Published online by Cambridge University Press: 04 April 2003
The emissions to the atmosphere, by a heavy ion inertial fusion reactor in accidental and normal operations, are in form of tritium gas with two chemicals forms of tritium: HT and HTO. Emissions of 100% HT have been analyzed in this work, and their consequences in the dosimetry. The primary phase of the emission depends on the atmospheric conditions. As a consequence, the tritium is dispersed far from the source. The HT can be oxidized in the stratosphere or in the surface by microbiological action to convert it to HTO, and back to the air in a reemission process or penetrate into the subground. In the form of HT, the effective dose equivalent (EDE) is important in the case of intake (inhalation, skin absorption, or ingestion), because tritium is a beta emitter of low energy and the dose by external uptake is not considerable. Thus, the dose by ingestion contributes the most to the total dose in the case of HT rather than HTO. It constitutes 98% of the total EDE, in contrast with the contribution to the total dose by HTO, which is only 40%.