20-08-2021, 05:06 AM
The Effectiveness of Home Water Purification Systems on the Amount of Fluoride in Drinking Water
The Effectiveness of Home Water Purification Systems on the Amount of Fluoride in Drinking Water
Statement of the Problem
Laboratory ultrapure water
purification systems for domestic use have drawn significant attention over the past few years. This can be related to
the improvement of public health and concern for water contamination.
Purpose
The aim of this study was to evaluate whether home water purification systems eliminate the essential materials such as
fluoride besides filtrating the heavy ions and other unwanted particles out of water.
Materials and Method
In this experimental study, six most frequently used commercial brands of water purifiers were evaluated and compared.
Specimens were collected right before and after setting up the device, and 6 months later. Then, spectrophotometry (the
Harrison device) was performed to compare fluoride clearance by each home water cleaner device.
Results
Based on the data collected from all water purification devices in different locations, the amount of fluoride was
significantly different before and right after using home water purifier and six months later (p= 0.001 and p= 0.00,
respectively).
Conclusion
The filtration of water significantly decreased its fluoride concentration. The fluoride content of purified
[url=http://www.hhitechlabwater.com/laboratory-ultrapure-water-purification-systems/super-series-ultrapure-water-
system.html]super series iltrapure water system[/url] was approximately as much as zero in some cases.
Fluoride is a natural element branched from Fluorine. This element can be found in all sorts of water and soil. Out of
every kilogram of outer layer of earth, 0.3 gram is fluoride. Mineral waters have more amount of this element compared to
other sources.(1)
About 60 years ago, Grand Rapids in Michigan State was the first city in which fluoride supplement was synthetically
added to tap water. In US, adding fluoride to community water supplies of many cities has improved the oral health of
millions of American citizens.(2)
Fluoridation of community water supplies is adding a specific amount of fluoride (0.7-1.2 ppm) to water in order to
reduce the risk of dental caries. By 2002, almost 170 million Americans were provided with this privilege.(3)
Since most of the systemic fluoride is provided through tap water to population, many policies have been established to
add fluoride to community water regarding its benefits for teeth and bones.(4)
In regions and countries that do not have water-fluoridation technology, there are natural supplements as previously
mentioned. For example, Iran has many mineral water supplies that contain considerable amounts of fluoride. Amount of
fluoride in natural mineral waters depends on weather conditions; the warmer the weather is, the higher the amount of
fluoride can be detected. Mineral waters in southern regions that have warmer weather contain more fluoride. In Iran, the
highest amount of fluoride has been found in southeast and northeast areas.
Water purification systems for domestic use have drawn much of attention over the past few years. This can be related to
improvement of public health and concerns for water contamination. There are several types of home
laboratory reverse osmosis water
purification systems that can be categorized into 3 different groups(5) as filtered systems, systems using UV
irradiation, and ion-exchange systems.
The aim of this study was to find out whether domestic [url=http://www.hhitechlabwater.com/laboratory-deionized-water-
purification-systems/]laboratory deionized water purification systems [/url]could eliminate the essential materials such as
fluoride besides filtrating the heavy ions and other unwanted particles out of water.
Go to:
Materials and Method
In this study, 6 frequently used commercial brands of water purifiers in Ahwaz were compared. The commercial brands
evaluated in the current study were CCK (Ceramic and Ceramic/Carbon Cartridges ; RTX-TS DLM filters, Korea), Soft Water
(Ceramic Candles; Alpine TJ Series filters, W9332420, USA), Alkusar (Special media cartridges filters; PRB50-IN, USA),
Puricom (Special media cartridges filters; Watts 4.5" x 10" Dual Housing, Korea), Water Safe (Granular Carbon
Cartridges filters; LCV (Lead, Cysts, VOC's) (Carbon Block Filter Cartridges, Australia), and Aquafresh (Sediment
String-Wound; Poly Spun and Pleated Washable Cartridges filters, K5520, USA). The main drinking
[url=http://www.hhitechlabwater.com/laboratory-ultrapure-water-purification-systems/dura-pro-series-ultrapure-water-
system.html]dura pro series ultrapure water system[/url] supply for Ahwaz is provided by governmental companies. After making
arrangement with certain companies that supported these brands, the devices were setup in 6 different regions of Ahwaz.
