二氧化钛改性油页岩渣对水溶液中亚甲基蓝和六价铬的吸附
Adsorption of methylene blue and Cr(Ⅵ) from aqueous solution by TiO2 modified oil shale ash
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摘要: 以油页岩渣及其二氧化钛改性材料为吸附剂,探究它们去除水溶液中亚甲基蓝和六价铬的能力.通过实验,控制溶液的pH值、温度、初始浓度和接触时间,观察吸附效果变化特征,研究其动力学和热力学性能.实验表明,改性油页岩渣吸附亚甲基蓝和六价铬的吸附率是未改性的2-3倍,且改性油页岩渣对亚甲基蓝的吸附率可达97%,对六价铬的吸附率不到25%.吸附亚甲基蓝时,pH值越大,吸附效果越好;而吸附六价铬时,最适pH值为4.改性油页岩渣吸附亚甲基蓝实验符合准二阶动力学方程,计算得反应活化能为13.29 kJ·mol-1,表明此过程主要是物理吸附.在热力学方面,由范特霍夫方程计算得ΔGH>0,表明此过程自发吸热,可见此过程还伴有化学吸附.Langmuir和Freundlich等温模型拟合结果表明,Langmuir模型数据拟合甚佳,R2=0.9999,说明改性油页岩渣吸附亚甲基蓝是单分子层吸附.二氧化钛改性油页岩渣经7次回收利用后,对亚甲基蓝的吸附效果仅减少约1.5%.Abstract: Oil shale ash and its TiO2 modified material were used as adsorbents to explore their abilities of removing methylene blue and Cr(Ⅵ) in solutions. In these experiments, by varying the pH value of the solution, temperature, initial concentration and contact time, the characters of the adsorption were observed and the kinetic and thermodynamic properties were studied. The experiments showed that the adsorption capacity of the modified oil shale ash was twice to three times as much as that of the untreated one. The adsorption rate of methylene blue on the modified oil shale ash was up to 97%, while the adsorption of Cr(Ⅵ) was less than 25%. For the adsorption of methylene blue, the higher the pH value, the larger the adsorption capacity. And for the adsorption of Cr(Ⅵ), the optimal pH value was 4. The adsorption of methylene blue on the modified oil shale ash fitted the Pseudo-second-order dynamic equations. The calculated activation energy was 13.29 kJ·mol-1, indicating that this process was physical adsorption. The calculation according to the Van't Hoff equation showed that ΔGH>0, indicating that this process was spontaneous and endothermic, and it also suggests that this process involved chemical adsorption. The experimental data was fitted with the Langmuir and Freundlich isotherm models. The results show that the Langmuir model fitted the model data well, R2=0.9999, indicating that the adsorption of methylene blue on modified oil shale ash was monolayer adsorption. After recycling 7 times, the adsorption capacity of methylene blue on the modified oil shale ash decreased by only about 1.5%.
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Key words:
- oil shale ash /
- modified /
- adsorption /
- methylene blue /
- Cr(Ⅵ)
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[1] 扈英彬, 王艳梅, 崔德荣, 等. 我国油页岩资源潜力及其利用的可行性[J]. 吉林地质, 2008, 2(27): 82-84 [2] 刘招君, 柳蓉. 中国油页岩特征及开发利用前景分析[J]. 地学前缘, 2005, 12(3): 315-323 [3] 孔德玉, 张俊芝, 倪彤元, 等. 碱激发凝胶材料及混凝土研究进展[J]. 硅酸盐学报, 2009, 37(1): 151-159 [4] [5] Yang Z. Kinetics and mechanism of the adsorption of methylene blue onto ACFs[J]. China Univ Mining & Technol, 2008, 18(3): 437-440 [6] 薛方亮, 高彦林, 张雁秋. 改性粉煤灰降解亚甲基蓝溶液的实验研究[J]. 环境科学与管理, 2006, 31(2): 50-53 [7] 贾娜, 王海滨, 霍冀川. 负载型 TiO2/海泡石光催化氧化亚甲基蓝的效果[J]. 矿业研究与开发, 2006, 26(2): 58-61 [8] 传秀云, INAGAKI Michio. TiO2/浮石复合材料降解有机污染物亚甲基蓝的实验研究[J]. 矿物岩石地球化学通报, 2005, 21(2): 110-113 [9] Di N F, Lancia A, Molino A. Removal of chromium ions form aqueous solutions by adsorption on activated carbon and char[J]. Journal of Hazardous Materials, 2007, 145(3): 381-390 [10] Aksu Z. Determination of the equilibrium, kinetic and thermodynamic parameters of the batch biosorption of nickel(Ⅱ) ions onto Chlorella vulgaris[J]. Process Biochem, 2002, 38: 89-99 [11] Oymael S. Suitability of oil shale ash as a constituent of cement[J]. Oil Shale, 2007, 24: 45-58 [12] Ho Y S, McKay G. Pseudo-second order model for sorption processes[J]. Process Biochem, 1999, 34: 451-465 [13] Pollard S J T, Sollars C J, Perry R. A low cost adsorbent from spent bleahing earth in the selection of an activation procedure[J]. Chem Tech Biotechnol, 1991, 50: 265-275 [14] Boonamnuayvitaya V, Chaiya C, Tanthapanichakoon W, et al. Removal of heavy metals by adsorbent prepared from pyrolyzed coffee residues and clay[J]. Sep Purif Technol, 2004, 35: 11-22 -
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