Applicability of Natural Coffee Husk as a Mesoporous Adsorbent for Removal of Chromium (VI) from Aquatic Environments

Basma G. Alhogbi
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Abstract

Chromium (Cr) is an essential element in plant and animal metabolism, but high accumulation of this metal ion in soil and water from industrial sources has caused concern. This study investigated the removal of Cr (VI), the most mobile and toxic species, using coffee husk biosorption from aqueous solutions. Coffee husk was characterized using Brunauer Emmett Teller (BET) and Fourier Transform Infrared (FTIR) analysis. The effects of pH, adsorbent dosage, contact time, effect of KNO3 concentration, and temperature during the adsorption of Cr (VI) were studied. Infrared spectral studies revealed the presence of functional groups, such as hydroxyl and carboxyl groups, which facilitated the biosorption of Cr (VI). The maximum adsorption capacity reached 87 % at pH~2. Moreover, maximum adsorption capacity of Cr (VI) onto coffee husk 0.660 mg g-1 was recorded after 60 min of using 40 mg L-1 of Cr (VI) with no addition of KNO3 at 40 0C. The kinetic data followed the pseudo-second-order model with regression coefficients R2 = 0.99. The equilibrium data for the adsorption of Cr (VI) onto coffee husk biosorption were fitted into Langmuir and Temkin adsorption isotherm models with R2 = 0.98 corresponding to each model. Thermodynamic studies showed that the coffee husk-Cr (VI) adsorption system was spontaneous and endothermic because negative and positive values were obtained for ΔG° and Δ°H, respectively. The coffee husk was applicable to remove Cr (VI) after three recycling and using different environmental water samples. In conclusion, coffee husk can be used effectively as an adsorption system for Cr (VI) at different polluted sites.
天然咖啡壳作为介孔吸附剂去除水中六价铬的适用性
铬(Cr)是植物和动物代谢的必需元素,但这种金属离子在土壤和工业水源中的大量积累引起了人们的关注。研究了用咖啡壳生物吸附法去除水中流动性最强、毒性最强的Cr (VI)。采用布鲁诺尔-埃米特-泰勒(BET)和傅里叶变换红外(FTIR)对咖啡皮进行了表征。考察了pH、吸附剂用量、接触时间、KNO3浓度和温度对吸附Cr (VI)的影响。红外光谱研究表明,在pH~2的条件下,其羟基和羧基等官能团的存在有利于Cr (VI)的生物吸附,其最大吸附量达到87%。40 mg L-1的Cr (VI)在不添加KNO3的情况下,在40℃下使用60 min后,咖啡壳对Cr (VI)的最大吸附量为0.660 mg g-1。动力学数据符合拟二阶模型,回归系数R2 = 0.99。咖啡壳吸附Cr (VI)的平衡数据拟合为Langmuir和Temkin吸附等温线模型,R2 = 0.98。热力学研究表明,咖啡壳- cr (VI)吸附系统是自发的吸热吸附系统,因为δ δ和δ δ均为负值和正值。和& δ;&度;H。咖啡壳经过三次循环利用,使用不同环境水样,适用于去除Cr (VI)。综上所述,咖啡壳可以有效地作为Cr (VI)在不同污染场所的吸附体系。
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