References

  1. J. Mattsson, A. Hedström, R.M. Ashley, M. Viklander, Impacts and managerial implications for sewer systems due to recent changes to inputs in domestic wastewater – a review, J. Environ. Manage., 161 (2015) 188–197.
  2. J.B. Williams, C. Clarkson, C. Mant, A. Drinkwater, E. May, Fat, oil and grease deposits in sewers: characterisation of deposits and formation mechanisms, Water Res., 46 (2012) 6319–6328.
  3. S. Mudie, M. Vahdati, Fat, oil and grease reduction in commercial kitchen ductwork: a novel biological approach, Waste Manage., 61 (2017) 28–39.
  4. Y. Li, Y. Jin, J. Li, Influence of thermal hydrolysis on composition characteristics of fatty acids on kitchen waste, Energy, 102 (2016) 139–147.
  5. X. He, F.L. de los Reyes III, M.L. Leming, L.O. Dean, S.E. Lappi, J.J. Ducoste, Mechanisms of fat, oil and grease (FOG) deposit formation un sewer lines, Water Res., 47 (2013) 4451–4459.
  6. M. Iasmin, Factors that influence properties of FOG deposits and their formation in sewer collection systems, Water Res., 49 (2014) 92–102.
  7. E. Łobos-Moysa, Treatment of Wastewater Containing Oil Substances in Integrated Systems, Silesian University of Technology, Gliwice, 2017.
  8. D.M.N. Del Mundo, M. Sutheerawattananonda, Influence of fat and oil type on the yield, physico-chemical properties, and microstructure of fat, oil, and grease (FOG) deposits, Water Res., 124 (2017) 308–319.
  9. M.A. Gross, J.L. Jensen, H.S. Gracz, J. Dancer, K.M. Keener, Evaluation of physical and chemical properties and their interactions in fat, oil, and grease (FOG) deposits, Water Res., 123 (2017) 173–182.
  10. T.D. Evans, P. Andersson, A. Wievegg, I. Carisson, Surahammar: a case study of impacts of installing food waste disposers in 50% of households, Water Environ. J., 24 (2010) 309–319.
  11. E. Agus, L. Zhang, D.L. Sedlak, A framework for identifying characteristic odor compounds in municipal wastewater effluent, Water Res., 46 (2012) 5970–5980.
  12. T. Wallance, D. Gibbons, M. O’Dwyer, T. Curran, International evolution of fat, oil and grease (FOG) waste management – a review, J. Environ. Manage., 187 (2017) 424–435.
  13. M.E. Ortner, W. Müller, I. Schneider, A. Bockreis, Environmental assessment of three different utilization paths of waste cooking oil from households, Resour. Conserv. Recycl., 106 (2016) 59–67.
  14. R.J. Lopez, S.R. Higgins, E. Pagaling, T. Yan, M.J. Cooney, High rate anaerobic digestion of wastewater separated from grease trap waste, Renewable Energy, 62 (2014) 234–242.
  15. E. Łobos-Moysa, The application of ultrasounds in oily wastewater pre-treatment, Arch Environ. Prot., 44 (2018) 24–32.
  16. E. Łobos-Moysa, M. Dudziak, M. Bodzek, Effect of fatty acids and sterols on the efficiency of wastewater treatment by the activated sludge process in a batch system, Ochr. Sr., 32 (2010) 53–56.
  17. D.P. Karsa, M.R. Porter, Biodegradability of Surfactants, Springer Science + Business Media, 2012.
  18. A. Kis, K. Laczi, S. Zsíros, G. Rákhely, K. Perei, Biodegradation of animal fats and vegetable oil by Rhodococcus, Int. Biodeterior. Biodegrad., 105 (2015) 114–119.
  19. H.L. Tang, Y.F. Xie, Y.C. Chen, Use of Bio-Amp, a commercial bioadditive for the treatment of grease trap wastewater containing fat, oil and grease, Bioresour. Technol., 124 (2012) 52–58.
  20. K.B. Chipasa, K. Mędrzycka, Behavior of lipids in biological wastewater treatment processes, J. Ind. Microbiol. Biotechnol., 33 (2006) 635–645.
  21. E. Konratowicz-Pietrucha, Changes in the quality of vegetable oils stored in refrigeration, Zeszyty Naukowe UEK, 912 (2013) 49–72.
  22. M.A. Pereira, O.C. Pires, M. Mota, M.M. Alves, Anaerobic biodegradation of oleic and palmitic acids: evidence of mass transfer limitations caused by long chain fatty acid accumulation onto the anaerobic sludge, Biotechnol. Bioeng., 92 (2015) 15–23.
  23. E. Łobos-Moysa, M. Bodzek, Application of hybrid biological techniques to the treatment of municipal wastewater containing oils and fats, Desal. Wat. Treat., 46 (2012) 32–37.
  24. C. Juntawang, C. Rongsayamanont, E. Khan, Entrapped cellsbased- anaerobic membrane bioreactor treating domestic wastewater: performances, fouling, and bacterial community structure, Chemosphere, 187 (2017) 147–155.
  25. A.L. Smith, S.J. Skerlos, L. Raskin, Psychrophilic anaerobic membrane bioreactor treatment of domestic wastewater, Water Res., 47 (2013) 1655–1665.
  26. C. Shin, J. Bae, Current status of the pilot-scale anaerobic membrane bioreactor treatments of domestic wastewaters: a critical review, Bioresour. Technol., 247 (2018) 1038–1046.
  27. Y. Jeong, Y. Kim, Y. Jin, S. Hong, C. Park, Comparison of filtration and treatment performance between polymeric and ceramic membranes in anaerobic membrane bioreactor treatment of domestic wastewater, Sep. Purif. Technol., 199 (2018) 182–188.
  28. M. Aslam, R. Ahmad, J. Kim, Recent developments in biofouling control in membrane bioreactors for domestic wastewater treatment, Sep. Purif. Technol., 206 (2018) 297–315.