Evaluation of the adsorption behavior and divalent metal ions removal efficiency of ceramic point-of-use water filter materials

Ohene B. Apea, Bennet Edem Akorley, Emmanuel O. Oyelude, Boateng Ampadu
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Abstract

Ceramic water filters (CWFs) are point-of-use devices mostly used in developing countries as a result of their effectiveness in the treatment of household water. However, there is a dearth of knowledge on the metal ions adsorption behavior of the filter materials. Therefore, this study investigates the adsorption behavior of the divalent metal ions using commercially available ceramic water filters as adsorbents, in a batch experiment and compared the data, to the extent of metal ion removal during filtration. The ceramic water filters were characterized with x-ray fluorescence spectrometer, x-ray powder diffractometer and fourier-transform infrared spectrophotometer. An adsorption batch experiment was conducted and filtration experiments were performed to determine the extent of divalent metal ions removed. The results of the study showed that divalent metal ions were adsorbed efficiently by ceramic water filters. The pseudo-second-order kinetic model best described the kinetic behavior of metal ion removal process. The extent of adsorption of ceramic water filters was in the range: 7.015–335.77 mgg−1. The adsorption patterns fitted the Freundlich isotherm model while the entropy, enthalpy, and Gibbs free energy, indicate that the processes for all CWF-adsorbents are endothermic, feasible and spontaneous. The kinetic and thermodynamic behavior of CWF-adsorbents indicate that the mechanism of the sorption process is chemisorption. There was a significant difference in the amount of divalent metal ions adsorbed in batch experiments compared to filtration experiments for ceramic water filter materials (Pot filter and candle filter). The metal ions adsorption potentials of ceramic water filters are found to be rate dependent; hence the rate of filtration must be of concern to manufacturers.
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陶瓷点用水过滤材料的吸附行为及去除二价金属离子效率评价
陶瓷水过滤器(CWFs)是一种使用点设备,主要用于发展中国家,因为它们在处理家庭用水方面很有效。然而,对于过滤材料对金属离子的吸附行为还缺乏相关的知识。因此,本研究以市售陶瓷水过滤器为吸附剂,对二价金属离子的吸附行为进行了批量实验,并对实验数据进行了对比,考察了过滤过程中金属离子的去除程度。用x射线荧光光谱仪、x射线粉末衍射仪和傅里叶变换红外分光光度计对陶瓷滤水器进行了表征。进行了间歇吸附实验和过滤实验,以确定二价金属离子的去除程度。研究结果表明,陶瓷滤水器对二价金属离子有较好的吸附效果。拟二级动力学模型较好地描述了金属离子去除过程的动力学行为。陶瓷滤水器的吸附量范围为:7.015 ~ 335.77 mg−1。吸附模式符合Freundlich等温线模型,熵、焓和吉布斯自由能表明,所有cwf吸附剂的吸附过程都是吸热的、可行的和自发的。cwf吸附剂的动力学和热力学行为表明,其吸附机理为化学吸附。与陶瓷水过滤材料(锅式过滤器和蜡烛过滤器)的过滤实验相比,批量实验中二价金属离子的吸附量有显著差异。陶瓷滤水器的金属离子吸附电位与速率有关;因此,过滤速度必须引起制造商的关注。
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