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Radiation in the spectrum of UV-A (wavelength 320-400nm) and increased water temperature. Both factors cause damage to the DNA of the pathogens. The effects are also synergistic - the DNA being more prone to UV damage if the temperature is very high. If the water temperatures raises above 50°C, the disinfection process is three times faster, and much better results are obtained from  
Radiation in the spectrum of UV-A (wavelength 320-400nm) and increased water temperature. Both factors cause damage to the DNA of the pathogens. The effects are also synergistic - the DNA being more prone to UV damage if the temperature is very high. If the water temperatures raises above 50°C, the disinfection process is three times faster, and much better results are obtained from  


Certain pathogens such as [[giardia]],{{wp sup|giardia}} however, are not easily killed by UV. For these, the heat is more important,{{fact}} and other steps such as [[filtration|filtering]] might also be considered.
Certain pathogens such as [[giardia]],{{wp sup|giardia}} however, are not easily killed by UV. For these, the heat is more important,{{fact}}.


==Usability==
==Usability==

Revision as of 06:47, 7 June 2010

Solar water disinfection, also known as solar water pasteurisation or SODIS, is a method of disinfecting drinking water using the heat and (usually) the UV light of the sun. It is a very simple and low cost way of disinfecting small volumes of water.

Radiation in the spectrum of UV-A (wavelength 320-400nm) and increased water temperature. Both factors cause damage to the DNA of the pathogens. The effects are also synergistic - the DNA being more prone to UV damage if the temperature is very high. If the water temperatures raises above 50°C, the disinfection process is three times faster, and much better results are obtained from

Certain pathogens such as giardia,W however, are not easily killed by UV. For these, the heat is more important,[verification needed].

Usability

  • Keep in mind that SODIS is only intented as a disinfection method. When the water is highly turbid, additional steps (filtering) is necessairy.[1]

SODIS - solar water disinfecting with soda bottles and sunlight

Solar water disinfection, or SODISW, is a method to disinfect water using sunlight and PET bottles.


  • Water from contaminated sources are filled into transparent water bottles. For oxygen saturation, bottles can be filled three quarters, then shaken for 20 seconds (with the cap on), then filled completely. Highly turbid water (turbidity higher than 30 NTU) must be filtered prior to exposure to the sunlight.
  • Filled bottles are then exposed to the sun. Better temperature effects can be achieved if bottles are placed on a corrugated roof as compared to thatched roofs.
  • The treated water can be consumed. The risk of re-contamination can be minimized if water is stored in the bottles. The water should be consumed directly from the bottle or poured into clean drinking cups. Re-filling and storage in other containers increases the risk of contamination.

Effectiveness can be increased by placing on a dark or reflective surface, e.g.

  • a roof made of corrugated metal.
  • or by painting half the bottle black, such that when laying down the clear half is facing the sky.

Using reflectors

Enhancement of Solar Water Pasteurization with Reflectors, Negar Safapourdagger and Robert H. Metcalf, 1998, Department of Biological Sciences, California State University Sacramento, Sacramento, California.

This uses simple cardboard based reflectors and a black jug. Heat is considered by the authors to be the more reliable mechanism for disinfection.

See also: CPCs

History

Prof Aftim Acra of Lebanon researched this technique beginning in 1979. See Cleaning water with sunshine, Robert Bourgoing, IDRC Reports, April 1989. (or http://www.appropedia.org/Special:Userlogin%26type%3Dsignup get one now the original format with image, in PDF.) See also An Interview with Aftim Acra, Professor Emeritus of Environmental Sciences, Winter 2004.

Interwiki links

Interwiki links

External links

Project links

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