Samples were collected before and right after setting up the device. To reduce the errors and elevate the accuracy of the
module, 5 samples were taken from each device. Another sample was collected from each single device 6 months later. A total
of 64 samples were collected including 32 unfiltered (control) and 32 filtered samples of tap water (experimental) from 6
regions in Ahwaz. Fluoride sampling kits (Spands; EW-99574-08Hach? Test Kits, USA) were used to test the amount of fluoride
in sample waters. Samples were all collected in polyethylene sampling containers and were then coded. Spectrophotometry
(AvaSpec-ULS2048L- USB2 UARS spectrometer, USA) was performed. In order to measure the characteristics of individual
molecules, a mass spectrometer converted them to ions so that they could be moved about and manipulated by external electric
and magnetic fields.
Atmospheric pressure was around 760 torr (mm of mercury). The pressure under which ions may be handled is roughly 10-5 to
10-8 torr (less than a billionth of an atmosphere). By varying the strength of the magnetic field, ions of different mass can
be focused progressively on a detector fixed at the end of a curved tube and also under a high vacuum.
Latin alphabetic words were used to code each commercial device. Numbers were used for samples obtained before and after
setting the device.(6)
The present article gives a review about water purification, filtration techniques and technologies that are practiced
till date. Purification of water is mainly focused because of a sensitive reason that it is one of the essential sources of
survival for all living beings. Water is found in many forms on the earth’s surface, large amount of drinking water is from
lakes and rivers. All living beings need drinking water but human beings need them to be drunk in a purified manner with rich
in minerals and salts. Pure water refers to absence of bacteria and disease causing microorganisms, dissolved metal ions and
heavy impurities. To gain the whole usefulness of drinking water, it should be not only pure but also healthy. Healthy water
refers to presence of nutrients such as minerals and salts that are required to the human body for functioning of body organs
like heart, kidneys and blood circulation freely throughout the body. All the technologies had tried to make water pure but
not healthy. This makes a lot of difference in life cycle before and after drinking only pure water for a longer period. Some
technologies for purification of water chose harmful polymers and dreadful chemical compositions. The then technologies
updated and entered into the nanotechnology and polymers for water purification and filtration. Reverse Osmosis is base for
any purification process that uses semi permeable membrane which contains ultra, micro and nano porous membranes which
removes bacteria and microbes as well as minerals and salts. This RO processed water may cause illness on consuming for a
long time continuously. Hence some fiber composites and mineral cartridges were introduced to overcome to add minerals and
salts to water. All these techniques adopted for purification of water and usage of fiber composites, polymer membranes are
reviewed in this article with defects in them that might cause a lot of damage to mankind.
The Effectiveness of Home Water Purification Systems on the Amount of Fluoride in Drinking Water
Statement of the Problem
Laboratory ultrapure water
purification systems for domestic use have drawn significant attention over the past few years. This can be related to
the improvement of public health and concern for water contamination.
Purpose
The aim of this study was to evaluate whether home water purification systems eliminate the essential materials such as
fluoride besides filtrating the heavy ions and other unwanted particles out of water.
Materials and Method
In this experimental study, six most frequently used commercial brands of water purifiers were evaluated and compared.
Specimens were collected right before and after setting up the device, and 6 months later. Then, spectrophotometry (the
Harrison device) was performed to compare fluoride clearance by each home water cleaner device.
Results
Based on the data collected from all water purification devices in different locations, the amount of fluoride was
significantly different before and right after using home water purifier and six months later (p= 0.001 and p= 0.00,
respectively).
Conclusion
The filtration of water significantly decreased its fluoride concentration. The fluoride content of purified
[url=http://www.hhitechlabwater.com/laboratory-ultrapure-water-purification-systems/super-series-ultrapure-water-
system.html]super series iltrapure water system[/url] was approximately as much as zero in some cases.
Fluoride is a natural element branched from Fluorine. This element can be found in all sorts of water and soil. Out of
every kilogram of outer layer of earth, 0.3 gram is fluoride. Mineral waters have more amount of this element compared to
other sources.(1)
About 60 years ago, Grand Rapids in Michigan State was the first city in which fluoride supplement was synthetically
added to tap water. In US, adding fluoride to community water supplies of many cities has improved the oral health of
millions of American citizens.(2)
Fluoridation of community water supplies is adding a specific amount of fluoride (0.7-1.2 ppm) to water in order to
reduce the risk of dental caries. By 2002, almost 170 million Americans were provided with this privilege.(3)
Since most of the systemic fluoride is provided through tap water to population, many policies have been established to
add fluoride to community water regarding its benefits for teeth and bones.(4)
In regions and countries that do not have water-fluoridation technology, there are natural supplements as previously
mentioned. For example, Iran has many mineral water supplies that contain considerable amounts of fluoride. Amount of
fluoride in natural mineral waters depends on weather conditions; the warmer the weather is, the higher the amount of
fluoride can be detected. Mineral waters in southern regions that have warmer weather contain more fluoride. In Iran, the
highest amount of fluoride has been found in southeast and northeast areas.
