| [1] | Arana I., Santorum P., Muela A., et al. Chlorination and ozonation of wastewater: Comparative analysis of efficacy through the effect on Escherichia coli membranes. Journal of Applied Microbiology, 1999,86(5):883-888 |
| [2] | Deborde M., Rabouan S., Mazellier P., et al. Oxidation of bisphenol A by ozone in aqueous solution. Water Research, 2008,42(16):4299-4308 |
| [3] | Volk C., Roche P., Joret J. C., et al. Comparison of the effect of ozone, ozone-hydrogen peroxide system and catalytic ozone on the biodegradable organic matter of a fulvic acid solution. Water Research, 1997,31(3):650-656 |
| [4] | Ikehata K., EI-Din M. G. Degradation of recalcitrants in wastewater by ozonation and advances oxidation processes: A review. Ozone Science & Engineering, 2004, 26(4):327-343 |
| [5] | Alvares A. B. C., Diaper C., Parsons S. A. Partial oxidation by ozone to remove recalcitrance from wastewaters: A review. Environmental Technology, 2001,22(4):409-427 |
| [6] | Bai C. P., Xiong X. F., Gong W. Q., et al. Removal of rhodamine B by ozone-based advanced oxidation process. Desalination, 2011,278(1-3):84-90 |
| [7] | Kurniawan T. A., Lo W. H., Chan G. Y. S. Radicals-catalyzed oxidation reactions for degradation of recalcitrant compounds from landfill leachate. Chemical Engineering Journal, 2006,125(1):35-57 |
| [8] | 陈庆榆, 张雪梅. 分析化学. 合肥: 合肥工业大学出版社, 2010.233-233 |
| [9] | 朱虹, 孙杰, 李剑超. 印染废水处理技术(第1版). 北京:中国纺织出版社, 2004.144-151 |
| [10] | Tong S. P., Li W. W., Zhao S. Q., et al. Titanium(IV)-improved H2O2/O3 process for acetic acid degradation under acid conditions. Ozone Science & Engineering, 2011,33(6):441-448 |
| [11] | Alexieva Z., Gerginova M., Zlateva P. Monitoring of aromatic pollutants biodegradation. Biochemical Engineering Journal, 2008,40(2): 233-240 |
| [12] | Mu Y., Yu H. Q., Zheng J. C., et al. Reductive degradation of nitrobenzene in aqueous solution by zero-valent iron. Chemosphere, 2004,54(7):789-794 |
| [13] | Mantha R., Taylor K. E., Biswas N., et al. A continuous system for Fe reduction of nitrobenzene in synthetic wastewater. Environmental Science and Technology, 2001,35(15):3231-3236 |
| [14] | 潘云霞, 郑怀礼, 李丹丹, 等. 超声/Fenton联用技术处理垃圾渗滤液中的有机物. 环境工程学报, 2008,2(4):445-449 Pan Y. X., Zhen H. L., Li D. D., et al. Degradation of organics in landfill leachate by ultrasound/Fenton process. Chinese Journal of Environmental Engineering, 2008,2(4):445-449(in Chinese) |
| [15] | Gogate P. R., Pandit A. B. A review of imperative technologies for wastewater treatment Ⅰ: Oxidation technologies at ambient conditions. Advances in Environmental Research, 2004,8(3-4):501-551 |
| [16] | Safarzadeh-Amiri A. O3/H2O2 treatment of methyl-tert-butyl ether(MTBE) in contaminated waters. Water Research, 2001,35(15):3706-3714 |
| [17] | 赵书琴. Ti(Ⅳ)催化臭氧化降解有机物的效能及动力学特性. 杭州: 浙江工业大学硕士学位论文, 2012 Zhao S. Q. The efficiency of Ti(Ⅳ)-catalyzed ozonation of organic compounds and its kinetics. Hangzhou: Master's Degree Thesis of Zhejiang University of Technology, 2012:45-54(in Chinese) |
| [18] | 国家环境保护局. 水和废水监测分析方法(第3版). 北京: 中国环境科学出版社, 1998.354-356 |
| [19] | Sellers R. M. Spectrophotometric determination of hydrogen peroxide using potassium titanium(Ⅳ) oxalate. Analyst, 1980,105(10):950-954 |
| [20] | 徐寿昌. 有机化学(第2版). 北京: 高等教育出版社, 1993.60-61 |
| [21] | Staechlin J., Hoigné J. Decomposition of ozone in water in the presence of organic solutes acting as promoters and inhibitors of radical chain reactions. Environmental Science and Technology, 1985,19(12):1206-1213 |
| [22] | 童少平, 臧兴杰, 马淳安. 催化臭氧化降解技术中的两个问题, 环境工程学报, 2008,2(1):19-22 Tong S.P., Zang X. J., Ma C. A. Two problems in process of catalytic ozonation technology. Chinese Journal of Environmental Engineering, 2008,2(1):19-22(in Chinese) |