Evaluation of Radiation Consequences of Releases in Accidents with Spills of Liquid Radioactive Materials in Areas with Forced Ventilation

O. Slepchenko, V. Bogorad, Y. Kyrylenko
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引用次数: 1

Abstract

This report focuses on assessment of radiation consequences of releases in accidents with spills of liquid radioactive materials in areas with forced ventilation. During the study, characteristic dependences between parameters of liquid radioactive materials and air exchange in areas with forced ventilation and associated radiation consequences were determined. The proposed approach is based on the theory of non-stationary heat and mass transfer in surface evaporation of liquid heated below the boiling temperature. The physical model includes: liquid radioactive material, steam-aerosol radioactive mixture, air of forced ventilation, airborne filters, and floor of the emergency area. The key aspects of the model are evaporation of liquid material, its removal with exhaust ventilation and partial trapping on airborne filters. It is considered that the steam-aerosol radioactive mixture is released to the environment after filters. The advantage of this model is the possibility to determine integral release of radionuclides to the environment and activity concentration of air in the emergency area at any moment after beginning of the accident, effective dose received by an adult during 14 days for a wide range of input thermodynamic and geometrical parameters, different operating modes of the ventilation system and different productivities of the filtering system. Results from assessment of radiation consequences for the selected accident are presented and the associated effect of filtering systems is analyzed.
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强制通风地区液态放射性物质泄漏事故释放辐射后果评价
本报告的重点是评估在强制通风地区液态放射性物质泄漏事故中释放的辐射后果。在研究过程中,确定了强制通风地区液态放射性物质参数与空气交换之间的特征依赖关系以及相关的辐射后果。提出的方法是基于液体在沸点以下加热时表面蒸发的非稳态传热传质理论。物理模型包括:液态放射性物质、蒸汽-气溶胶放射性混合物、强制通风空气、空气过滤器、应急区域地面。该模型的关键方面是液体物质的蒸发,排气通风和空气过滤器的部分捕获。认为蒸汽-气溶胶放射性混合物经过滤后释放到环境中。该模型的优点是可以确定事故发生后任何时刻放射性核素向环境的整体释放量和应急区域内空气的活度浓度,以及在各种输入热力学和几何参数、不同通风系统运行模式和不同过滤系统生产率的情况下,成人在14天内接受的有效剂量。介绍了选定事故的辐射后果评估结果,并分析了过滤系统的相关效应。
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