Use of Pyrolysed Almond and Walnut Shells (PAS and PWS) for the Adsorption of Cationic Dye: Reusing Agro-Waste for Sustainable Development

Gül KAYKIOĞLU, Nesli AYDIN
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Abstract

Agro-wastes are recognised as a carbon-rich source, which can be converted into value-added products in sustainable development. In this study, the effect of pH, contact time, initial concentration, and ionic strength were evaluated in Methylene Blue (MB) adsorption by using an activated carbon obtained from pyrolysed almond (PAS) and walnut shells (PWS). The characterisation of PAS and PWS was conducted by SEM-EDX, FT-IR and BET analysis. The removal efficiency of 6 mg/L initial MB concentration improved from 10.6% to 50.42% for PAS, when the adsorbent dose was increased from 0.5 g to 3.5 g in 1 L dye solution. It also improved from 14.8% to 48.7% for PWS, when the adsorbent dose was increased from 0.5 g to 3.5 g. The adsorption fits well with the Freundlich isotherm model and the second-order kinetic model is more favourable. In the adsorption experiments using PWS, 48% removal efficiency was obtained in the absence of NaCl. Depending on the increasing NaCl concentration, the removal efficiencies showed a decrease. 36% removal efficiency was obtained for PWS when 2500 mg/L NaCl was used. In the adsorption experiments using PAS, 40% removal efficiency was obtained in the absence of NaCl. When 500 mg/L NaCl was used, the maximum removal efficiency improved to 48%. However, with the increase in ionic strength, removal efficiencies decreased to approximately 39%. This study revealed that PAS and PWS could be used effectively instead of commercial activated carbon, which also provides an advantageous option from an economic point of view.
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利用热解杏仁和核桃壳(PAS和PWS)吸附阳离子染料:农业废弃物的再利用与可持续发展
农业废弃物被认为是富含碳的来源,可以在可持续发展中转化为增值产品。本研究考察了pH、接触时间、初始浓度和离子强度对亚甲基蓝(MB)吸附性能的影响。通过SEM-EDX, FT-IR和BET分析对PAS和PWS进行了表征。在1 L染料溶液中,当吸附剂用量从0.5 g增加到3.5 g时,6 mg/L初始浓度下PAS对MB的去除率从10.6%提高到50.42%。当吸附剂用量从0.5 g增加到3.5 g时,PWS的吸附率也从14.8%提高到48.7%。吸附过程符合Freundlich等温线模型,二级动力学模型更为有利。在无NaCl的情况下,PWS的去除率可达48%。随着NaCl浓度的增加,去除率呈下降趋势。当NaCl用量为2500 mg/L时,对PWS的去除率为36%。在无NaCl的情况下,PAS的去除率可达40%。当NaCl用量为500 mg/L时,最大去除率提高到48%。然而,随着离子强度的增加,去除效率下降到约39%。该研究表明,PAS和PWS可以有效地替代商业活性炭,从经济角度来看,这也是一种有利的选择。
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