References

1. N.B.o. Statistics, China Statistical Yearbook of 2018, National Bureau of Statistics, 2018.
2. C. Qi, J. Huang, B. Wang, S. Deng, Y. Wang, G. Yu, Contaminants of emerging concern in landfill leachate in China: a review, Emerg. Contaminants, 4 (2018) 1–10.
3. L. Miao, G. Yang, T. Tao, Y. Peng, Recent advances in nitrogen removal from landfill leachate using biological treatments – a review, J. Environ. Manage., 235 (2019) 178–185.
4. W. Chen, A. Zhang, Z. Gu, Q. Li, Enhanced degradation of refractory organics in concentrated landfill leachate by Fe⁰/H₂O₂ coupled with microwave irradiation, Chem. Eng. J., 354 (2018) 680–691.
5. A.M. Costa, R.G.d.S.M. Alfaia, J.C. Campos, Landfill leachate treatment in Brazil – an overview, J. Environ. Manage., 232 (2019) 110–116.
6. R. Cossu, H.-J. Ehrig, A. Muntoni, Chapter 10.4: Physical–Chemical Leachate Treatment, R. Cossu, R. Stegmann, Eds., Solid Waste Landfilling, Elsevier, London, UK, 2018, pp. 575–632.
7. Z. Youcai, Chapter 2: Physical and Chemical Treatment Processes for Leachate, Z. Youcai, Ed., Pollution Control Technology for Leachate from Municipal Solid Waste, Elsevier, 2018, pp. 31–183. Available at: https://doi.org/10.1016/B978-0-12-815813-5.00002-4
8. M. El-Fadel, F. Sleem, J. Hashisho, P.E. Saikaly, I. Alameddine, S. Ghanimeh, Impact of SRT on the performance of MBRs for the treatment of high strength landfill leachate, Waste Manage., 73 (2018) 165–180.
9. P. Ghosh, I.S. Thakur, A. Kaushik, Bioassays for toxicological risk assessment of landfill leachate: a review, Ecotoxicol. Environ. Saf., 141 (2017) 259–270.
10. M. Saleem, A. Spagni, L. Alibardi, A. Bertucco, M.C. Lavagnolo, Assessment of dynamic membrane filtration for biological treatment of old landfill leachate, J. Environ. Manage., 213 (2018) 27–35.
11. A. Sil, S. Kumar, Chapter 17: Landfill Leachate Treatment, J.W.C. Wong, R.D. Tyagi, A. Pandey, Eds., Current Developments in Biotechnology and Bioengineering, Solid Waste Management, 2017, pp. 391–406. Available at: https://doi.org/10.1016/B978- 0-444-63664-5.00017-4
12. Z. Han, D. Zeng, Z. Mou, G. Shi, Y. Zhang, Z. Lou, A novel spatiotemporally anaerobic/semi-aerobic bioreactor for domestic solid waste treatment in rural areas, Waste Manage., 86 (2019) 97–105.
13. W. Li, Y. Sun, R. Bian, H. Wang, D. Zhang, N₂O emissions from an intermittently aerated semi-aerobic aged refuse bioreactor: combined effect of COD and NH₄⁺–N in influent leachate, Waste Manage., 69 (2017) 242–249.
14. W. Chen, A. Zhang, G. Jiang, Q. Li, Transformation and degradation mechanism of landfill leachates in a combined process of SAARB and ozonation, Waste Manage., 85 (2019) 283–294.
15. Z.-Y. Han, D. Liu, Q.-B. Li, G.-Z. Li, Z.-Y. Yin, X. Chen, J.-N. Chen, A novel technique of semi-aerobic aged refuse biofilter for leachate treatment, Waste Manage., 31 (2011) 1827–1832.
16. Z.-Y. Han, D. Liu, Q.-B. Li, A removal mechanism for organics and nitrogen in treating leachate using a semi-aerobic aged refuse biofilter, J. Environ. Manage., 114 (2013) 336–342.
