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The Clogging Capacity of Effluents

  • Benjamin Teltsch
Part of the Environmental Series book series (ESE)

Abstract

Effluent reservoirs provide a special aquatic environment in which physical and biological processes affect water quality and influence the reservoir effluent characteristics (Dor et al. 1987). The effluent is often applied through drip irrigation systems. Besides the advantages as an efficient irrigation method, drip irrigation with wastewater effluent provides safety in terms of preventing dispersion of bacteria and viruses into the air and on the irrigated crop canopy and produce (Libhaber and Mintzker 1990). Clogging of the drippers is the greatest problem of these systems. The use of filters at the head of the irrigation network sharply improves the network performance, but the filters themselves may clog so frequently that the costs of manual or automatic backwash are too high (Juanicó et al. 1995). Hence, the performance of the drip irrigation systems is highly dependent on the filterability of the irrigation water.

Keywords

Filter Cake Silver Carp Bighead Carp Drip Irrigation System Filterability Test 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Adin A (1986) Problems associated with particulate matter in water reuse for agricultural irrigation and their prevention. Wat Sci Tech 18 (Split):185–195Google Scholar
  2. Adin A, Alon G (1986) Mechanisms and process parameters of filter screens. J Irrig Drain Engrg, ASCE, 112(4):293–304CrossRefGoogle Scholar
  3. Adin A, Elimelech M (1989) Particle filtration for wastewater irrigation. J Irrig Drain Engrg, ASCE, 115(3):474–487CrossRefGoogle Scholar
  4. Adin A, Sacks M (1991) Dripper clogging factors in wastewater irrigation. J Irrig Drain Engrg, ASCE, 117(6):813–826CrossRefGoogle Scholar
  5. Adin A, Alon G (1993) The role of particle characterization in advanced wastewater treatment. Wat Sci Tech 27(10)131–139Google Scholar
  6. Azov Y, Juanico M, Shelef G, Kanarek A, Priel M (1991) Monitoring the quality of secondary effluents reused for unrestricted irrigation after underground storage. Wat Sci Tech 24(9)267–275Google Scholar
  7. Ben-Harim I, Steinhauer Z (1986) A new filterability test for water quality control. In: Dubinsky Z, Steinberger Y (eds) Environmental quality and ecosystem stability, vol 3A/B, Bar-Ilan Univ Press, Israel, pp 901–905Google Scholar
  8. Boucher PL (1947) A new measure of the filterability of fluids with applications to water engineering. J Inst Civil Engrg 27:415–421CrossRefGoogle Scholar
  9. Bucks DA, Nakayama FS, Gilbert RG (1979) Trickle irrigation water quality and preventive maintenance. Agri Wat Manag 2(2)149–162CrossRefGoogle Scholar
  10. Chancellor AP (1958) The control of aquatic weeds and algae. Ministry of Agriculture, Fisheries and Food, Her Majesty’s Stationery Office, London, 20,2s, 6dGoogle Scholar
  11. Chen J (1995) Copper salts as an algicide/bactericide for reservoirs. New World Water, pp 67-69Google Scholar
  12. Dor I (1990) Deep wastewater reservoirs in Israel: Empirical data for monitoring and control. Wat Res 24(9)1077–1084CrossRefGoogle Scholar
  13. Dor I, Schechter H, Bromley HJ (1987) Limnology of hypertrophic reservoir storing wastewater effluent for agriculture at Kibbuz Na’an, Israel. Hydrobiologia 150:225–241CrossRefGoogle Scholar
  14. Edyvean RGJ, Sneddon AD (1985) The filtration of plankton from seawater. Filtration and Separation, May/June, pp 184-189Google Scholar
  15. English SD (1985) Filtration and water treatment for micro-irrigation. Proc. 3rd Intern. Drip/Trickle Irrig. Congress. Fresno CA, Amer. Soc. Agric. Eng., St. Joseph, WI, p 50Google Scholar
  16. Ford HW (1978) Bacterial clogging in low pressure irrigation systems. In: Proc. Irrig. Asso., 1978 Technical Conference, Cincinnati, Ohio, Silver Spring, Md., pp 239-244Google Scholar
  17. Gilbert RG, Nakayama FS, Bucks DA, French OF (1980) Emitter clogging and other flow problems. Agri Wat Manag 3(3)159–178CrossRefGoogle Scholar
  18. Gulati RD, Van Donk E (1989) Biomanipulation in the Netherlands. In: Fresh water ecosystem and estuarine water. An introduction. Hydrobiol Bull 23:1–4Google Scholar
  19. Hansen GW, Oliver FE, Otto NE (1983) Herbicide manual. U.S. Department of the Interior, Bureau of Reclamation, Denver, Colorado, pp 97–168Google Scholar
  20. Hsiung AK (1980) Chlorine effect on secondary effluent filtration. J Environ Engrg, ASCE, 106(EE3): 649–654Google Scholar
  21. Ives KJ (1960) Filtration through a porous septum: A theoretical consideration of Boucher’s Law. J Inst Wat Engineers 17:333–338Google Scholar
  22. Juanicó M, Shelef G (1994) Design, operation and the performance of stabilization reservoirs for wastewater irrigation in Israel. Wat Res 28(1)175–186CrossRefGoogle Scholar
