References

  1. W.A. Worrell, P.A. Vesilind, Solid Waste Engineering, 2nd ed., SI, 2012.
  2. B. İnanç, B. Çalli, A.M. Saatçi, Characterization and anaerobic treatment of the sanitary landfill leachate in Istanbul, Water Sci. Technol., 41 (2000) 223–230.
  3. Y. Zhou, M. Huang, Q. Deng, T. Cai, Combination and performance of forward osmosis and membrane distillation (FO-MD) for treatment of high salinity landfill leachate, Desalination, 420 (2017) 99–105.
  4. S.M. Iskander, S. Zou, B. Brazil, J.T. Novak, Z. He, Energy consumption by forward osmosis treatment of landfill leachate for water recovery, Waste Manage., 63 (2017) 284–291.
  5. J. Li, A. Niu, C.J. Lu, C.J. Lu, J.H. Zhang, M. Junaid, P.R. Strauss, P. Xiao, X. Wang, Y.W. Ren, D.S. Pei, A novel forward osmosis system in landfill leachate treatment for removing polycyclic aromatic hydrocarbons and for direct fertigation, Chemosphere, 168 (2017) 112–121.
  6. K. Kosutic, D. Dolar, T. Strmecky, Treatment of landfill leachate by membrane processes of nanofiltration and reverse osmosis, Desal. Wat. Treat., 55 (2015) 2680–2689.
  7. M. Sir, Z. Honzajkova, Treatment of municipal landfill leachate by the process of reverse osmosis and evaporation, Fresenius Environ. Bull., 24 (2015) 2245–2250.
  8. Y. Dong, Z. Wang, C. Zhu, Q. Wang, J. Tang, Z. Wu, A forward osmosis membrane system for the post-treatment of MBRtreated landfill leachate, J. Membr. Sci., 471 (2014) 192–200.
  9. G. Wang, Z. Fan, D. Wu, L. Qin, G. Zhang, C. Gao, Q. Meng, Anoxic/aerobic granular active carbon assisted MBR integrated with nanofiltration and reverse osmosis for advanced treatment of municipal landfill leachate, Desalination, 349 (2014) 136–144.
  10. A.M. Schiopu, G.C. Piuleac, C. Cojocaru, I. Apostol, I. Mamaliga, M. Gavrilescu, Reducing environmental risk of landfills: leachate treatment by reverse osmosis, Environ. Eng. Manage. J., 11 (2012) 2319–2331.
  11. M. Sir, M. Podhola, T. Patocka, Z. Honzajkova, P. Kocurek, M. Kubal, M. Kuras, The effect of humic acids on the reverse osmosis treatment of hazardous landfill leachate, J. Hazard. Mater., 207 (2012) 86–90.
  12. W. Rukapan, B. Khananthai, C. Chiemchaisri, W. Chiemchaisri, T. Srisukphun, Short- and long-term fouling characteristics of reverse osmosis membrane at full scale leachate treatment plant, Water Sci. Technol., 65 (2012) 127–134.
  13. V. Oloibiri, S. De Coninck, M. Chys, K. Demeestere, S.W.H. Van Hulle, Characterisation of landfill leachate by EEM-PARAFACSOM during physical-chemical treatment by coagulationflocculation, activated carbon adsorption and ion exchange, Chemosphere, 186 (2017) 873–883.
  14. A. Alighardashi, Z.K. Esfahani, S.A. Anbardan, Landfill leachate treatment in an integrated adsorption-chemical oxidation process including CNT and nZVI-H2O2, Desal. Wat. Treat., 82 (2017) 338–345.
  15. M. Orkun, A. Kuleyin, Treatment performance evaluation of chemical oxygen demand from landfill leachate by electrocoagulation and electro-Fenton technique, Environ. Prog. Sust. Energy, 31 (2012) 59–67.
  16. J. Ding, L. Wei, H. Huang, Q. Zhao, W. Hou, F.T. Kabutey, Y. Yuan, D. Dionysiou, Tertiary treatment of landfill leachate by an integrated electro-oxidation/electro-coagulation/electroreduction process: performance and mechanism, J. Hazard. Mater., 351 (2018) 90–97.
  17. E.C. Rada, I.A. Istrate, M. Ragazzi, G. Andreottola, V. Torretta, Analysis of electro-oxidation suitability for landfill leachate treatment through an experimental study, Sustainability, 5 (2013) 3960–3975.
