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图 1 实验装置图
Figure 1. Experimental device diagram
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图 2 CuOx/D851的扫描电镜图
Figure 2. SEM images of CuOx/D851
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图 3 CuOx/D851的X射线能谱表征
Figure 3. EDS spectra of CuOx/D851
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图 4 CuOx/D851的傅里叶红外光谱图
Figure 4. FT-IR spectra of CuOx/D851
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图 5 不同体系下双酚A的去除效果
Figure 5. Removal effects of bisphenol A in different systems
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图 6 臭氧投加量对双酚A去除率的影响
Figure 6. Effect of ozone dosage on the removal rate of bisphenol A
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图 7 催化剂投加量对双酚A去除率的影响
Figure 7. Effect of catalyst dosage on the removal rate of bisphenol A
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图 8 进样流量对双酚A去除率的影响
Figure 8. Effect of injection flow rate on bisphenol A removal rate
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图 9 双酚A初始浓度对双酚A去除率的影响
Figure 9. Effect of initial concentration of BPA on removal rate of bisphenol A
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图 10 初始pH对双酚A去除率的影响
Figure 10. Effect of initial pH on removal rate of bisphenol A
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图 11 叔丁醇对双酚A去除率的影响
Figure 11. Effect of tert-butanol on the removal rate of bisphenol A
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图 12 CuOx/D851重复使用率及催化氧化后双酚A溶液中Cu2+浓度
Figure 12. Reusability of CuOx/D851 and Cu2+ concentration in BPA solution after catalytic oxidation
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