References

  1. Z. Manman, F. Zhanli, W. Junqiang, W. Yongchun, S. Shaoyuan, S. Zhi, C. Hongbin, Research progress of cyanide-contained wastewater treatment in gold hydrometallurgy, Huaxue Gongye Yu Gongcheng (Tianjin, China), 36 (2019).
  2. C. Xing-xiong, Technical analysis on recovery and reuse of gold smelting wastewater, Shijie Youse Jinshu (Beijing, China), 23 (2018).
  3. N. Kuyucak, A. Akcil, Cyanide and removal options from effluents in gold mining and metallurgical processes, Miner. Eng., 50–51 (2013) 13–29.
  4. H. Aihua, Analysis on the research status and development trend of treatment technology for gold smelting cyanidecontaining wastewater, Huangjin Kexue Jishu (Lanzhou, China), 22 (2014) 83–89.
  5. J. Jeong, T. Hidaka, H. Tsuno, T. Oda, Development of biological filter as tertiary treatment for effective nitrogen removal: biological filter for tertiary treatment, Water Res., 40 (2006) 1127–1136.
  6. A. Fujishima, K. Honda, Electrochemical photolysis of water at a semiconductor electrode, Nature, 238 (1972) 37–38.
  7. J.H. Carey, J. Lawrence, H.M. Tosine, Photodechlorination of PCB’s in the presence of titanium dioxide in aqueous suspensions, Bull. Environ. Contam. Toxicol., 16 (1976) 697–701.
  8. P. Zhang, L. Wang, X. Zhang, C. Shao, J. Hu, G. Shao, SnO2-core carbon-shell composite nanotubes with enhanced photocurrent and photocatalytic performance, Appl. Catal., B, 166 (2015) 193–201.
  9. S.Y.W.Y. Wu Xian, Research progress on zinc-based nano photocatalyst in wastewater treatment, Huagong Xinxing Cailiao (Beijing, China), 47 (2019).
  10. J.S.C.X. Zhai Hongju, New progress of synthesis, property and application of ZnO-based complex, Huagong Xinxing Cailiao (Beijing, China), (2016) 13–15.
  11. MoQiuYan, Z. Fanju, Z. Song, W. Jiayin, A review of the principle and application of TiO2 photocatalysis, Kexue Jishu Chuangxin (Haerbin, China), (2018) 79–80.
  12. G. Bao, Study on Photocatalytic Degradation of Oily Wastewater by Titanium Dioxide Nanowire, Tsinghua University, China, 2015.
  13. S.J.Z.C. Zhang Tong, Research progress on photocatalytic degradation of oily wastewater, Shiyou Xuebao, Shiyou Jiagong (Beijing, China), 35 (2019) 219–230.
  14. M.-H. Baek, J.-S. Hong, J.-W. Yoon, J.-K. Suh, Photocatalytic degradation of humic acid by Fe-TiO2 supported on spherical activated carbon with enhanced activity, Int. J. Photoenergy, 2013 (2013) 296821, doi:10.1155/2013/296821.
  15. W. Wang Xin, Xue-jiang, W.Z.J.Z. Wang, Preparation of B-N co-doped TiO2 floating photocatalyst for degradation of diesel oil, Zhongguo Huanjing Kexue (Beijing, China), 36 (2016) 1757–1762.
  16. F. Shijie, X. Mingxia, Z. Yuzhen, Photocatalytic degradation of TiO2, Cailiao Daobao (Chongqin, China), 12 (2001) 32–34.
  17. Y. Saili, W. Jiansheng, Feasibility of removing COD from circulating cooling water by photocatalytic oxidation, Jingshui Jishu (Shanghai, China), (2002) 24–25.
  18. Z. Haidong, L. Xudong, C. He, Removal of ammonia nitrogen by supported TiO2 photocatalysis, Liaoning Huagong (Shenyang, China), 38 (2009) 783–785.
  19. Z.D. Wang, C. Xiuli, Z. Aijuan, Photocatalytic degradation of catalytic activities of CN-in water by TiO2/5A, Guangpu Shiyanshi (Beijing, China), 29 (2012) 3055–3059.