活化前体制备了一种新型的拉菲叶棕榈壳活性炭(RPSAC),并在其表面涂覆氢氧化铝进行功能化制备了氧化铝包覆拉菲叶棕榈壳活性炭(ACRPSAC)。采用间歇式吸附实验对这些吸附剂进行了广泛的表征和测试,并与市售活性炭(CAC)进行了比较。与RPSAC相比,ACRPSAC表现出优异的品质和氟吸附能力。SEM/EDX分析表明,ACRPSAC表面同时发育微孔和中孔,比表面积和孔体积分别为715.80 m2/g和0.47 cm3/g。FTIR和XRD证明了ACRPSAC在很大程度上是无定形的,具有足够的溶液氟吸收功能。间歇式吸附研究表明,其除氟能力依次为ACRPSAC >RPSAC祝辞最大Langmuir吸附容量为4.10 >的CAC;2.26比;2.24毫克/克。分别。Langmuir模型(R2 = 0.8802 ~ 0.9751)和拟二级动力学模型(R2 = 0.9974 ~ 0.9999)很好地描述了实验数据,表明吸附剂对氟的吸收是一个化学吸附过程。热力学研究表明,ACRPSAC和RPSAC的反应过程是自发的、吸热的、可行的,而CAC的反应过程是非自发的。结果表明,ACRPSAC是一种去除地下水中氟化物的优良活性炭,可进一步研究其商业化。
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