Difference between revisions of "De-fluoridation"
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− | [[Image:de-fluor icon.png|right| | + | [[Image:de-fluor icon.png|right|80px]] |
− | [[Image:defluoridation unit.jpg|thumb|right| | + | [[Image:defluoridation unit.jpg|thumb|right|200px|Household defluoridation unit (HDU). <br>Photo: ADDIS ABABA UNIVERSITY.]] |
− | [[Image:defluoridator.jpg|thumb|right| | + | [[Image:defluoridator.jpg|thumb|right|200px|The EnDeCo Institutional Defluoridator. It can be made at any desired capacity, normally in the range >20 m3 for a raw water fluroide of 5 mg/L. Photo: [http://www.de-fluoride.net/defluoridation.html De-fluoride.net.]]] |
− | [[Image:contact precipitation unit.jpg|thumb|right| | + | [[Image:contact precipitation unit.jpg|thumb|right|200px| A Contact Precipitation Unit set up as a demonstration plant and run for a couple of years. Since, it has been operating as a simple Bone Char community plant. <br>Photo: [http://www.de-fluoride.net/defluoridation.html De-fluoride.net.]]] |
− | __NOTOC__ | + | __NOTOC__ <small-title /> |
High levels of fluoride in groundwater has been reported parts of in Ethiopia, Malawi, Kenya and Tanzania and can lead to health problems including dental fluorosis, osteosclerosis, thyroid problems, growth retardation and even kidney failure. WHO report shows excessive fluoride intake (3-6 mg/L) can lead to severe and permanent bone and joint deformations of skeletal fluorosis and the consumption of drinking water with even higher fluoride concentrations (10 mg/L) can lead to crippling fluorosis, which causes the hardening and calcifying of the bones. | High levels of fluoride in groundwater has been reported parts of in Ethiopia, Malawi, Kenya and Tanzania and can lead to health problems including dental fluorosis, osteosclerosis, thyroid problems, growth retardation and even kidney failure. WHO report shows excessive fluoride intake (3-6 mg/L) can lead to severe and permanent bone and joint deformations of skeletal fluorosis and the consumption of drinking water with even higher fluoride concentrations (10 mg/L) can lead to crippling fluorosis, which causes the hardening and calcifying of the bones. | ||
Most of the methods currently available for the removal of fluoride from drinking water are either too expensive, are technically unfeasible for household use or change the water quality. The removal of fluoride from water using aluminium hydroxide has been investigated and a household defluoridation unit (HDU) has been designed and tested. | Most of the methods currently available for the removal of fluoride from drinking water are either too expensive, are technically unfeasible for household use or change the water quality. The removal of fluoride from water using aluminium hydroxide has been investigated and a household defluoridation unit (HDU) has been designed and tested. | ||
− | ==Suitable conditions== | + | ===Suitable conditions=== |
Treatment at household level has several advantages over treatment at community level. Costs are lower, as defluoridation can be restricted to the demand for cooking and drinking which is usually less than the total water demand and make people a sense of ownership. This treatment option may be feasible in less developed countries especially in rural areas, where settlements are scattered. | Treatment at household level has several advantages over treatment at community level. Costs are lower, as defluoridation can be restricted to the demand for cooking and drinking which is usually less than the total water demand and make people a sense of ownership. This treatment option may be feasible in less developed countries especially in rural areas, where settlements are scattered. | ||
Treatment of fluoride contaminated water at the source is carried out on a large scale under the supervision of skilled personnel, without direct involvement of the users, and where the affordability of treatment is taken for granted. In such cases the method of treatment is well established and well controlled. However, it requires major input of resources and may have serious limitations or disadvantages in less-developed countries; especially in rural areas where the settlements are scattered. This is especially adopted in developed countries. | Treatment of fluoride contaminated water at the source is carried out on a large scale under the supervision of skilled personnel, without direct involvement of the users, and where the affordability of treatment is taken for granted. In such cases the method of treatment is well established and well controlled. However, it requires major input of resources and may have serious limitations or disadvantages in less-developed countries; especially in rural areas where the settlements are scattered. This is especially adopted in developed countries. | ||
− | ==Construction, operations and maintenance== | + | ===Construction, operations and maintenance=== |
− | [[Image: Nalgonda technique.jpg|thumb|right| | + | [[Image: Nalgonda technique.jpg|thumb|right|200px|The Nalgonda Technique diagram.<br> Photo: [http://www.de-fluoride.net/defluoridation.html De-fluoride.net.]]] |
There are several methods which have been developed to reduce fluoride from contaminated water, such as adsorption, ion exchange, precipitation, electrodialysis and reverse osmosis. These methods have rarely been implemented in developing countries, except in some areas, due to insufficient removal efficiency, unaffordable costs, complicated operation and maintenance, particularly for rural populations. | There are several methods which have been developed to reduce fluoride from contaminated water, such as adsorption, ion exchange, precipitation, electrodialysis and reverse osmosis. These methods have rarely been implemented in developing countries, except in some areas, due to insufficient removal efficiency, unaffordable costs, complicated operation and maintenance, particularly for rural populations. | ||
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[[File:fluoride absorbers.jpg|thumb|none|500px|Materials that absorb fluoride. Chart:[http://www.de-fluoride.net/defluoridation.html De-fluoride.net.]]] | [[File:fluoride absorbers.jpg|thumb|none|500px|Materials that absorb fluoride. Chart:[http://www.de-fluoride.net/defluoridation.html De-fluoride.net.]]] | ||
