Preparation and characterization of sintered clay ceramic membranes water filters

Open Material Sciences Pub Date : 2019-01-01 DOI:10.1515/oms-2019-0005

E. Zereffa, Tegene Desalegn

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引用次数: 3

Abstract

Abstract Metal oxide ceramic is getting more attention in current times due to their unique pore structures, hydrophilic surfaces, high chemical, thermal and mechanical stabilities which offer avenues for application in water treatment. This paper presents the results of an experimental study on the effects of different ratios of clay, grog, sawdust and bone char on efficiency of ceramic composite water filters. Filter of different designs were developed from clay (50, 60, 70, 75 and 80) |%|, sawdust (15, 25, and 35) |%|, grog (5 and 15) |%| bone char and 5|%| ratios by volume and sintered at temperature of 900°C for 6 hours. The Phase and functional group identification of sintered filter investigated with x-ray diffraction and infrared spectroscopy revealed the presence of mixed phase and hydroxyl functional group on the surface of sintered filter. Field emission scanning electron microscopy (FESEM) revealed the porous nature of the microstructures of the sintered filter elements. The superior ceramic water filter design (C900-50-15-35) with total porosity 35.89±0.04|%|, flow rate 2.05±0.41|%| and the percent E coli, nitrite and fluoride removal efficiency: 99.6±0.40 |%|, 81.17±0.22|%| and 96.4±0.42|%| were obtained from this work. Porosity evaluated by BET study for C900-50-15-35 demonstrated an average pore size and surface area of 5 |nm | and 7.30|m2/g|, respectively.

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烧结粘土陶瓷膜滤水器的制备与表征

摘要金属氧化物陶瓷以其独特的孔隙结构、亲水性、高的化学稳定性、热稳定性和机械稳定性在水处理领域的应用日益受到人们的关注。本文介绍了粘土、酒、木屑和骨炭不同配比对陶瓷复合滤水器过滤效率影响的实验研究结果。用粘土(50、60、70、75和80)|%|，木屑(15、25和35)|%|，熟料(5和15)|%|骨炭和5|%|按体积比例配制不同设计的过滤器，在900℃下烧结6小时。利用x射线衍射和红外光谱对烧结滤材的物相和官能团进行了鉴定，发现烧结滤材表面存在混合物相和羟基官能团。场发射扫描电镜(FESEM)揭示了烧结滤光片微观结构的多孔性。该陶瓷滤水器的总孔隙率为35.89±0.04|%|，流速为2.05±0.41|%|，对大肠杆菌、亚硝酸盐和氟化物的去除率分别为99.6±0.40 |%|、81.17±0.22|%|和96.4±0.42|%|。对C900-50-15-35进行的BET孔隙度评价表明，平均孔径和比表面积分别为5 |nm |和7.30|m2/g|。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Open Material Sciences

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