1. M. Xiao, H.L. Ma, M. Sun, X.Y. Yin, Q.M. Feng, H.B. Song, H.J. Gai, Characterization of cometabolic degradation of p-cresol with phenol as growth substrate by Chlorella vulgaris, Bioresour. Technol., 281 (2019) 296–302.
  2. Y.J. Li, S. Tabassum, Z.J. Zhang, An advanced anaerobic biofilter with effluent recirculation for phenol removal and methane production in treatment of coal gasification wastewater, J. Environ. Sci., 47 (2016) 23–33.
  3. X.F. Gui, W.C. Xu, H.B. Cao, P. Ning, Y.X. Zhang, Y.P. Li, Y.X. Sheng, A novel phenol and ammonia recovery process for coal gasification wastewater altering the bacterial community and increasing pollutants removal in anaerobic/anoxic/aerobic system, Sci. Total Environ., 661 (2019) 203–211.
  4. Q.H. Ji, S. Tabassum, S. Hena, C.G. Silva, G.X. Yu, Z.J. Zhang, A review on the coal gasification wastewater treatment technologies: past, present and future outlook, J. Cleaner Prod., 126 (2016) 38–55.
  5. P.C. Singer, F.K. Pfaender, J. Chinchilli, A.F. Maciorowski, R. Goodman, Assessment of Coal Conversion Wastewaters: Characterization and Preliminary Biotreatability, United States Environmental Protection Agency, Washington, DC, 1978.
  6. H.J. Gai, H.B. Song, M. Xiao, Y.R. Feng, Y.M. Wu, H. Zhou, B.H. Chen, Conceptual design of a modified phenol and ammonia recovery process for the treatment of coal gasification wastewater, Chem. Eng. J., 304 (2016) 621–628.
  7. H. Sun, J. Yao, D. Li, Q. Li, B. Liu, S. Liu, H. Cong, S. van Agtmaal, C.H. Feng, Removal of phenols from coal gasification wastewater through polypropylene hollow fiber supported liquid membrane, Chem. Eng. Res. Des., 123 (2017) 277–283.
  8. J.J. Qiao, S. Luo, P.Z. Yang, W.Z. Jiao, Y.Z. Liu, Degradation of Nitrobenzene-containing wastewater by ozone/persulfate oxidation process in a rotating packed bed, J. Taiwan Inst. Chem. Eng., 99 (2019) 1–8.
  9. Y.H. Han, H. Li, M.L. Liu, Y.M. Sang, C.Z. Liang, J.Q. Chen, Purification treatment of dyes wastewater with a novel micro-electrolysis reactor, Sep. Purif. Technol., 170 (2016) 241–247.
  10. C. Zhang, M.H. Zhou, G.B. Ren, X.M. Yu, L. Ma, J. Yang, F.K. Yu, Heterogeneous electro-Fenton using modified iron–carbon as catalyst for 2,4-dichlorophenol degradation: influence factors, mechanism and degradation pathway, Water Res., 70 (2015) 414–424.
  11. Z.M. Yang, Y.P. Ma, Y. Liu, Q.S. Li, Z.Y. Zhou, Z.Q. Ren, Degradation of organic pollutants in near-neutral pH solution by Fe-C micro-electrolysis system, Chem. Eng. J., 315 (2017) 403–414.
  12. C. Noubactep, S. Caré, K.B.D. Btatkeu, C.P. Nanseu-Njiki, Enhancing the sustainability of household Fe0/sand filters by using bimetallics and MnO2, CLEAN–Soil Air Water, 40 (2012) 100–109.
  13. P.Z. Cui, Z.H. Mai, S.Y. Yang, Y. Qian, Integrated treatment processes for coal-gasification wastewater with high concentration of phenol and ammonia, J. Cleaner Prod., 142 (2017) 2218–2226.
  14. W. Xing, W.Q. Zhang, D.S. Li, J.L. Li, F.F. Jia, Y.W. Cui, F.M. Ren, An integrated O/A two-stage packed-bed reactor (INT-PBR) for total nitrogen removal from low organic carbon wastewater, Chem. Eng. J., 328 (2017) 894–903.
  15. W.W. Ma, Y.X. Han, C.Y. Xu, H.J. Han, D. Zhong, H. Zhu, K. Li, The mechanism of synergistic effect between iron-carbon microelectrolysis and biodegradation for strengthening phenols removal in coal gasification wastewater treatment, Bioresour. Technol., 271 (2019) 84–90.
  16. P. Li, Z.P. Liu, X.G. Wang, Y. Guo, L.Z. Wang, Enhanced decolorization of methyl orange in aqueous solution using iron-carbon micro-electrolysis activation of sodium persulfate, Chemosphere, 180 (2017) 100–107.
  17. Y. Wang, X.W. Wu, J. Yi, L.J. Chen, T.X. Lan, J. Dai, Pretreatment of printing and dyeing wastewater by Fe/C micro-electrolysis combined with H2O2 process, Water Sci. Technol., 3 (2017) 707–716.
