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=Solar Water Disinfection System with Solar heating= | =Solar Water Disinfection System with Solar heating= | ||
Similar to [http://www.sodis.ch/ Solar Water Disinfection System] initiated by [http:// | Similar to [http://www.sodis.ch/ Solar Water Disinfection System (SODIS)] initiated by Professor [http://ddc.aub.edu.lb/projects/health/solar-water/acra.html Aftim Acra], Solar Water Disinfection System with solar heating is a water purification system at household level based on solar radiations with additional use of solar heating. Since SODIS is only ideal to disinfect small quantities of micro-biologically contaminated water of low turbidity, a solar heated distillation process is combined with the conventional SODIS. Contaminated water is first distilled by using a solar heated low-temperature distillation system to remove any non-volatile solid impurities such as salts, sediment and heavy metals. However, the distilled water is not drinkable since the water may still contain bacteria, viruses and in some cases protozoans. To address this problem, the distilled water is then contained in clean and transparent PET bottles or glass bottles and are exposed to the sun light for a certain amount time (depending on the intensity of the sun light) allowing the radiations to deactivate any [http://en.wikipedia.org/wiki/Waterborne_diseases waterborne pathogens]<ref>[http://www.who.int/water_sanitation_health/gdwqrevision/watborpath/en/index.html Waterborne pathogens,WHO]</ref> in the contaminated water. Solar water disinfection is an effective way to purify drinking water as it is recommended by [http://www.who.int/en/ World Health Organization]<ref>[http://www.who.int/household_water/research/technologies_intro/en/ World Health Organization]</ref>. It uses only solar energy and can be built using only recycling materials, thus, the system is environmentally sustainable. | ||
==Theory== | ==Theory== | ||
The principle of SODIS is based on [http://www.appropedia.org/Uv_water_treatment#Aftim_Acra_.26_SODIS Ultraviolet water treatment ]. It uses two components of the sunlight for the water disinfection process :[http://en.wikipedia.org/wiki/Ultraviolet Ultraviolet radiation]and [http://en.wikipedia.org/wiki/Infrared_radiation infrared radiation]. UV-A radiation(wavelength 320-400 nm) interacts with the DNA, nucleic acids and enzymes of the organic cell, destroys the cell molecular structures which leads to cell deaths. UV-A radiation also reacts with oxygen dissolved in the water producing highly reactive forms of oxygen (oxygen free radicals and [http://en.wikipedia.org/wiki/Hydrogen_peroxide Hydrogen peroxide]], that can help the germicidal process. Infrared radiation is a long-wave form of sun radiation, it can be felt as heat, as it is responsible for raising the fluid temperature. Studies had proven that 99.9%<ref>http://www.searo.who.int/en/Section1257/Section2263/info-kit/SODIS_Manual_med.pdf Solar Disinfection System Manual by EAWAG and SANEC</ref> of microorganisms within water are eliminated if the water is heat heated to 50-60°C for one hour. | |||
UV-A radiation directly interacts with the DNA, nucleic acids | |||
and enzymes of the living cells, changes the molecular | |||
structure and leads to cell death. UV radiation also reacts | |||
with oxygen dissolved in the water and produces highly | |||
reactive forms of oxygen (oxygen free radicals and hydrogen | |||
peroxides). These reactive molecules also interfere with cell | |||
structures and kill the pathogens. | |||
for anti bacterial propos | |||
has a germicidal effect. | |||
The second component, infrared radiation, raises the water | |||
temperature and is known as | |||
Contaminated | |||
water is fi lled into transparent | |||
plastic bottles and exposed | |||
to full sunlight for six hours. | |||
During the exposure to the | |||
sun the pathogens are | |||
destroyed. If cloudyness is | |||
greater than 50% , the plastic | |||
bottles need to be exposed | |||
for 2 consecutive days in | |||
order to produce water safe | |||
for consumption. However, if | |||
water temperatures exceed | |||
50°C, one hour of exposure | |||
is suffi cient to obtain safe | |||
drinking water. The treatment | |||
effi ciency can be improved | |||
if the plastic bottles are | |||
exposed on sunlight refl | |||
ecting surfaces such as | |||
aluminium- or corrugated | |||
iron sheets. | |||
== Solar Water Disinfection System Construction== | == Solar Water Disinfection System Construction== | ||
Revision as of 23:19, 28 March 2010
Solar Water Disinfection System with Solar heating
Similar to Solar Water Disinfection System (SODIS) initiated by Professor Aftim Acra, Solar Water Disinfection System with solar heating is a water purification system at household level based on solar radiations with additional use of solar heating. Since SODIS is only ideal to disinfect small quantities of micro-biologically contaminated water of low turbidity, a solar heated distillation process is combined with the conventional SODIS. Contaminated water is first distilled by using a solar heated low-temperature distillation system to remove any non-volatile solid impurities such as salts, sediment and heavy metals. However, the distilled water is not drinkable since the water may still contain bacteria, viruses and in some cases protozoans. To address this problem, the distilled water is then contained in clean and transparent PET bottles or glass bottles and are exposed to the sun light for a certain amount time (depending on the intensity of the sun light) allowing the radiations to deactivate any waterborne pathogens[1] in the contaminated water. Solar water disinfection is an effective way to purify drinking water as it is recommended by World Health Organization[2]. It uses only solar energy and can be built using only recycling materials, thus, the system is environmentally sustainable.
Theory
The principle of SODIS is based on Ultraviolet water treatment . It uses two components of the sunlight for the water disinfection process :Ultraviolet radiationand infrared radiation. UV-A radiation(wavelength 320-400 nm) interacts with the DNA, nucleic acids and enzymes of the organic cell, destroys the cell molecular structures which leads to cell deaths. UV-A radiation also reacts with oxygen dissolved in the water producing highly reactive forms of oxygen (oxygen free radicals and Hydrogen peroxide], that can help the germicidal process. Infrared radiation is a long-wave form of sun radiation, it can be felt as heat, as it is responsible for raising the fluid temperature. Studies had proven that 99.9%[3] of microorganisms within water are eliminated if the water is heat heated to 50-60°C for one hour.
UV-A radiation directly interacts with the DNA, nucleic acids and enzymes of the living cells, changes the molecular structure and leads to cell death. UV radiation also reacts with oxygen dissolved in the water and produces highly reactive forms of oxygen (oxygen free radicals and hydrogen peroxides). These reactive molecules also interfere with cell structures and kill the pathogens.
for anti bacterial propos
has a germicidal effect.
The second component, infrared radiation, raises the water temperature and is known as
Contaminated
water is fi lled into transparent
plastic bottles and exposed
to full sunlight for six hours.
During the exposure to the
sun the pathogens are
destroyed. If cloudyness is
greater than 50% , the plastic
bottles need to be exposed
for 2 consecutive days in
order to produce water safe
for consumption. However, if
water temperatures exceed
50°C, one hour of exposure
is suffi cient to obtain safe
drinking water. The treatment
effi ciency can be improved
if the plastic bottles are
exposed on sunlight refl
ecting surfaces such as
aluminium- or corrugated
iron sheets.
Solar Water Disinfection System Construction
Figures
Bottle Selection
- Transparent, smooth surface PET bottle
- Concerns about PET bottle safety under UV light
Turbid Water Filtration System
Using solar heat evaporation ( Water Distillation)
Turbid Water Filtration System Construction
more Figures
References
- ↑ Waterborne pathogens,WHO
- ↑ World Health Organization
- ↑ http://www.searo.who.int/en/Section1257/Section2263/info-kit/SODIS_Manual_med.pdf Solar Disinfection System Manual by EAWAG and SANEC