生物炭
吸附
热解
磷酸盐
废水
化学
水溶液
体积热力学
色谱法
核化学
环境工程
有机化学
环境科学
量子力学
物理
作者
Dong Chen,Yue Yin,Yanming Xu,Changqing Liu
标识
DOI:10.1016/j.jwpe.2022.103445
摘要
Magnesium doped spent coffee grounds (Mg-SCG) biochar was fabricated in this research and its adsorption performance was investigated thoroughly in batch and column studies. The effects of time, pH, organic matter, co-existing anions, and water matrices on phosphate removal were explored. The 500 °C pyrolysis temperature (Mg-SCG-500) was proved to be the optimal condition for phosphate adsorption and achieved 111.20 mg/g theoretical maximum adsorption capacity. The adsorption site energy analysis revealed that 500 °C pyrolysis temperature also provided more sites with suitable adsorption energy for phosphate adsorption. The used Mg-SCG-500 could be efficiently desorbed and regenerated using 1 M NaOH and recalcination. Meanwhile, Mg-SCG showed great stability under realistic conditions. In long-term column experiments, 20 cycles of adsorption were conducted with different contact times, total treated volume, and water matrices. The results proved that the Mg-SCG based column could efficiently remove the phosphate from aqueous solutions. This work would extend the potential application of Mg-SCG based column, acting as a promising solution for phosphate removal and recycle from real wastewater.
科研通智能强力驱动
Strongly Powered by AbleSci AI