  18. M. Malakootian, M. Pournamdari, A. Asadipour, H. Mahdizadeh, Degradation and removal of p-nitroaniline from aqueous solutions using a novel semi-fluid Fe/charcoal microelectrolysis reactor, Korean J. Chem. Eng., 36 (2019) 217–225.
  19. D.W. Ying, X.Y. Xu, K. Li, Y.L. Wang, J.P. Jia, Design of a novel sequencing batch internal micro-electrolysis reactor for treating mature landfill leachate, Chem. Eng. Res. Des., 90 (2012) 2278–2286.
  20. S.Q. Wu, Y.F. Qi, C.Z. Fan, B.B. Dai, J.C. Huang, W.L. Zhou, S.B. He, L. Gao, Improvement of anaerobic biological treatment effect by catalytic micro-electrolysis for monensin production wastewater, Chem. Eng. J., 296 (2016) 260–267.
  21. B.C. Yang, Y.F. Qi, R.T. Liu, Pilot-Scale production, properties and application of Fe/Cu catalytic-ceramic-filler for nitrobenzene compounds wastewater treatment, Catalysts, 9 (2019) 1–13.
  22. S.Q. Wu, Y.F. Qi, C.Z. Fan, B.B. Dai, J.C. Huang, X. Zhang, T. Chen, W.L. Zhou, S.B. He, L. Gao, Fe-Ni catalytic micro-electrolysis coupled with biological aerated filter for 2,4,6-trinitrotoluene production wastewater treatment, J. Cleaner Prod., 156 (2017) 679–687.
  23. S. Caré, R. Crane, P.S. Calabrò, A. Ghauch, E. Temgoua, C. Noubactep, Modeling the permeability loss of metallic iron water filtration systems, CLEAN–Soil Air Water, 41 (2013) 275–282.
  24. Q. Guo, D.W. Blowes, Biogeochemistry of two types of permeable reactive barriers, organic carbon and ironbearing organic carbon for mine drainage treatment: column experiments, J. Contam. Hydrol., 107 (2009) 128–139.
  25. C. Noubactep, S. Caré, F. Togue-Kamga, A. Schöner, P. Woafo, Extending service life of household water filters by mixing metallic iron with sand, CLEAN–Soil Air Water, 38 (2010) 951–959.
  26. B.D. Btatkeu-K, J.B. Tchatchueng, C. Noubactep, S. Caré, Designing metallic iron based water filters: light from methylene blue discoloration, J. Environ. Manage., 166 (2016) 567–573.
  27. A.I. Ndé-Tchoupé, S. Makota, A. Nassi, R. Hu, C. Noubactep, The suitability of pozzolan as admixing aggregate for Fe0-based filters, Water, 10 (2018) 417–434.
  28. B.D. Btatkeu-K, H.J. Olvera-Vargas, J.B. Tchatchueng, C. Noubactep, S. Caré, Characterizing the impact of MnO2 on the efficiency of Fe0-based filtration systems, Chem. Eng. J., 250 (2014) 416–422.
  29. M. Gheju, I. Balcu, C. Vancea, An investigation of Cr(VI) removal with metallic iron in the co-presence of sand and/or MnO2, J. Environ. Manage., 170 (2016) 145–151.
  30. Z.X. Wang, X.C. Xu, Z. Gong, F.L. Yang, Removal of COD, phenols and ammonium from Lurgi coal gasification wastewater using A2O-MBR system, J. Hazard. Mater., 235 (2012) 78–84.
  31. W.C. Xu, Y.X. Zhang, H.B. Cao, Y.X. Sheng, H.B. Li, Y.P. Li, H. Zhao, X.F. Gui, Metagenomic insights into the microbiota profiles and bioaugmentation mechanism of organics removal in coal gasification wastewater in an anaerobic/anoxic/oxic system by methanol, Bioresour. Technol., 264 (2018) 106–115.
  32. L.L. Zhang, Y. Gao, Q.Y. Yue, P. Zhang, Y. Wang, B.Y. Gao, Prepartion and application of novel blast furnace dust based catalytic-ceramic-filler in electrolysis assisted catalytic microelectrolysis system for ciprofloxacin wastewater treatment, J. Hazard. Mater., 383 (2020) 121215.
  33. H. Mahdizadeh, M. Malakootian, Optimization of ciprofloxacin removal from aqueous solutions by a novel semi-fluid Fe/ charcoal micro-electrolysis reactor using response surface methodology, Process Saf. Environ. Prot., 123 (2019) 299–308.
  34. G.K. Akkaya, H.S. Erkan, E. Sekman, S. Top, H. Karaman, M.S. Bilgili, G.O. Engin, Modeling and optimizing Fenton and electro-Fenton processes for dairy wastewater treatment using response surface methodology, Int. J. Environ. Sci. Technol., 16 (2019) 2343–2358.