Water purification systems for domestic use have drawn much of attention over the past few years. This can be related to
improvement of public health and concerns for water contamination. There are several types of home
laboratory reverse osmosis water
purification systems that can be categorized into 3 different groups(5) as filtered systems, systems using UV
irradiation, and ion-exchange systems.
The aim of this study was to find out whether domestic [url=http://www.hhitechlabwater.com/laboratory-deionized-water-
purification-systems/]laboratory deionized water purification systems [/url]could eliminate the essential materials such as
fluoride besides filtrating the heavy ions and other unwanted particles out of water.
Go to:
Materials and Method
In this study, 6 frequently used commercial brands of water purifiers in Ahwaz were compared. The commercial brands
evaluated in the current study were CCK (Ceramic and Ceramic/Carbon Cartridges ; RTX-TS DLM filters, Korea), Soft Water
(Ceramic Candles; Alpine TJ Series filters, W9332420, USA), Alkusar (Special media cartridges filters; PRB50-IN, USA),
Puricom (Special media cartridges filters; Watts 4.5" x 10" Dual Housing, Korea), Water Safe (Granular Carbon
Cartridges filters; LCV (Lead, Cysts, VOC's) (Carbon Block Filter Cartridges, Australia), and Aquafresh (Sediment
String-Wound; Poly Spun and Pleated Washable Cartridges filters, K5520, USA). The main drinking
[url=http://www.hhitechlabwater.com/laboratory-ultrapure-water-purification-systems/dura-pro-series-ultrapure-water-
system.html]dura pro series ultrapure water system[/url] supply for Ahwaz is provided by governmental companies. After making
arrangement with certain companies that supported these brands, the devices were setup in 6 different regions of Ahwaz.
Samples were collected before and right after setting up the device. To reduce the errors and elevate the accuracy of the
module, 5 samples were taken from each device. Another sample was collected from each single device 6 months later. A total
of 64 samples were collected including 32 unfiltered (control) and 32 filtered samples of tap water (experimental) from 6
regions in Ahwaz. Fluoride sampling kits (Spands; EW-99574-08Hach? Test Kits, USA) were used to test the amount of fluoride
in sample waters. Samples were all collected in polyethylene sampling containers and were then coded. Spectrophotometry
(AvaSpec-ULS2048L- USB2 UARS spectrometer, USA) was performed. In order to measure the characteristics of individual
molecules, a mass spectrometer converted them to ions so that they could be moved about and manipulated by external electric
and magnetic fields.
Atmospheric pressure was around 760 torr (mm of mercury). The pressure under which ions may be handled is roughly 10-5 to
10-8 torr (less than a billionth of an atmosphere). By varying the strength of the magnetic field, ions of different mass can
be focused progressively on a detector fixed at the end of a curved tube and also under a high vacuum.
Latin alphabetic words were used to code each commercial device. Numbers were used for samples obtained before and after
setting the device.(6)
The present article gives a review about water purification, filtration techniques and technologies that are practiced
till date. Purification of water is mainly focused because of a sensitive reason that it is one of the essential sources of
survival for all living beings. Water is found in many forms on the earth’s surface, large amount of drinking water is from
lakes and rivers. All living beings need drinking water but human beings need them to be drunk in a purified manner with rich
in minerals and salts. Pure water refers to absence of bacteria and disease causing microorganisms, dissolved metal ions and
heavy impurities. To gain the whole usefulness of drinking water, it should be not only pure but also healthy. Healthy water
refers to presence of nutrients such as minerals and salts that are required to the human body for functioning of body organs
like heart, kidneys and blood circulation freely throughout the body. All the technologies had tried to make water pure but
not healthy. This makes a lot of difference in life cycle before and after drinking only pure water for a longer period. Some
technologies for purification of water chose harmful polymers and dreadful chemical compositions. The then technologies
updated and entered into the nanotechnology and polymers for water purification and filtration. Reverse Osmosis is base for
any purification process that uses semi permeable membrane which contains ultra, micro and nano porous membranes which
removes bacteria and microbes as well as minerals and salts. This RO processed water may cause illness on consuming for a
long time continuously. Hence some fiber composites and mineral cartridges were introduced to overcome to add minerals and
salts to water. All these techniques adopted for purification of water and usage of fiber composites, polymer membranes are
reviewed in this article with defects in them that might cause a lot of damage to mankind.