17. Y. Sun, X. Sun, Y. Zhao, Comparison of semi-aerobic and anaerobic degradation of refuse with recirculation after leachate treatment by aged refuse bioreactor, Waste Manage., 31 (2011) 1202–1209.
18. W. Chen, Z. Gu, P. Wen, Q. Li, Degradation of refractory organic contaminants in membrane concentrates from landfill leachate by a combined coagulation-ozonation process, Chemosphere, 217 (2019) 411–422.
19. Z. Gu, W. Chen, Q. Li, A. Zhang, Kinetics study of dinitrodiazophenol industrial wastewater treatment by a microwave-coupled ferrous-activated persulfate process, Chemosphere, 215 (2019) 82–91.
20. F. Ji, H. Yin, H. Zhang, Y. Zhang, B. Lai, Treatment of military primary explosives wastewater containing lead styphnate (LS) and lead azide (LA) by mFe⁰-PS-O₃ process, J. Cleaner Prod., 188 (2018) 860–870.
21. J. Zhan, Z. Li, G. Yu, X. Pan, J. Wang, W. Zhu, X. Han, Y. Wang, Enhanced treatment of pharmaceutical wastewater by combining three-dimensional electrochemical process with ozonation to in situ regenerate granular activated carbon particle electrodes, Sep. Purif. Technol., 208 (2019) 12–18.
22. W. Yao, S.W. Ur Rehman, H. Wang, H. Yang, G. Yu, Y. Wang, Pilotscale evaluation of micropollutant abatements by conventional ozonation, UV/O₃, and an electro-peroxone process, Water Res., 138 (2018) 106–117.
23. X. Min, X. Luo, F. Deng, P. Shao, X. Wu, D.D. Dionysiou, Combination of multi-oxidation process and electrolysis for pretreatment of PCB industry wastewater and recovery of highly-purified copper, Chem. Eng. J., 354 (2018) 228–236.
24. S. Wacławek, H.V. Lutze, K. Grübel, V.V.T. Padil, M. Černík, D.D. Dionysiou, Chemistry of persulfates in water and wastewater treatment: a review, Chem. Eng. J., 330 (2017) 44–62.
25. C. von Sonntag, U. von Gunten, Chemistry of Ozone in Water and Wastewater Treatment: From Basic Principles to Applications, IWA Publishing, 2012.
26. U. von Gunten, Ozonation of drinking water: part I. Oxidation kinetics and product formation, Water Res., 37 (2003) 1443–1467.
27. L. Bilińska, K. Blus, M. Gmurek, S. Ledakowicz, Coupling of electrocoagulation and ozone treatment for textile wastewater reuse, Chem. Eng. J., 358 (2019) 992–1001.
28. H. Yu, F. Qu, X. Zhang, S. Shao, H. Rong, H. Liang, L. Bai, J. Ma, Development of correlation spectroscopy (COS) method for analyzing fluorescence excitation emission matrix (EEM): a case study of effluent organic matter (EfOM) ozonation, Chemosphere, 228 (2019) 35–43.
29. H. Wang, Y. Wang, Z. Lou, N. Zhu, H. Yuan, The degradation processes of refractory substances in nanofiltration concentrated leachate using micro-ozonation, Waste Manage., 69 (2017) 274–280.
30. N. Amaral-Silva, R.C. Martins, S. Castro-Silva, R.M. Quinta-Ferreira, Ozonation and perozonation on the biodegradability improvement of a landfill leachate, J. Environ. Chem. Eng., 4 (2016) 527–533.
31. K.-H. Kang, H.S. Shin, H. Park, Characterization of humic substances present in landfill leachates with different landfill ages and its implications, Water Res., 36 (2002) 4023–4032.
32. G.V. Korshin, M.M. Benjamin, R.S. Sletten, Adsorption of natural organic matter (NOM) on iron oxide: effects on NOM composition and formation of organo-halide compounds during chlorination, Water Res., 31 (1997) 1643–1650.