Premchand Premchand , Shannon Mead , Debora Fino , Francesca Demichelis , Samir Bensaid , David Chiaramonti , Elsa Antunes
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引用次数: 0
摘要
在这项研究中,利用 Pyro/GC-MS 和缓慢热解实验,在较宽的温度范围(400-700 °C)内对烟蒂(CB)废料进行了热解。使用 TGA、元素分析、表面积和孔隙率分析、SEM-EDS、XRD 和 FT-IR 对原料和焦炭产品进行了广泛研究,随后测试了它们从水溶液中去除 Ni (II) 和 Cu (II) 的能力。Pyro/GC-MS 分析表明,其中存在多种有用的化合物,包括酸、酯和碳氢化合物。炭产量从 26.6% 到 20.1%不等,碳含量从 65.3% 到 60.8%不等。在中温(500-600 °C)下生产的炭具有高多孔性,比表面积为 272.9-270.8 m2/g。重金属吸附研究表明,CB 500 °C 的吸附容量最高,为 13.8 mg/g,镍去除率为 53.4%;CB 600 °C 的吸附容量最高,为 23.4 mg/g,铜去除率为 94.7%。
Sustainable valorisation of cigarette butts waste through pyrolysis: An insight into the pyrolytic products and subsequent aqueous heavy metals removal by pyrolytic char
In this study, cigarette butts (CB) waste was pyrolyzed over a wide temperature range (400–700 °C) using Pyro/GC–MS and slow pyrolysis experiments. The feedstock and char products were extensively investigated using TGA, elemental analysis, surface area and porosity analysis, SEM-EDS, XRD, and FT-IR, and subsequently tested for their ability to remove Ni (II) and Cu (II) from aqueous solutions. The Pyro/GC–MS analysis revealed the presence of several useful compounds including acids, esters and hydrocarbons. Char yields ranged from 26.6 to 20.1 wt%, and carbon contents varied from 65.3 to 60.8 wt%. The chars produced at medium temperatures (500-600 °C) were highly porous, with a specific surface area of 272.9–270.8 m2/g. The heavy metal adsorption studies revealed that CB 500 °C had the highest adsorption capacity of 13.8 mg/g with 53.4 % nickel removal, while CB 600 °C had the highest adsorption capacity of 23.4 mg/g with 94.7 % copper removal.
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