  18. Z. Li, S. Yuan, C. Qiu, Y. Wang, X. Pan, J. Wang, C. Wang, J. Zuo, Effective degradation of refractory organic pollutants in landfill leachate by electro-peroxone treatment, Electrochim. Acta, 102 (2013) 174–182.
  19. M.J.K. Bashir, H.A. Aziz, S.Q. Aziz, S.S. Abu Amr, An overview of electro-oxidation processes performance in stabilized landfill leachate treatment, Desal. Wat. Treat., 51 (2013) 2170–2184.
  20. H. Zhang, X. Ran, X. Wu, Electro-Fenton treatment of mature landfill leachate in a continuous flow reactor, J. Hazard. Mater., 241 (2012) 259–266.
  21. M. Umar, H.A. Aziz, M.S. Yusoff, Trends in the use of Fenton, electro-Fenton and photo-Fenton for the treatment of landfill leachate, Waste Manage., 30 (2010) 2113–2121.
  22. F. İlhan, U. Kurt, Ö. Apaydin, M.T. Gönüllü, Treatment of leachate by electrocoagulation using aluminum and iron electrodes, J. Hazard. Mater., 154 (2008) 381–389.
  23. 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.
  24. K. Mariam, E. Lobna, A. Haifa, C. Yassmine, H. Cyrine, N. Salma, F. Sami, T. Ismail, Use of dairy reject and fermented Aleo sp. leaf gel mixture in the biological pre-treatment of landfill leachate, Water Practice Technol., 13 (2018) 219–228.
  25. C. Yuan, Y. Wang, T. Zhu, X. Feng, G. Ma, F. Yu, Y. Xie, Multistage biological contact oxidation for landfill leachate treatment: optimization and bacteria community analysis, Int. Biodeterior. Biodegrad., 125 (2017) 200–207.
  26. L. Jurczykand, J. Koc-Jurczyk, Biological removal of ammonia from municipal landfill leachate (Kozodrza, Poland) at limited oxygen access and presence of kaldnes media, J. Ecol. Eng., 19 (2018) 131–139.
  27. L. Wu, L. Zhang, Y. Xu, C. Liang, H. Kong, X. Shi, Y. Peng, Advanced nitrogen removal using bio-refractory organics as carbon source for biological treatment of landfill leachate, Sep. Purif. Technol., 170 (2016) 306–313.
  28. F.A. El-Gohary, G. Kamel, Characterization and biological treatment of pre-treated landfill leachate, Ecol. Eng., 94 (2016) 268–274.
  29. Y. Xia, P.J. He, H.X. Pu, F. Lu, L.M. Shao, H. Zhang, Inhibition effects of high calcium concentration on anaerobic biological treatment of MSW leachate, Environ. Sci. Pollut. Res., 23 (2016) 7942–7948.
  30. B. Pieczykolan, I. Plonka, M. Kosel, Changes of the quality of activated sludge during the biological treatment of landfill leachate, Environ. Protect. Eng., 42 (2016) 33–42.
  31. Y. Cui, Q, Wu, M, Yang, F. Cui, Three-dimensional excitationemission matrix fluorescence spectroscopy and fractions of dissolved organic matter change in landfill leachate by biological treatment, Environ. Sci. Pollut. Res., 23 (2016) 793–799.
  32. G.T. Muller, A. Giacobbo, E.A. dos Santos Chiaramonte, M.A.S. Rodrigues, A.M. Bernardes, The effect of sanitary landfill leachate aging on the biological treatment and assessment of photoelectrooxidation as a pre-treatment process, Waste Manage., 36 (2015) 177–183.
  33. N. Daneshvar, A. Oladegaragoze, N. Djafarzadeh, Decolorization of basic dye solutions by electrocoagulation: an investigation of the effect of operational parameters, J. Hazard. Mater., 129 (2006) 116–122.
  34. M.Y.A. Mollah, R. Schennach, J.R. Parga, D.L. Cocke, Electrocoagulation (EC)—science and application, J. Hazard. Mater., B84 (2001) 29–41.
  35. K. Rajeshwar, J. Ibanez, Environmental Electrochemistry Fundamentals and Applications in Pollution Abatement, Academic Press, London, 1997.
  36. G. Chen, Electrochemical technologies in wastewater treatment, Sep. Purif. Technol., 38 (2004) 11–41.
  37. K. Thirugnanasambandham, V. Sivakumar, J.P. Maran, Response surface modelling and optimization of treatment of meat industry wastewater using electrochemical treatment method. J. Taiwan Inst. Chem. Eng., 46 (2015) 160–167.
