1. B. Zhou, Y. Li, P. Song, Y. Zhou, Y. Yu, V. Bralts, Anti-clogging evaluation for drip irrigation emitters using reclaimed water, Irrig. Sci., 35 (2017) 181–192.
  2. F.S. Nakayama, D.A. Bucks, Water quality in drip/trickle irrigation: a review, Irrig. Sci., 12 (1991) 187–192.
  3. S.K. Sharma, B. Petrusevski, J.C. Schippers, Biological iron removal from groundwater: a review, J. Water Supply Res. Technol. AQUA, 54 (2005) 239–247, aqua.2005.0022.
  4. S. Chaturvedi, P.N. Dave, Removal of iron for safe drinking water, Desalination, 303 (2012) 1–11.
  5. L. Schwankl, B. Hanson, T. Prichard, Maintaining Microirrigation Systems, Publicatio, University of California Agriculture and Natural Resources, Davis, 2008.
  6. J.D. Hem, Study and Interpretation of the Chemical Characteristics of Natural Water, Vol. 2254, Department of the Interior, US Geological Survey, 1985.
  7. T. Grischek, S. Paufler, Prediction of iron release during riverbank filtration, Water. 9 (2017) 317, w9050317.
  8. S. Costabel, C. Weidner, M. Müller-Petke, G. Houben, Hydraulic characterisation of iron-oxide-coated sand and gravel based on nuclear magnetic resonance relaxation mode analyses, Hydrol. Earth Syst. Sci., 22 (2018) 1713–1729.
  9. D. Ellis, C. Bouchard, G. Lantagne, Removal of iron and manganese from groundwater by oxidation and microfiltration, Desalination, 130 (2000) 255–264.
  10. P. Berbenni, A. Pollice, R. Canziani, L. Stabile, F. Nobili, Removal of iron and manganese from hydrocarbon-contaminated groundwaters, Bioresour. Technol., 74 (2000) 109–114.
  11. K. Vaaramaa, J. Lehto, Removal of metals and anions from drinking water by ion exchange, Desalination, 155 (2003) 157–170.
  12. H.A. Aziz, M.S. Yusoff, M.N. Adlan, N.H. Adnan, S. Alias, Physico-chemical removal of iron from semi-aerobic landfill leachate by limestone filter, Waste Manage., 24 (2004) 353–358.
  13. S.S. Tahir, N. Rauf, Removal of Fe(II) from the wastewater of a galvanized pipe manufacturing industry by adsorption onto bentonite clay, J. Environ. Manage., 73 (2004) 285–292.
  14. B.Y. Cho, Iron removal using an aerated granular filter, Process Biochem., 40 (2005) 3314–3320.
  15. R. Munter, H. Ojaste, J. Sutt, Complexed iron removal from groundwater, J. Environ. Eng., 131 (2005) 1014–1020.
  16. B. Das, P. Hazarika, G. Saikia, H. Kalita, D.C. Goswami, H.B. Das, S.N. Dube, R.K. Dutta, Removal of iron from groundwater by ash: a systematic study of a traditional method, J. Hazard. Mater., 141 (2007) 834–841.
  17. N. Marsidi, H. Abu Hasan, S.R. Sheikh Abdullah, A review of biological aerated filters for iron and manganese ions removal in water treatment, J. Water Process Eng., 23 (2018) 1–12.
  18. A.S. Sheta, A.M. Falatah, M.S. Al-Sewailem, E.M. Khaled, A.S.H. Sallam, Sorption characteristics of zinc and iron by natural zeolite and bentonite, Microporous Mesoporous Mater., 61 (2003) 127–136.
  19. J.P. Vistuba, L.A. Coral, B.S. Pizzolatti, L. Vitali, M.E. Nagel- Hassemer, F.R. Lapolli, M.Á. Lobo-Recio, Adsorption behaviour of the zeolite, Controll M.F. 574® in removing iron and manganese from natural water, Desal. Water Treat., 55 (2015) 1523–1533.
  20. W.-Y. Wu, H. Yan, H.-L. Liu, S.-Y. Yin, N. Yong, Reclaimed water filtration efficiency and drip irrigation emitter performance with different combinations of sand and disc filters, Irrig. Drain., 64 (2015) 362–369.
  21. M. Ghaffari, J. Soltani, Evaluation and comparison of performance in the disc filter with sand filters of filtration equipment in micro irrigation systems, Mod. Appl. Sci., 10 (2016), doi: 10.5539/mas.v10n8p264.
  22. J.S. Kim, M.A. Keane, The removal of iron and cobalt from aqueous solutions by ion exchange with Na-Y zeolite: batch, semi-batch and continuous operation, J. Chem. Technol. Biotechnol., 77 (2002) 633–640.
  23. L.C.A. Oliveira, D.I. Petkowicz, A. Smaniotto, S.B.C. Pergher, Magnetic zeolites: a new adsorbent for removal of metallic contaminants from water, Water Res., 38 (2004) 3699–3704.
  24. M. Al-Anber, Z.A. Al-Anber, Utilization of natural zeolite as ion-exchange and sorbent material in the removal of iron, Desalination, 225 (2008) 70–81.
  25. S.W. Lee, S. Sarp, D.J. Jeon, J.H. Kim, Smart water grid: the future water management platform, Desal. Water Treat., 55 (2015) 339–346.
  26. J.C. Parker, M.T. van Genuchten, Flux-averaged and volumeaveraged concentrations in continuum approaches to solute transport, Water Resour. Res., 20 (1984) 866–872.
  27. Q. Yuan, J. Azaiez, Miscible displacements in porous media with time-dependent injection velocities, Transp. Porous Media, 104 (2014) 57–76.
  28. A.D. Eaton, L.S. Clesceri, A.E. Greenberg, Standard Methods for Examination of Water and Wastewater, American Water Works, USA, 2017.
  29. J.H. Dane, G.C. Topp, Methods of Soil Analysis: Physical Methods, Part 4, Soil Science Society of America, Madison, 2002.
  30. D.A. Fungaro, M. Bruno, Utilização de zeólitas sintetizadas a partir de cinza de carvão para remoção de azul de metileno em água, Orbital., 1 (2009) 49–63. Available at: (accessed April 6, 2020).
  31. J. Keller, R.D. Bliesner, Sprinkler and Trickle Irrigation, AnaviBook/Van Nostrand Reinhold, New York, 1990.
  32. World Health Organization, Guidelines for Drinking- Water Quality, 2011. Available at: search?q=Guidelines+for+Drinking-water+Quality.+&ie=utf- 8&oe=utf-8&client=firefox-b-1-e (accessed April 24, 2019).
  33. V.C. Taty-Costodes, H. Fauduet, C. Porte, Y.S. Ho, Removal of lead(II) ions from synthetic and real effluents using immobilized Pinus sylvestris sawdust: adsorption on a fixedbed column, J. Hazard. Mater., 123 (2005) 135–144.
  34. Z. Razmi, A.R. Sepaskhah, Effect of zeolite on saturated hydraulic conductivity and crack behavior of silty clay paddled soil, Arch. Agron. Soil Sci., 58 (2012) 805–816.
  35. E.J. Shokroo, D.J. Farsani, H.K. Meymandi, N. Yadollahi, Comparative study of zeolite 5A and zeolite 13X in air separation by pressure swing adsorption, Korean J. Chem. Eng., 33 (2016) 1391–1401.