Jae-In Lee, Dongho Choi, Seungwon Kim, Seong-Jik Park, Eilhann E Kwon
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引用次数: 0
摘要
金属掺杂生物炭因其对重金属的吸附能力而受到广泛关注。在本研究中,铁掺杂生物炭(Fe-BC)通过废蘑菇底物(WMS)与赤泥(RM)的热解制备。用合成的Fe-BC作为吸附剂去除铅。在WMS的热解过程中,引入RM促进了合成气的生成,这一观察结果归因于RM中Fe种的催化作用。在500、600、700℃条件下制备fe - bc,考察其对Pb的吸附性能。在制备的Fe-BC中,在700℃制备的Fe-BC (Fe-BC-700)对Pb的吸附性能最高(243.07 mg g-1)。这种性能主要源于Fe- bc -700中存在零价铁和表面官能团(-OH)。Fe-BC-700对Pb的去除主要是表面沉淀和络合作用。因此,本研究强调了利用RM和WMS等废物生产有效的工业废水除铅吸附剂的前景。
Fabrication of Fe-doped biochar for Pb adsorption through pyrolysis of agricultural waste with red mud.
Synthesis of metal-doped biochar have gained prominence due to their adsorption capability for heavy metal(loid)s. In this study, iron-doped biochar (Fe-BC) was fabricated through pyrolysis of waste mushroom substrate (WMS) with red mud (RM). The synthesised Fe-BC was employed as an adsorbent for Pb removal. During pyrolysis of WMS, introducing RM contributed to the enhanced syngas formation, this observation was attributed to the catalytic function of Fe species in RM. The Fe-BCs were made at three different temperatures (500, 600, and 700 °C), and their adsorption capabilities for Pb were evaluated. Among the prepared Fe-BCs, Fe-BC fabricated at 700 °C (Fe-BC-700) demonstrated the highest Pb adsorption performance (243.07 mg g-1). This performance primarily stemmed from the presence of zero-valent Fe and surface functional groups (-OH) in Fe-BC-700. Pb removal by Fe-BC-700 was dominated by surface precipitation and complexation mechanisms. Therefore, this study highlights a promising approach for producing an effective adsorbent for Pb removal from industrial wastewater by utilizing wastes such as RM and WMS.
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