生物炭
吸附
化学
热解炭
弗伦德利希方程
枫木
水溶液
热解
方解石
核化学
表面改性
有机化学
化学工程
矿物学
植物
物理化学
工程类
生物
作者
Ji Eun Kim,Shashi Kant Bhatia,Hak Jin Song,Eun-Jin Yoo,Hyeon Jin Jeon,Jae-Yoon Yoon,Yunjeong Yang,Ranjit Gurav,Yung‐Hun Yang,Hyung Joo Kim,Yong‐Keun Choi
标识
DOI:10.1016/j.biortech.2020.123092
摘要
The present study evaluates the physicochemical properties of maple leaf-derived biochars (M-BCs) produced at different pyrolytic temperatures (i.e., 350, 550, and 750 °C) and their adsorptive properties for tetracycline onto M-BCs. The increase in pyrolysis temperature to produce M-BCs led to a significant increase in the biochar’s hydrophobicity, surface area, and calcite (CaCO3) crystallization. The M-BC750 produced without functionalization or activation possessed a high calcite composition and a hydrophobic nature with lower O/C and H/C, hydroxyl groups (–OH) on the surface, and functional groups (i.e., O-containing) as H-bond acceptors. Among M-BCs, the M-BC750 present a highest TC adsorption capacity owing to possible mechanisms such as metal complexation, H-bonding, and hydrophobic interactions. The isotherm and kinetic models for TC adsorption followed the Freundlich models and pseudo-second-order models, respectively. M-BCs produced from the waste fallen maple leaves could be applied as low-cost environmental adsorbents for TC removal.
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