利用微/纳米结构生物氧化锰复合材料高效快速去除电镀废水中的镍离子

Jiaoqing Li, Li Li, Yongxuan Liu, Jin Liu, Lin Li
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摘要

据报道,锰氧化物因其独特的结构特性,对多种重金属离子具有明显的吸附能力。本文开发了一种生物锰氧化物(BMO)复合材料,并将其用于去除含 Ni2+ 的电镀废水中的 Ni 离子。通过扫描/高分辨率透射电子显微镜和 X 射线衍射检测,对 BMO 的形成和微米/纳米级精细微观结构进行了表征。在吸附温度为 50 °C、pH 值为 6 的优化条件下,BMO 复合材料在 20 分钟的快速平衡反应时间内对初始 Ni2+ 浓度为 10 mg L-1 的镍电镀废水的去除率达到 100%,对初始 Ni2+ 浓度为 600 mg L-1 的镍电镀废水的去除能力达到 416.2 mg g-1。伪二阶方程适用于初始 Ni2+ 浓度为 10-50 mg L-1 的低浓度吸附数据。此外,Freundlich 等温线模型很好地拟合了生物吸附平衡数据。傅立叶变换红外光谱分析验证了 BMO 复合材料的去除能力与结构基团密切相关。在五个连续的吸附/解吸循环中,BMO 复合材料表现出较高的 Ni2+ 去除和回收能力,从而显示出其在处理含 Ni2+ 工业废水方面高效、连续的性能潜力。
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Efficient and Rapid Removal of Nickel Ions from Electroplating Wastewater Using Micro-/Nanostructured Biogenic Manganese Oxide Composite
Manganese oxides reportedly exhibit pronounced adsorption capacities for numerous heavy-metal ions owing to their unique structural properties. Herein, a biogenic manganese oxide (BMO) composite was developed and used to remove Ni ions from Ni2+-containing electroplating wastewater. The formation of BMO and the micro-/nanoscale fine microstructure were characterized via scanning/high-resolution transmission electron microscopies and X-ray diffraction assays. Under the optimized conditions, with an adsorption temperature of 50 °C, pH 6, the BMO composite showed a 100% removal efficiency within a rapid equilibrium reaction time of 20 min towards an initial Ni2+ concentration of 10 mg L−1 and a remarkable removal capacity of 416.2 mg g−1 towards an initial Ni2+ concentration of 600 mg L−1 in Ni-electroplating wastewater. The pseudo-second-order equation was applicable to sorption data at low initial Ni2+ concentrations of 10–50 mg L−1 over the time course. Moreover, Freundlich isotherm models fitted the biosorption equilibrium data well. Fourier-transform infrared spectroscopic analysis validated that the removal capacity of the BMO composite was closely associated with structural groups. In five continuous cycles of adsorption/desorption, the BMO composite exhibited high Ni2+ removal and recovery capacities, thereby showing an efficient and continuous performance potential in treating Ni2+-containing industrial wastewater.
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