Pietro Serraglio Figueiredo, Sérgio Luiz Jahn, Tito Crissien, Luis Felipe Oliveira Silva, Guilherme Luiz Dotto, Edson Luiz Foletto
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引用次数: 0
摘要
以固体氢氧化钠为非晶剂,采用一种新颖、快速、简单的微波辅助碱性熔融法,在1000 W下加热3 min,对粉煤灰进行非晶化。采用微波非晶灰分(MWAA)作为吸附剂,对水介质中的结晶紫(CV)染料进行了脱除。制备了MWAA并对其进行了表征,采用中心复合旋转设计(CCRD)研究了最佳吸附条件,考察了pH和吸附剂用量对MWAA吸附性能的影响。与原始样品相比,观察到非晶态材料的孔隙特性有显着改善,包括表面积(从1.23到66.28 m2 g - 1)和孔体积(从0.0045到0.1934 cm3 g - 1)的增加。最佳吸附条件为pH为9,吸附剂用量为0.7 g L⁻1。其最大吸附量为142 mg g毒血症。CV吸附是自发的、放热的、有利的。经4次循环利用后,非晶粉煤灰表现出良好的性能。因此,本工作提出的非晶化路线产生了一种很有前途的底煤粉煤灰吸附剂用于废水处理。
Coal ash amorphized via microwave route as a potential adsorbent towards pollutant removal in water
Coal ash was amorphized using a novel, rapid, and simple method, microwave-assisted alkaline fusion, at 1000 W for 3 min, employing solid NaOH as the amorphizing agent. The microwave-amorphized ash (MWAA) was used as an adsorbent to remove crystal violet (CV) dye from an aqueous medium. MWAA was prepared and characterized, and the optimal adsorption conditions were investigated using a central composite rotatable design (CCRD), evaluating the effects of pH and adsorbent dosage. A significant improvement in the pore properties of the amorphized material was observed compared to the raw sample, including an increase in surface area (from 1.23 to 66.28 m2 g⁻1) and pore volume (from 0.0045 to 0.1934 cm3 g⁻1). The optimal adsorption conditions were pH 9 and an adsorbent dosage of 0.7 g L⁻1. The maximum adsorption capacity was 142 mg g⁻1. CV adsorption was found to be spontaneous, exothermic, and favorable. The amorphized coal ash showed good performance after four cycles of reuse. Thus, the amorphization route proposed in this work produces a promising adsorbent from bottom coal ash for wastewater treatment.
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