Safe drinking water: effect of granular activated carbon bed characteristics on iron removal from water

G. Rasul, I. Ahmed, I. Hossain
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引用次数: 4

Abstract

Tuning the characteristics of granular activated carbon bed (GAC-bed) in household water-filters would be a technique to maintain iron at the required-level in drinking water. In the present study the individual effects of the depth of GAC-bed and the size and porosity of GAC particles on the iron removing capacity are investigated experimentally. A spectrophotometer is used to measure iron-content in water. It is observed that iron removing capacity increases monotonically with the increase in bed-depth regardless of the size of GAC particles. It is also observed that the iron removing capacity decreases drastically with the increase in the size of GAC particles for any fixed bed-depth. Finally the porosity of GAC particles is found to affect the iron removing capacity. The higher the GAC porosity the higher is the iron removing capacity over the considered porosity-range. It is believed that the observations of present study would be useful in adjusting GAC-bed characteristics at the time of designing household water-filters to maintain iron at the required-level. Chemical Engineering Research Bulletin 18(2015) 1-5
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安全饮用水:颗粒活性炭床特性对水中除铁的影响
调整家用滤水器中颗粒活性炭床(gac床)的特性将是一种将饮用水中的铁维持在所需水平的技术。实验研究了活性炭床层深度、活性炭颗粒尺寸和孔隙率对除铁性能的影响。分光光度计用于测量水中的铁含量。结果表明,无论GAC颗粒大小如何,除铁能力均随层深的增加而单调增加。还观察到,在任何固定的床层深度下,随着GAC颗粒尺寸的增加,除铁能力急剧下降。最后发现GAC颗粒的孔隙率影响其除铁能力。GAC孔隙度越高,在考虑的孔隙度范围内除铁能力越高。相信本研究的观察结果将有助于在设计家用滤水器时调整gac床的特性,以使铁保持在所需的水平。化工研究通报18(2015)1-5
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