Tritiated water

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Tritium oxide

Names
IUPAC name [3H]2-water
Systematic IUPAC name (3H2)Water
Other names Super-heavy water Tritium oxide Ditritium oxide
Identifiers
CAS Number	14940-65-9 N
3D model ( JSmol )	Interactive image
ChEBI	CHEBI:29374 N
ChemSpider	94563 N
MeSH	tritium+oxide
PubChem CID	104752
CompTox Dashboard (EPA)	DTXSID80894747
InChI InChI=1S/H2O/h1H2/i/hT2 N Key: XLYOFNOQVPJJNP-PWCQTSIFSA-N N
SMILES [3H]O[3H]
Properties
Chemical formula	T2O or 3H2O
Molar mass	22.0315 g·mol−1
Appearance	Colorless liquid[1]
Density	1.21 g/mL
Melting point	4.48 °C (40.06 °F; 277.63 K)[2] [3][4]
Boiling point	101.51 °C (214.72 °F; 374.66 K)
Hazards
Occupational safety and health (OHS/OSH):
Main hazards	corrosive and radioactive
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). N verify (what is YN ?) Infobox references

Tritiated water is a

The name super-heavy water helps distinguish the tritiated material from heavy water, which contains deuterium instead.

Applications

Tritiated water can be used to measure the total volume of water in one's body. Tritiated water distributes itself into all body compartments relatively quickly. The concentration of tritiated water in urine is assumed to be similar to the concentration of tritiated water in the body. Knowing the original amount of tritiated water that was ingested and the concentration, one can calculate the volume of water in the body.

• Amount of tritiated water (
  ml
  )
• Volume of body water (ml) = [Amount of tritiated water (mg) − Amount excreted (mg)] / Concentration of tritiated water (mg/ml)

Health risks

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The tritium contained in tritiated water (HTO) is radioactive and a low energy beta emitter.

While HTO is produced naturally by cosmic ray interactions in the stratosphere, it is also produced by human activities and can increase local concentrations and be considered an air and water pollutant. Anthropogenic sources of tritiated water include nuclear weapons testing, nuclear power plants, nuclear fuel reprocessing plants and consumer products such as self-illuminating watches and signs.

HTO has a short biological half-life in the human body of 7 to 14 days, which both reduces the total effects of single-incident ingestion and precludes long-term bioaccumulation of HTO from the environment. The biological half life of tritiated water in the human body, which is a measure of body water turn-over, varies with the season. Studies on the biological half life of occupational radiation workers for free water tritium in a coastal region of Karnataka, India, show that the biological half life in the winter season is twice that of the summer season.

If tritium exposure is suspected or known, drinking uncontaminated water will help replace the tritium from the body. Increasing sweating, urination or breathing can help the body expel water and thereby the tritium contained in it. However, care should be taken that neither

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