[1] 赵雪,何瑾馨,展义臻.印染废水处理技术的研究进展.化学工业与技术,2009,30(2):38-43 Zhao Xue, He Jinxin, Zhan Yizhen. Research process of the dyeing wastewater treatment technologies. Journal of Chemical Industry and Engineering,2009, 30(2):38-43(in Chinese)
[2] 杜波,陈晓燕.光化学氧化技术研究进展.内蒙古环境科学,2007,19(2): 52-54 Du Bo, Chen Xiaoyan. Research on photochemical catalytic oxidation technology. Inner Mongolian Environmental Sciences,2007, 19(2):52-54(in Chinese)
[3] Kansal S.K., Hassan Ali A., Kapoor S. Photocatalytic decolorization of biebrich scarlet dye in aqueous phase using different nanophotocatalysts. Desalination,2010, 259(1):147-155
[4] Liu Y.M., Lü H., Li S.Q. Photocatalytic degradation of Reactive Brilliant Blue KN-R by TiO2/UV process. Desalination,2010, 258(1-3):48-53
[5] Tariq M., Faisal M., Saquib M., et al. Heterogeneous photocatalytic degradation of an anthraquinone and a triphenylmethane dye derivative in aqueous suspensions of semiconductor. Dyes and Pigments,2008, 76(2):358-365
[6] Vinu R., Akki S.U., Madras G. Investigation of dye functional group on the photocatalytic degradation of dyes by nano-TiO2. Journal of Hazardous Materials,2010, 176(1):765-773
[7] Hong J., Sun C., Yang S., et al. Photocatalytic degradation of methylene blue in TiO2 aqueous suspensions using microwave powered electrodeless discharge lamps. Journal of Hazardous Materials B,2006,133(1):162-166
[8] Horikoshi S.,Hidaka H.,Serpone N. Environmental remediation by an integrated microwave/UV-illumination technique 3.A microwave-powered plasma light source and photoreactor to degrade pollutants in aqueous dispersions of TiO2 illuminated by the emitted UV/visible radiation.Environmental Science & Technology,2008,36(23):5229-5237
[9] Ju Y.M., Fang J.D., Liu X.W., et al. Photodegradation of crystal violet in TiO2 suspensions using UV-vis irradiation from two microwave-powered electrodeless discharge lamps (EDL-2):Products, mechanism and feasibility. Journal of Hazardrous Material, 2011, 185(2-3):1489-1498
[10] Clrkva V., Vladimir L., Relich S., et al. Microwave photochemistry IV: Preparation of the electrodeless discharge lamps for photochemical applications. Journal of Photochemistry and Photobiology: Chemistry,2006, 179(1):229-233
[11] 吴学深,夏东升,陆晓华,等.光催化氧化水处理技术中光源的研究进展.化工环保,2006,26(5):390-394 Wu Xueshen, Xia Dongsheng, Liu Xiaohua, et al. Research advances in light sources in treatment of wastewater by photocatalytic oxidation process. Environmental Protection of Chemical Industry,2006, 26(5):390-394(in Chinese)
[12] Horihoshi S., Hidaka H.,Serpone N. Environmental remediation by an integrated microwave/UV illumination technique VI. A simple modified domestic microwave oven integrating an electrodeless UV-Vis lamp to photodegrade environmental pollutants in aqueous media. Journal of Photochemistry and Photobiology A Chemistry,2004, 161(2):221-225
[13] Horikoshi S., Hidaka H.,Serpone N. Environmental remediation by an integrated microwave/UV illumination Technique. II. Characteristics of a novel UV-VIS-microwave integrated irradiation device in photodegradation processes. Journal of Photochemistry and Photobiology A: Chemistry,2008, 153(1-3):185-189
[14] Zhang X.W., Wang Y. Z., Li G. T., et al.Effect of operating parameters on microwave assisted photocatalytic degradation of azo dye X-3B with grain TiO2 catalyst. Journal of Molecular Catalysis A Chemical,2005, 237(1):199-205
[15] 朱秀华,史福有,黄成琛,等.二氧化钛光催化降解活性红24模拟染料废水.大连交通大学学报,2013,34(2):87-92 Zhu Xiuhua, Shi Fuyou, Huang Chengshen, et al. Photocatalytic degradation of C.I. Reactive Red 24 solution with titanium dioxide. Jouranl of Dalian Jiaotong University, 2013,34(2):87-92(in Chinese)
[16] Zhang X. W., Li G. T.,Wang Y.Z.,et al. Microwave assisted photocatalytic degradation of high concentration azo dye Reactive Brilliant Red X-3B microwave electrodeless lamp as light source. Dye and Pigment,2007, 74(3): 536-544
[17] 周团团,王思达,郑利兵,等.微波辅助光催化降解高浓度活性黑.环境工程学报,2013,7(8):2861-2866 Zhou Tuantuan, Wang Sida, Zheng Libing, et al. Microwave assisted photocatalysis degradation of high concentration active black. Chinese Journal of Environmental Engineering, 2013,7(8):2861-2866(in Chinese)
[18] 董秀芳,李裕,留有智,等.浮液中TiO2微粒分散性研究.化工科技,2004,12(1): 12-14 Dong Xiufang,Li Yu,Liu Youzhi,et al. Study on dispersion of TiO2 powders in suspension. Science and Technology in Chemical Industry,2004, 12(1):12-14(in Chinese)