− | ==Field experiences== | + | ===Field experiences=== |
In the Rift Valley regions of Ethiopia where there is a high fluoride concentration, the settlement of the people in the rural areas is scattered. Therefore to combat the problem of fluorosis household treatment system is a reasonable approach. Thus it is necessary to develop a household scale defluoridation unit that can be applicable in these areas. | In the Rift Valley regions of Ethiopia where there is a high fluoride concentration, the settlement of the people in the rural areas is scattered. Therefore to combat the problem of fluorosis household treatment system is a reasonable approach. Thus it is necessary to develop a household scale defluoridation unit that can be applicable in these areas. | ||
− | ==Manuals, videos | + | ===Manuals, videos and links=== |
* [http://www.appropedia.org/Water_Defluoridation#cite_note-apptechTZ-32 Water Defluoridation]. A huge amount of information on fluoride in groundwater around the world, and how to remove it. Appropedia.org. | * [http://www.appropedia.org/Water_Defluoridation#cite_note-apptechTZ-32 Water Defluoridation]. A huge amount of information on fluoride in groundwater around the world, and how to remove it. Appropedia.org. | ||
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* [http://docs.watsan.net/Scanned_PDF_Files/Class_Code_2_Water/257-12521.pdf Application of defluoridation plants for rural water supply in North Gujarat (India)]. Master of Science thesis by R A Jethwa. March 1995. | * [http://docs.watsan.net/Scanned_PDF_Files/Class_Code_2_Water/257-12521.pdf Application of defluoridation plants for rural water supply in North Gujarat (India)]. Master of Science thesis by R A Jethwa. March 1995. | ||
− | ==Acknowledgements== | + | ===Acknowledgements=== |
* Wondimagegn, Agegnehu Alemu. [http://www.libsearch.com/view/1301608 DEVELOPMENT OF HOUSEHOLD DEFLUORIDATION UNIT BASED ON ALUMINIUM OXIDE HYDROXIDE.] December, 2008. | * Wondimagegn, Agegnehu Alemu. [http://www.libsearch.com/view/1301608 DEVELOPMENT OF HOUSEHOLD DEFLUORIDATION UNIT BASED ON ALUMINIUM OXIDE HYDROXIDE.] December, 2008. | ||
* Dahi, Eli. [http://www.de-fluoride.net/defluoridation.html Defluoridation.] March, 2009. | * Dahi, Eli. [http://www.de-fluoride.net/defluoridation.html Defluoridation.] March, 2009. |
Revision as of 02:02, 3 October 2013
High levels of fluoride in groundwater has been reported parts of in Ethiopia, Malawi, Kenya and Tanzania and can lead to health problems including dental fluorosis, osteosclerosis, thyroid problems, growth retardation and even kidney failure. WHO report shows excessive fluoride intake (3-6 mg/L) can lead to severe and permanent bone and joint deformations of skeletal fluorosis and the consumption of drinking water with even higher fluoride concentrations (10 mg/L) can lead to crippling fluorosis, which causes the hardening and calcifying of the bones.
Most of the methods currently available for the removal of fluoride from drinking water are either too expensive, are technically unfeasible for household use or change the water quality. The removal of fluoride from water using aluminium hydroxide has been investigated and a household defluoridation unit (HDU) has been designed and tested.
Suitable conditions
Treatment at household level has several advantages over treatment at community level. Costs are lower, as defluoridation can be restricted to the demand for cooking and drinking which is usually less than the total water demand and make people a sense of ownership. This treatment option may be feasible in less developed countries especially in rural areas, where settlements are scattered.
Treatment of fluoride contaminated water at the source is carried out on a large scale under the supervision of skilled personnel, without direct involvement of the users, and where the affordability of treatment is taken for granted. In such cases the method of treatment is well established and well controlled. However, it requires major input of resources and may have serious limitations or disadvantages in less-developed countries; especially in rural areas where the settlements are scattered. This is especially adopted in developed countries.
Construction, operations and maintenance
There are several methods which have been developed to reduce fluoride from contaminated water, such as adsorption, ion exchange, precipitation, electrodialysis and reverse osmosis. These methods have rarely been implemented in developing countries, except in some areas, due to insufficient removal efficiency, unaffordable costs, complicated operation and maintenance, particularly for rural populations.
The most common defluoridation methods used in developing countries at present are sorption on activated alumina, co-precipitation with aluminium hydroxide (known as the Nalgonda Technique) and sorption on bone char.
Field experiences
In the Rift Valley regions of Ethiopia where there is a high fluoride concentration, the settlement of the people in the rural areas is scattered. Therefore to combat the problem of fluorosis household treatment system is a reasonable approach. Thus it is necessary to develop a household scale defluoridation unit that can be applicable in these areas.
Manuals, videos and links
- Water Defluoridation. A huge amount of information on fluoride in groundwater around the world, and how to remove it. Appropedia.org.
- Groundwater fluoride levels in villages of Southern Malawi and removal studies using bauxite. International Journal of Physical Sciences Vol. 3 (1), pp. 001-011, January, 2008.
- Defluoridation of water by a one step modification of the Nalgonda technique or (alternative link). Annals of Tropical Medicine and Public Health.
- Application of defluoridation plants for rural water supply in North Gujarat (India). Master of Science thesis by R A Jethwa. March 1995.
Acknowledgements
- Wondimagegn, Agegnehu Alemu. DEVELOPMENT OF HOUSEHOLD DEFLUORIDATION UNIT BASED ON ALUMINIUM OXIDE HYDROXIDE. December, 2008.
- Dahi, Eli. Defluoridation. March, 2009.