Some knowledges of chlorine dioxide

2020-09-26 10:07

1.1 What are chlorine dioxide and chlorite?


Chlorine dioxide is a yellow to reddishyellow gas that can decompose rapidly in air.

Because it is a hazardous gas, chlorine dioxide is always made at the location where it is used.

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Chlorine dioxide is used as a bleach at pulp mills, which make paper and paper products, and in public watertreatment facilities, to make water safe for drinking.

It has also been used to decontaminate public buildings.

Chlorine dioxide is soluble in water and will react rapidly with other compounds.

When it reacts in water, chlorine dioxide forms chlorite ion, which is also a very reactive chemical. Because chlorine dioxide is very reactive, it is able to kill bacteria and microorganisms in water. About 5% of large watertreatment facilities (serving more than 100,000 persons) in the United States use chlorine dioxide to treat drinking water.

An estimated 12 million persons may be exposed in this way to chlorine dioxide and chlorite ions. In communities that use chlorine dioxide to treat drinking water, chlorine dioxide and its by-product, chlorite ions, may be present at low levels in tap water.

In this profile, the term "chlorite" will be used to refer to "chlorite ion," which is a water-soluble ion.Chlorite ion can combine with metal ions to form solid salts (e.g., sodium chlorite).

Sodium chlorite dissolves in water and forms chlorite ions and sodium ions. More than 80% of all chlorite (present as sodium chlorite) is used to make chlorine dioxide to disinfect drinking water. Sodium chlorite is also used as a disinfectant to kill germs.


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1.2 What happens to chlorine dioxide and chlorite when they enter the environment?


Chlorine dioxide is a very reactive compound.

In air, sunlight quickly breaks chlorine dioxide apart into chlorine gas and oxygen.

In water, chlorine dioxide reacts quickly to form chlorite ions. When chlorine dioxide reacts with dissolved organic compounds in watertreatment systems, it forms disinfection byproducts, such as chlorite and chlorate ions.

Like chlorine dioxide, chlorite is very reactive. Since chlorite is an ionic compound, it will exist primarily in water.Chlorite ions are mobile in water, and may move into groundwater.

However, the reaction of chlorite ions with soils and sediments may reduce the concentration of chlorite ions capable of reaching groundwater.


1.3 How might I be exposed to chlorine dioxide and chlorite?


Chlorine dioxide is added to drinking water to protect people from harmful bacteria and other microorganisms.

Most people will be exposed to chlorine dioxide and its disinfection byproduct, chlorite ions, when they drink water that has been treated with chlorine dioxide.

The EPA has set the maximum concentration in the drinking water at 0.8 milligrams per liter (mg/L) for chlorine dioxide and 1.0 mg/L for chlorite ion. The concentrations of chlorine dioxide and chlorite ion in your drinking water, however, may be lower or higher than these levels.




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1.4 How can chlorine dioxide and chlorite enter and leave my body?


Chlorine dioxide and chlorite usually enter the body when people drink water that has been disinfected with chlorine dioxide. Because chlorine dioxide rapidly breaks down in air to chlorine gas and oxygen, you would not likely breathe air containing dangerous levels of chlorine dioxide, but if you did, it could be absorbed across your lungs.

You are not likely to encounter chlorite in the air you breathe. Whether chlorine dioxide or chlorite on your skin would be absorbed to any great extent is not known.

Both chlorine dioxide and chlorite act quickly when they enter the body. Chlorine dioxide quickly changes to chlorite ions, which are broken down further into chloride ions. The body uses these ions for many normal purposes. Some chloride ions leave the body within hours or days, mainly in the urine. Most chlorite that is not broken down also leaves the body in the urine within a few days after exposure to chlorine dioxide or chlorite.


1.5 How can chlorine dioxide and chlorite affect my health?


Both chlorine dioxide and chlorite react quickly in water and moist body tissues. If you were to breathe air containing chlorine dioxide gas, you might experience irritation in your nose, throat, and lungs. If you were to eat or drink large amounts of chlorine dioxide or chlorite, you might experience irritation in the mouth, esophagus, or stomach. Most people will not be exposed to chlorine dioxide or chlorite in amounts large enough to damage other parts of the body, but if you were, you might experience shortness of breath and other respiratory problems because of damage to the substances in blood that carry oxygen throughout the body.

Scientists use many tests to protect the public from harmful effects of toxic chemicals and to find ways for treating persons who have been harmed.

One way to learn whether a chemical will harm people is to determine how the body absorbs, uses, and releases the chemical. For some chemicals, animal testing may be necessary. Animal testing may also help identify health effects such as cancer or birth defects. Without laboratory animals, scientists would lose a basic method for getting information needed to make wise decisions that protect public health. Scientists have the responsibility to treat research animals with care and compassion. Scientists must comply with strict animal care guidelines because laws today protect the welfare of research animals.

Animal studies have shown effects of chlorine dioxide and chlorite that are similar to those seen in people exposed to very high amounts of these chemicals. In addition, exposure to high levels of chlorine dioxide and chlorite in animals both before birth and during early development after birth may cause delays in brain development. The levels to which the animals were exposed were much higher than levels that would likely be found in drinking water that has been disinfected with chlorine dioxide.