References

  1. M. Marzec, Reliability of removal of selected pollutants in different technological solutions of household wastewater treatment plants, J. Water Land Dev., 35 (2017) 141–148.
  2. U.S. EPA, Trickling Filter Nitrification, United States Environmental Protection Agency, Washington, D.C., 2000.
  3. M. Von Sperling, Modelling of coliform removal in 186 facultative and maturation ponds around the world, Water Res., 39 (2005) 5261–5273.
  4. H.E. Muga, J.R. Mihelcic, Sustainability of wastewater treatment technologies, J. Environ. Manage., 88 (2008) 437–447.
  5. H.-S. Shih, H.-J. Shyur, E.S. Lee, An extension of TOPSIS for group decision making, Math. Comput. Modell., 45 (2007) 801–813.
  6. T.W. Seow, C.K. Lim, M. Hanif Md Nor, M.F.M. Mubarak, C.Y. Lam, A. Yahya, Z. Ibrahim, Review on wastewater treatment technologies, Int. J. Appl. Environ. Sci., 11 (2016) 111–126.
  7. M.J. Hammer Sr., M.J. Hammer Jr., Water and Wastewater Technology, Prontice Hall PTR, New York United States, 2006.
  8. L. Ho, W. Van Echelpoel, P. Charalambous, A.P.L. Gordillo, O. Thas, P. Goethals, Statistically-based comparison of the removal efficiencies and resilience capacities between conventional and natural wastewater treatment systems: a peak load scenario, Water (Switzerland), 10 (2018) 328.
  9. P. Eriksson, Nanofiltration extends the range of membrane filtration, Environ. Prog., 7 (1988) 58–62.
  10. M. Thanuttamavong, K. Yamamoto, J. Ik Oh, K. Ho Choo, S.J. Choi, Rejection characteristics of organic and inorganic pollutants by ultra low-pressure nanofiltration of surface water for drinking water treatment, Desalination, 145 (2002) 257–264.
  11. S.P. Dharupaneedi, S.K. Nataraj, M. Nadagouda, K.R. Reddy, S.S. Shukla, T.M. Aminabhavi, Membrane-based separation of potential emerging pollutants, Sep. Purif. Technol., 210 (2019) 850–866.
  12. O.T. Iorhemen, R.A. Hamza, J.H. Tay, Membrane bioreactor (MBR) technology for wastewater treatment and reclamation: membrane fouling, Membranes (Basel), 6 (2016) 13–16.
  13. T. Yeit Haan, M.S.H. Ghani, W.N.A. Wan Mohammad Hamdan, N.A. Rosnan, N.I. Mohamad Mazuki, H.K. Chun, Application of membrane technology towards the reusability of lake water, mine water, and tube well water, J. Kejuruter., 29 (2017) 131–137.
  14. M. Djun Lee, S. Dayou, P. Karunakaran, Determinants of a pretreatment model in achieving economic and environmental sustainability in membrane desalination, J. Kejuruter., 30 (2018) 193–199.
  15. G. Peavy, H.S. Rowe, D.R. Tchobanoglous, Environmental Engineering, McGrawHill, New York, United States, 1985.
  16. B.G. Adams, C.E. Aulenbach, D.B.L. Bollyky, J. Burns, D.E. Canter, L.W. Crits, G.J. Dahlstrom, D. Lee, K. David, H.F. Liptak, Wastewater Treatment, CRC Press, Boca Raton, 1997.
  17. M.A. Senzia, A.W. Mayo, T.S.A. Mbwette, J.H.Y. Katima, S.E. Jørgensen, Modelling nitrogen transformation and removal in primary facultative ponds, Ecol. Modell., 154 (2002) 207–215.
  18. D. Recio-Garrido, Y. Kleiner, A. Colombo, B. Tartakovsky, Dynamic model of a municipal wastewater stabilization pond in the arctic, Water Res., 144 (2018) 444–453.
  19. L.T. Ho, W. Van Echelpoel, P.L.M. Goethals, Design of waste stabilization pond systems: a review, Water Res., 123 (2017) 236–248.
  20. D.D. Shilton, A.N. Mara, CFD (computational fluid dynamics) modelling of baffles for optimizing tropical waste stabilization pond system, Water Sci. Technol., 51 (2005) 103–106.
  21. L. Sah, D.P.L. Rousseau, C.M. Hooijmans, Numerical modelling of waste stabilization ponds: where do we stand?, Water Air Soil Pollut., 223 (2012) 3155–3171.
  22. Q. Yang, C. Gao, Z.-X. Wu, S.-N. Liang, M.-H. Liu, Activated Carbon Clogging Analysis in an Integration of Constructed Wetland With Microbial Fuel Cell, 2018 3rd International Conference on Advances in Energy and Environment Research (ICAEER 2018), 53 (2018) 10–13.
  23. N. Mburu, S.M. Tebitendwa, J.J.A. van Bruggen, D.P.L. Rousseau, P.N.L. Lens, Performance comparison and economics analysis of waste stabilization ponds and horizontal subsurface flow constructed wetlands treating domestic wastewater: a case study of the Juja sewage treatment works, J. Environ. Manage., 128 (2013) 220–225.
  24. N. Tambo, M. Kobayashi, P. Thebault, A. Haubry, Sludge Treatment and Disposal, IWA Publishing, London, 1982.
  25. T. Ichinari, A. Ohtsubo, T. Ozawa, K. Hasegawa, K. Teduka, T. Oguchi, Y. Kiso, Wastewater treatment performance and sludge reduction properties of a household wastewater treatment system combined with an aerobic sludge digestion unit, Process Biochem., 43 (2008) 722–728.