生物炭
吸附
热解
水溶液
化学
四环素
朗缪尔
核化学
疏水效应
化学工程
朗缪尔吸附模型
有机化学
抗生素
生物化学
工程类
作者
Yong‐Keun Choi,Tae‐Rim Choi,Ranjit Gurav,Shashi Kant Bhatia,Ye‐Lim Park,Hyung Joo Kim,Eunsung Kan,Yung‐Hun Yang
标识
DOI:10.1016/j.scitotenv.2019.136282
摘要
We evaluated the production of Spirulina sp. (microalgae)-derived biochars (SPAL-BCs) at different pyrolysis temperatures for the removal of an emerging water contaminant, tetracycline (TC). Physicochemical properties of SPAL-BCs were characterized and related with their capacity to adsorb TC. Increasing pyrolysis temperatures led to higher aromaticity, higher hydrophobicity, and higher specific surface area. In particular, SPAL-BC750 possessed the highest hydrophobicity, various strong crystallizations (i.e., calcite, hydroxyapatite, and rhenanite) and functional groups (i.e., CH2, CN, CO, and CO32-), which may be associated with high TC adsorption. SPAL-BC750 also presented the highest TC adsorption capacity (132.8 mg TC/g biochar) via batch experimentation because of hydrophobic, π-π interactions, functional groups, and metal complexation. The best fitting isotherm and kinetic models of TC adsorption by SPAL-BC750 were the Langmuir and pseudo-first order models, respectively. SPAL-BCs obtained as a by-product of pyrolysis may be an economical and potentially valuable adsorbent for aqueous antibiotic removal.
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