  23. Juanicó M,Azov Y, Teltsch B, Shelef G, (1995) Effect of effluent addition to a freshwater reservoir on the filter clogging capacity of irrigation water. Wat Res 29(7)1695–1702CrossRefGoogle Scholar
  24. Leventer H (1979) Biological control of reservoirs by fish. Mekorot Water Co., Nazareth-Illit, Israel, pp 16–32Google Scholar
  25. Leventer H, Teltsch B (1990) The contribution of silver carp (Hypophthalmichthys molitrix) to the biological control of Netofa Reservoirs. Hydrobiologia 191:47–55CrossRefGoogle Scholar
  26. Libhaber M, Mintzker N (1990) Wastewater treatment for agricultural reuse in Israel. Proc. 5th Intern. Conference on Irrig., Tel-Aviv, Israel, pp 203–221Google Scholar
  27. Light C (1993) Taupo water supply treatment pump station microstrainers: The arkal spin klin system. Water and Wastes in N.Z., March, pp 17-19Google Scholar
  28. McCabe WL, Smith JC (1971) Unit Operations of Chemical Engineering, McGraw-Hill Books Co., New York, N.Y., pp 885–904Google Scholar
  29. Meador JP (1991) The interaction of pH, dissolved organic carbon, and total copper in the determination of ionic copper and toxicity. Aquat Toxic 19:13–32CrossRefGoogle Scholar
  30. Milstein A (1992) Ecological aspects of fish species interactions in polyculture ponds. Hydrobiologia 231:177–186CrossRefGoogle Scholar
  31. Milstein A, Hepher B, Teltsch B (1988) The effect of fish species combination in fish ponds on plankton composition. Aquacult Fish Mgmt 19:127–137Google Scholar
  32. Opuszynski K (1981) Comparison of the usefulness of the silver carp and the bighead carp as additional fish in carp ponds. Aquaculture 25:223–233CrossRefGoogle Scholar
  33. Rav-Acha C, Kummel M, Salamon I, Adin A (1995) The effect of chemical oxidants on effluent constituents for drip irrigation. Wat Res 29(1)119–129CrossRefGoogle Scholar
  34. Ravina I, Sagi G (1993) Water filtration for controlling cloggings in drip irrigation systems. Palgey Mayim Water Works Association, Yoqne’am, Israel, p 28 (in Hebrew)Google Scholar
  35. Ravina I, Paz E, Sagy G, Yechiely Z, Sofer Z, Lavy Z, Marcu A (1990) Filtration requirements for emitter clogging control. Proc. 5th Intern. Conference on Irrig., Tel-Aviv, Israel, pp 223–233Google Scholar
  36. Ravina I, Paz E, Sofer Z, Marcu A, Shisha A, Sagi G (1992) Control of emitter clogging in drip irrigation with reclaimed wastewater. Irrig Sci 13:129–139CrossRefGoogle Scholar
  37. Sagi G (1992) The effect of filter feeding fish on water quality in irrigation reservoirs. Agricult Wat Mgmt 22:369–378CrossRefGoogle Scholar
  38. Sagi G (1993) Fish for water quality control in irrigation reservoirs. Pro. 6th Intern. Conference on Irrig., Tel-Aviv, Israel, pp 231–246Google Scholar
  39. Sommerfeld MR, Adamson RP (1982) Influence of stabilizer concentration on effectiveness of chlorine as an algicide. Appl Envir Microbiol 43(2)497–499Google Scholar
  40. Sukenik A, Teltsch B, Wachs AW, Shelef G, Nir I, Levanon D (1987) Effect of oxidants on microalgal flocculation. Wat Res 21(5)533–539CrossRefGoogle Scholar
  41. Teltsch B, Leventer H (1993) The use of fish for biological control of supply reservoirs. In: Qian Yi, Hao Jiming, Long Jun (eds) Proc. of Word Congress III on Enging. Environ., Beijing, China, International Academic Publishers, China, pp 397–404Google Scholar
  42. Teltsch B, Ben-Harim I, Eren J, Leventer H (1989) Short term effects of nutrient enrichment on the quality of irrigation water. Wat Res 23(6)719–724CrossRefGoogle Scholar
  43. Teltsch B, Juanicó M, Azov Y, Ben-Harim I, Shelef G (1991) The clogging capacity of reclaimed wastewater: A new quality criterion for drip irrigation. Wat Sci Tech 24(9):123–131Google Scholar
  44. Teltsch B, Azov Y, Juanico M, Shelef G (1992) Plankton community changes due to the addition of treated effluents to a freshwater reservoir used for drip irrigation. Wat Res 26(5)657–668CrossRefGoogle Scholar
  45. Tubbing DMJ, Admiraal W, Cleven RFM, Iqbal M (1994) The contribution of complexed copper to the metabolic inhibition of algae and bacteria in synthetic media and river water. Wat Res 28(1)37–44CrossRefGoogle Scholar
  46. Verkade SD, Fitzpatrick GE (1986) Trickle irrigation: Is it for you. American Nurseryman, 163(11) 114–116,118-120Google Scholar
  47. Wodowski I (1991) The filterability test as a means for localization of the causes for screen filter clogging. Thesis presented to The Hebrew University of Jerusalem, in partial fulfilment of the requirements for the degree of Master of Science (in Hebrew)Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1999

Authors and Affiliations

  • Benjamin Teltsch

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