References

  1. M. Mohadesi, A. Shokri, Evaluation of Fenton and photo-Fenton processes for the removal of p-chloronitrobenzene in aqueous environment using Box–Behnken design method, Desal. Water Treat., 81 (2017) 199–208.
  2. A. Shokri, A. Hassani Joshagani, Using microwave along with TiO2 for degradation of 4-chloro-2-nitrophenol in aqueous environment, Russ. J. Appl. Chem., 89 (2016) 1985–1990.
  3. A. Shokri, M. Salimi, T. Abmatin, Employing Photo Fenton and UV/ZnO processes for removing Reactive red 195 from aqueous environment, Fresenius Environ. Bull., 26 (2017) 1560–1565.
  4. X.B. Liao, C. Chen, J.X. Zhang, Y. Dai, X.J. Zhang, S.G. Xie, Dimethylamine biodegradation by mixed culture enriched from drinking water biofilter, Chemosphere, 119 (2015) 935–940.
  5. W.A. Mitch, D.L. Sedlak, Characterization and fate of N-nitrosodimethylamine precursors in municipal wastewater treatment plants, Environ. Sci. Technol., 38 (2004) 1445–1454.
  6. M. Krauss, P. Longrée, E. van Houtte, J. Cauwenberghs, J. Hollender, Assessing the fate of nitrosamine precursors in wastewater treatment by physicochemical fractionation, Environ. Sci. Technol., 44 (2010) 7871–7877.
  7. D. Fournier, J. Hawari, A. Halasz, S.H. Streger, K.R. McClay, H. Masuda, P.B. Hatzinger, Aerobic biodegradation of N-nitrosodimethylamine by the propanotroph Rhodococcus ruber ENV425, Appl. Environ. Microbiol., 75 (2009) 5088–5093.
  8. P.B. Hatzinger, C. Condee, K.R. McClay, A.P. Togna, Aerobic treatment of N-nitrosodimethylamine in a propane-fed membrane bioreactor, Water Res., 45 (2011) 254–262.
  9. K.-L. Ho, Y.C. Chung, Y.-H. Lin, C.-P. Tseng, Biofiltration of trimethylamine, dimethylamine, and methylamine by immobilized Paracoccus sp. CP2 and Arthrobacter sp. CP1, Chemosphere, 72 (2008) 250–256.
  10. L. Wang, Y.M. Li, X.L. Shang, J. Shen, Occurrence and removal of N-nitrosodimethylamine and its precursors in wastewater treatment plants in and around Shanghai, Front. Environ. Sci. Eng., 8 (2014) 519–530.
  11. C.-F. Yang, C.-C. Wang, C.-H. Tseng, Methylamine removal using mixed bacterial strains in a continuous stirred tank reactor (CSTR) system, Int. Biodeterior. Biodegrad., 85 (2013) 583–586.
  12. C.-S. Ye, H.-X. Wang, G.-Q. Huang, T. Qiu, Adsorption and desorption of DMF on macroporous resin NKA-II in the fixed bed, Chem. Eng. Res. Des., 91 (2013) 2713–2720.
  13. G. Busca, C. Pistarino, Abatement of ammonia and amines from waste gases: a summary, J. Loss Prev. Process Ind., 16 (2003) 157–163.
  14. B. Kokabian, B. Bonakdarpour, S. Fazel, The effect of salt on the performance and characteristics of a combined anaerobic– aerobic biological process for the treatment of synthetic wastewaters containing Reactive black 5, Chem. Eng. J., 221 (2013) 363–372.
  15. R. Vidhya, A. Thatheyus, Biodegradation of dimethylformamide using Bacillus subtilis, Am. J. Microbiol. Res., 1 (2013) 10–15.
  16. A. Shokri, The treatment of spent caustic in the wastewater of olefin units by ozonation followed by electrocoagulation process, Desal. Water Treat., 111 (2018a) 173–182.
  17. A. Shokri, Employing electro coagulation for the removal of Acid red 182 in aqueous environment using Box–Behenken design method, Desal. Water Treat., 115 (2018b) 281–287.
  18. S. Sanjari, A. Naderifar, G. Pazuki, Modeling and optimization of β-Cyclodextrin production by Bacillus licheniformis using artiïcial neural network and genetic algorithm, Iran J. Biotechnol., 11 (2013) 223–232.
  19. S. Sanjari, F. Vahabzadeh, Experimental studies and kinetic modeling of cyclodextrin glucanotransferase production from starch with the use of Bacillus sp. DSM 2523, Starch, 66 (2014) 606–614.
  20. APHA, AWWA, Standard Methods for the Examination of Water and Wastewater, American Public Health Association, New York, 1989.
  21. S.G. Kim, H.S. Bae, S.T. Lee, A novel denitrifying bacterial isolate that degrades trimethylamine both aerobically and anaerobically via two different pathways, Arch. Microbiol., 176 (2001) 271–277.
  22. M. Eiroa, A. Vilar, C. Kennes, M.C. Veiga, Biological treatment of industrial wastewater containing formaldehyde and formic acid, Water SA, 32 (2005) 115–118.
  23. M. Arabjafari, N. Fallah, M. Dadvar, B. Nasernejad, Kinetic modeling of styrene biodegradation by Rhodococcus erythropolis PTCC 1767: effect of adaptation to styrene and initial biomass concentration, Chem. Eng. Commun., 204 (2017) 182–189.
  24. Y.S. Wei, R.T. Van Houten, A.R. Borger, D.H. Eikelboom, Y.B. Fan, Minimization of excess sludge production for biological wastewater treatment, Water Res., 37 (2003) 4453–4467.
  25. J.B.M. Meiberg, W. Harder, Aerobic and anaerobic metabolism of trimethylamine, dimethylamine and methylamine in Hyphomicrobium X, Microbiology, 106 (1978) 265–276.
  26. M.H. Van Agteren, S. Keuning, D. Janssen, Handbook on Biodegradation and Biological Treatment of Hazardous Organic Compounds, Science & Business Media, Springer, Netherlands, 2013.
  27. Z. Khalili, B. Bonakdarpour, Statistical optimization of anaerobic biological processes for dye treatment, CLEAN–Soil Air Water, 38 (2010) 942–950.
  28. A. Azizollahzadeh, Construction and Evaluation of the Performance of an Anaerobic Membrane Bioreactor for Purification of Petrochemical Wastewater, M.Sc. Thesis, Environmental Group, University of Amirkabir (Polytechnique), Persian, Tehran, Iran, 2013.
  29. A. Shokri, A kinetic study and application of electro-Fenton process for the remediation of aqueous environment containing toluene in a batch reactor, Russ. J. Appl. Chem., 90 (2017) 452−457.
  30. A. Shokri, Employing sono-Fenton process for degradation of 2-nitrophenol in aqueous environment using Box–Behnken design method and kinetic study, Russ. J. Phys. Chem. A, 93 (2018) 243–249.