The quantification of dose from hot particles in the nuclear power industry has received a good deal of attention in the past few years. Specifically, calculational models have been developed to determine shallow dose equivalent from both beta and gamma-rays (using VARSKIN) and to estimate deep dose equivalent based upon the gamma dose at a tissue depth of 1 cm. These two values are reported for regulatory purposes. The purpose of this study is to estimate another measure of dose from hot particles (or from skin contamination over a small area), specifically the effective dose equivalent which takes into account all organs of the body receiving appreciable dose from the gamma-ray emissions from the contamination. While it is generally recognized that this dose will be small, this study gives representative doses for a range of hot particle locations and gamma-ray energies. MCNP and the ADAM phantom have been used for the calculational model. The effective dose equivalent is found to range from 0.1 to 12 microSv h(-1) MBq(-1) (0.4 to 43 microrems h(-1) microCi(-1)) of gamma activity, depending upon the location of the hot particle on the body.
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机译:剂量的定量热粒子核电行业已收到一个好的在过去的几年里大量的关注。具体来说,计算模型开发确定浅剂量当量β和伽马射线(使用VARSKIN)估计深度剂量当量的基础上γ剂量在组织1厘米的深度。值被报道用于监管目的。本研究的目的是评估另一个测量的剂量从热粒子(或皮肤污染在一个小区域),特别需要进入的有效剂量当量身体的所有器官接收明显的剂量的γ射线的排放从污染。认识到这个剂量很小,这个研究了代表剂量的范围热粒子位置和伽马射线能量。MCNP和亚当幻影已经使用了计算模型。发现等效范围从0.1到12microSv h(1)兆贝可(1)(0.4 - 43 microrems h (1)microCi(1))的放射性,这取决于对身体的热粒子的位置。
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