核事故产生的放射性气溶胶的室内浓度。

Pub Date : 2024-06-18 DOI:10.1093/rpd/ncae131
Momen Orabi
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引用次数: 0

摘要

之前的研究考虑了影响放射性气溶胶向室内扩散的一些重要因素。这些研究以一种新的 CFD 方法为基础,对气溶胶颗粒在小空间内的沉积和气溶胶通过墙缝渗入建筑物的情况进行了很好的描述。本文对这些研究进行了应用,提供了估算核事故产生的放射性气溶胶室内浓度所需的所有图形关系。其中包括沉积速度、沉积率和渗透系数。2011 年发生在日本的福岛第一核电站事故尤其引人关注。研究了携带放射性碘-131 以及放射性铯-134 和铯-137 的气溶胶。根据模型的假设,并假定空气浓度处于稳态,放射性气溶胶在室内空气中的浓度约为室外空气中浓度的 97%。应用证明该模型方便实用。
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Indoor concentrations of radioactive aerosols from nuclear accidents.

In previous studies, some of the important factors that affect the spread of radioactive aerosols into indoors were considered. The studies were based on a new CFD approach and provided good descriptions for the deposition of aerosol particles inside small spaces and the penetration of aerosols into buildings through wall cracks. In this article, an application of those studies is implemented, where all the graphical relations that are required to estimate the indoor concentrations of radioactive aerosols from nuclear accidents are provided. This includes the deposition velocities, deposition rate, and the penetration factor. Particular interest is in the Fukushima-Daiichi nuclear power plant accident that took place in Japan in 2011. The aerosols carrying the radioiodine iodine-131 and the radiocesium cesium-134 and cesium-137 are studied. Based on the model's assumptions, and assuming steady-state air concentrations, the radioactive aerosols' concentrations in indoor air are about 97% of the concentrations in outdoor air. The applications demonstrate the model to be convenient and practical.

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