  38. N. Yusoff, M. Ramasamy, S. Yusup, Taguchi’s parametric design approach for the selection of optimization variables in a refrigerated gas plant, Chem. Eng. Res. Des., 89 (2011) 665–675.
  39. J.M. Parks, On stochastic optimization: Taguchi Methods demystified; its limitations and fallacy clarified, Probab. Eng. Mech., 16 (2001) 87–101.
  40. K. Yang, E.C. Teo, F.K. Fuss, Application of Taguchi Method in optimization of cervical ring cage, J. Biomech., 40 (2007) 3251–3256.
  41. A. Deghles, U. Kurt, Treatment of raw tannery wastewater by electrocoagulation technique: optimization of effective parameters using Taguchi method, Desal. Wat. Treat., 57 (2016) 14798–14809.
  42. F. Özyonar, H. Muratcobanoglu, O. Gökkus, Taguchi approach for color removal using electrocoagulation with different electrode connection types, Fresenius Environ. Bull., 26 (2017) 7600–7607.
  43. H.Y. Yen, C.P. Lin, Adsorption of Cd(II) from wastewater using spent coffee grounds by Taguchi optimization, Desal. Wat. Treat., 57 (2016) 11154–11161.
  44. F. Özyonar, Optimization of operational parameters of electrocoagulation process for real textile wastewater treatment using Taguchi experimental design method, Desal. Wat. Treat., 57 (2016) 2389–2399.
  45. M.P. Elizalde-Gonzalez, L.E. Garcia-Diaz, Application of a Taguchi L16 orthogonal array for optimizing the removal of Acid Orange 8 using carbon with a low specific surface area, Chem. Eng. J., 163 (2010) 55–61.
  46. S. Irdemez, Y.S. Yildiz, V. Tosunoglu, Optimization of phosphate removal from wastewater by electrocoagulation with aluminum plate electrodes, Sep. Purif. Technol., 52 (2006) 394–401.
  47. APHA, AWWA, Standard Methods for the Examination of Water and Wastewater, 20th ed., American Public Health Association, Washington, DC, 1998.
  48. O. Gökkus, Y.S. Yıldız, B. Yavuz, Optimization of chemical coagulation of real textile wastewater using Taguchi experimental design method, Desal. Wat. Treat., 49 (2012) 263–271.
  49. K.S.P. Kalyani, N. Balasubramanian, C. Srinivasakannan, Decolorization and COD reduction of paper industrial effluent using electro-coagulation, Chem. Eng. J., 151 (2009) 97–104.
  50. F. Ozyonar, B. Karagozoglu, Treatment of pretreated coke wastewater by electrocoagulation and electrochemical peroxidation processes, Sep. Purif. Technol., 150 (2015) 268–277.
  51. I. Heidmann, W. Calmano, Removal of Cr(VI) from model wastewaters by electrocoagulation with Fe electrodes. Sep. Purif. Technol., 61 (2008) 15–21.
  52. C. Ricordel, H. Djelal, Treatment of landfll leachate with high proportion of refractory materials by electrocoagulation: system performances and sludge settling characteristics. J. Environ. Chem. Eng., 2 (2014) 1551–1557.
  53. B.G. Chen, X. Chen, P.L. Yue, Electrocoagulation and electroflotation of restaurant wastewater, J. Environ. Eng., 126 (2000) 858–863.
  54. P. Asaithambi, D. Beyene, A.R.A. Aziz, E. Alemayehu, Removal of pollutants with determination of power consumption from landfill leachate wastewater using an electrocoagulation process: optimization using response surface methodology (RSM), Appl. Water Sci., 8 (2018) 69.
  55. N. Modirshahla, M.A. Behnajady, S. Kooshaiian, Investigation of the effect of different electrode connections on the removal efficiency of Tartrazine from aqueous solutions by electrocoagulation, Dyes Pigm., 74 (2007) 249–257.
  56. M. Kobya, O.T. Can, M. Bayramoglu, Treatment of textile wastewaters by electrocoagulation using iron and aluminum electrodes, J. Hazard Mater., 100 (2003) 163–178.
  57. Ö. Apaydin, E. Özkan, Leachate Treatment by Electrocoagulation, 15th International Conference on Environmental Science and Technology, Rhodes, Greece, August 31 to September 2, 2017.