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图 1 不同浓度的KMnO4浸渍液对活性炭的甲硫醇吸附性能的影响
Figure 1. Effect of KMnO4 impregnation solutions with different concentrations on the adsorption performance of methyl mercaptan on modified activated carbon
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图 2 不同时间的KMnO4浸渍对活性炭的甲硫醇吸附性能的影响
Figure 2. Effect of different time KMnO4 impregnation on the adsorption performance of methyl mercaptan on modified activated carbon
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图 3 不同温度的KMnO4浸渍对活性炭的甲硫醇吸附性能的影响
Figure 3. Effect of KMnO4 impregnation with different temperatures on the adsorption performance of methyl mercaptan on modified activated carbon
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图 4 不同浸渍比的KMnO4浸渍对活性炭的甲硫醇吸附性能的影响
Figure 4. Effect of KMnO4 impregnation with different ratios on the adsorption performance of methyl mercaptan on modified activated carbon
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图 5 活性炭改性前后的表面形貌和元素分布
Figure 5. Surface morphology and element distribution of activated carbons before and after modification
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图 6 活性炭改性前后的N2吸附-脱附曲线和微孔孔径分布
Figure 6. N2 adsorption-desorption curves and micropore size distribution of activated carbons before and after modification
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图 7 改性活性炭吸附甲硫醇的动力学模型拟合图
Figure 7. Fitting curves with adsorption kinetics models of methyl mercaptan by modified activated carbon
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图 8 改性活性炭吸附甲硫醇的等温吸附模型拟合图
Figure 8. Fitting curves with isothermal adsorption models of methyl mercaptan by modified activated carbon
Figure
8 ,Table
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