不同释放类型下核电站事故放射性核素的大气扩散模式

E. Bi̇lgi̇ç, O. Gunduz
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引用次数: 1

摘要

切尔诺贝利和福岛大灾难造成全球环境和公共卫生问题后,核能开始失去其受欢迎程度。由于事故发生时不同的气象条件,这些事故释放的放射性在世界各地蔓延,并对大片地区产生了负面影响。用于评估放射性大气扩散的另一个特别重要的参数是定义事故现场放射性核素释放模式的源项的特征。堆芯存量和释放的形状和程度定义了模拟放射性扩散模式时使用的源项。因此,源项的数学表示是放射性核素散射建模的关键部分。理想类型的释放(如脉冲、阶跃、线性、正弦)可能发生在事故中,或者这些类型的组合可以构成事故源释放的真实模式。释放的数学特性对放射性的总体扩散和沉积有影响。基于这一前提,本研究旨在评估分散和沉积的放射性核素空间分布的可能差异,这些放射性核素可能源于土耳其地中海南部海岸Akkuyu核电站(NPP)的潜在事故。使用FLEXPART模型进行模拟,以预测在各种释放模式和代表极端条件的不同气象条件下,Akkuyu假设事故释放的放射性核素的大气扩散和地面沉积。模型模拟考虑了现场极端气象条件下10天的释放持续时间和不同的释放模式。然后进行比较评估,以评估Cs-137扩散和沉积的程度和大小,Cs-137是核电站事故模拟中最常用的放射性核素。
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Atmospheric dispersion patterns of radionuclides originating from nuclear power plant accidents under various release types
Nuclear power has begun to lose its popularity after the major catastrophes of Chernobyl and Fukushima that caused a global environmental and public health problem. Radioactivity released from these accidents spread all around the world and negatively influenced large areas as a result of different meteorological conditions prevailing at the time of the accidents. Another particularly important parameter used in assessing the atmospheric dispersion of radioactivity is the characteristics of the source term that defines the release pattern of radionuclides from the accident site. Core inventory and shape and extent of the release define the source term to be used in simulating the dispersion pattern of radioactivity. Thus, mathematical representation of the source term is a crucial part of the dispersion modeling of radionuclides. Ideal types of releases (such as pulse, step, linear, sinusoidal) can occur in an accident or a combination of these types can constitute the real pattern of the release from the accident’s source. The mathematical character of the release is influential in the overall dispersion and deposition of radioactivity. Based on this premise, this study is conducted to assess the possible differences in the spatial distribution of dispersed and deposited radionuclides that can originate from a potential accident in Akkuyu nuclear power plant (NPP) in the southern Mediterranean coast of Turkey. Simulations are per- formed with FLEXPART model to predict the atmospheric dispersion and ground level depositions of radionuclides to be released from a hypothetical accident in Akkuyu under various release patterns and different meteorological conditions representing extreme conditions. Model simulations considered a 10-day release duration with distinct release patterns under extreme meteorological conditions for the site. A comparative assessment is then conducted to evaluate the extent and magnitude of Cs-137 dispersion and deposition, which is the most commonly used radionuclide in NPP accident simulations.
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来源期刊
International Journal of Energy Production and Management
International Journal of Energy Production and Management Social Sciences-Sociology and Political Science
CiteScore
2.20
自引率
0.00%
发文量
24
审稿时长
26 weeks
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