Chemistry:Cloth filter

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Short description: Method to decontaminate drinking water
Women at a village pond in Matlab, Bangladesh washing utensils and vegetables. The woman on the right is putting a sari filter onto a water-collecting pot (or kalash) to filter water for drinking.

A cloth filter is a simple and cost-effective appropriate technology method for reducing the contamination of drinking water, developed for use mainly in Bangladesh. Water collected in this way has a greatly reduced pathogen count. Though not always perfectly safe, it is an improvement for poor people with limited options.

Filtering water to free it from micro-organisms has been an age-old practice among Jains who carefully remove the micro-organisms in the cloth through filtered water in order to follow doctrine of Ahimsa or non-violence, preventing pain to any living creature.

Method

The method used in Bangladesh is as follows: cloth is folded to make four or eight layers and the folded cloth is placed over a wide-mouthed container used to collect surface water. After use, it is usually sufficient to rinse the cloth and dry it in the sun for a couple of hours. In the monsoon seasons, it may be advisable to use a cheap disinfectant to decontaminate the material.

The preferred cloth is used cotton sari cloth. Other types of clean, used cloth can be used with some effect, though the effectiveness will vary significantly. Used cloth is more effective than new cloth, as the repeated washing reduces the space between the fibers.[1]

Effectiveness

The cloth is effective because most pathogens are attached to particles and plankton, particularly a type of zooplankton called copepods, within the water. By passing the water through an effective filter, most cholera bacteria and other pathogens are removed. It has been demonstrated to greatly reduce cholera infections in poor villages where disinfectants and fuel for boiling are difficult to get.

In sub-Saharan Africa where guinea worm infections (dracunculiasis) are endemic, infection is prevented by use of a nylon mesh with pore size of approximately 150 μm to filter out the copepods that host the parasite.[2][3][4]

An old folded cotton sari creates a smaller effective mesh size (approximately 20-μm). This should be small enough to remove all zooplankton, most phytoplankton, and thus a large proportion of the cholera in the water (99%, according to laboratory studies). However, the nylon net with the larger mesh size was found to be "almost equally effective."[2]

The cloth filter provides less than ideal purification on its own - usually filtering is an initial step, to be followed by further disinfection. However, where there are no other options, water professionals may consider that it is "of course, better than nothing" [5]

Background

The cloth filter has been studied and reported on by Rita Colwell and Anwar Huq from the University of Maryland Biotechnology Institute, together with other researchers from the United States and Bangladesh. They report that: "It is common practice in villages in Bangladesh to use cloth, frequently a flat, unfolded piece of an old sari, to filter home-prepared drinks".[2]

The researchers studied the application of this technique to drinking water, with folded cloth. They studied the pore size of the cloth, the effect of folding the cloth on the effective pore size, the ability of the cloth to remove particles and plankton, as well as the effect on rates of cholera when used in a Bangladesh village.[6]

See also

References

  1. Moss J (January 27, 2003). "Cloth Filters Fight Cholera". Development Report (Voice of America). Archived from the original on August 4, 2012. https://archive.today/20120804132758/http://www.manythings.org/voa/03/030127dr_t.htm. 
  2. 2.0 2.1 2.2 "Reduction of cholera in Bangladeshi villages by simple filtration". Proc Natl Acad Sci USA 100 (3): 1051–5. February 2003. doi:10.1073/pnas.0237386100. PMID 12529505. Bibcode2003PNAS..100.1051C. 
  3. "Fighting the 'fiery serpent' in Sudan". ABC News. Reuters (Australian Broadcasting Corporation). June 6, 2008. http://www.abc.net.au/news/stories/2008/06/06/2267262.htm. "The Carter Center distributes cloth filters and plastic drinking pipes with gauze at one end to block the larvae." 
  4. "Dracunculiasis eradication: and now, Sudan". Am. J. Trop. Med. Hyg. 67 (4): 415–22. October 2002. doi:10.4269/ajtmh.2002.67.415. PMID 12452497. http://www.ajtmh.org/cgi/pmidlookup?view=long&pmid=12452497. "More than 278,000 cloth filters for household use in preventing the infection were distributed in Sudan in 1995 (compared with 93,000 the year before), and approximately 600,000 or more have been distributed each year since then. In 2001, however, in addition to distributing nearly 850,000 filters for household use, more than 7.8 million pipe filters were also distributed throughout endemic areas ....". 
  5. Hogan J (13 January 2003). "Old clothes filter out cholera". New Scientist. https://www.newscientist.com/article.ns?id=dn3258. 
  6. Huq, Anwar; Mohammed Yunus; Syed Salahuddin Sohel; Abbas Bhuiya; Michael Emch; Stephen P. Luby; Estelle Russek-Cohen; G. Balakrish Nair et al. (2010). "Simple sari cloth filtration of water is sustainable and continues to protect villagers from cholera in Matlab, Bangladesh". mBio 1 (1): e00034-10. doi:10.1128/mbio.00034-10. PMID 20689750. PMC 2912662. http://intl-mbio.asm.org/content/1/1/e00034-10.full. 

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