含氡水中覆盖浮体的氡阻滞行为数值模拟。

Shu Yuan Liu, Li Zhang, Yong Jun Ye, Ku Ke Ding
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引用次数: 0

摘要

研究目的本研究旨在有效减少水体中氡的释放,从而保护环境:根据实验装置和模块化浮筒的尺寸,利用计算流体动力学(CFD)评估了气液界面的面积覆盖率、浸入深度、扩散系数和氡转移速度对含氡水体中氡迁移和呼出的影响。根据数值模拟结果,构建了氡阻滞率估算模型。通过比较氡阻滞率的实验值和模拟值与覆盖率的变化值,评估了 CFD 模拟的有效性:结果:氡传导速度对水体中氡缓释的影响很小,根据适当的数值并不明显;因此,利用面积覆盖率、浸入深度和扩散系数三个因素的协同影响,构建了含氡水体覆盖率的氡缓释率估算模型。实验结果与模拟结果的偏差小于 4.3%:基于数值模拟条件,得到了多因素协同作用下水体中覆盖浮体缓氡率的估算模型,为设计含氡水体中的覆盖浮体缓氡提供了参考。
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Numerical Simulation on Radon Retardation Behavior of Covering Floats in Radon-Containing Water.

Objective: This study aimed to efficiently reduce the release of radon from water bodies to protect the environment.

Methods: Based on the sizes of the experimental setup and modular float, computational fluid dynamics (CFD) was used to assess the impact of the area coverage rate, immersion depth, diffusion coefficient, and radon transfer velocity at the gas-liquid interface on radon migration and exhalation of radon-containing water. Based on the numerical simulation results, an estimation model for the radon retardation rate was constructed. The effectiveness of the CFD simulation was evaluated by comparing the experimental and simulated variation values of the radon retardation rate with the coverage area rates.

Results: The effect of radon transfer velocity on radon retardation in water bodies was minor and insignificant according to the appropriate value; therefore, an estimation model of the radon retardation rate of the coverage of a radon-containing water body was constructed using the synergistic impacts of three factors: area coverage rate, immersion depth, and diffusion coefficient. The deviation between the experimental and simulated results was < 4.3%.

Conclusion: Based on the numerical simulation conditions, an estimation model of the radon retardation rate of covering floats in water bodies under the synergistic effect of multiple factors was obtained, which provides a reference for designing covering floats for radon retardation in radon-containing water.

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