铀矿井排风放射性尾气在大气中扩散的数值模拟及实验研究  被引量：1

作　　者：谢东[1] 王汉青[1] 李向阳[2] 周星火[2] 李香梅[2] 

机构地区：[1]中南大学能源科学与技术学院,长沙410083 [2]南华大学城市建设学院,湖南衡阳421001

出　　处：《安全与环境学报》2008年第3期111-114,共4页Journal of Safety and Environment

基　　金：国家自然科学基金项目(10775047)

摘　　要：对某铀矿山排风尾气中核素氡在大气中的扩散进行数值模拟,同时建立了物理实验模型,在水槽中进行PIV实验。将数值模拟结果与实验结果进行了对比,发现两者能较好地吻合。结果表明,在排风井下风向200m以内核素氡浓度衰减较快;随着下风向距离的增大,地面浓度不断降低,到了300m的位置氡浓度变化缓慢;继续增大距离,地面浓度变化不大。研究方法及结论可以为铀矿区安全防护距离的科学制定提供一定的参考。The paper is inclined to present our research progress on numerical modeling and experimental determination of the radioactive exhaust gas diffusion from the ventilation outlet of the uranium mining well, especially, the diffusion of radionuclide in the atmosphere. As is known, due to the radioactive risk caused by the radionuclide, it seems extremely complex to clarify the problem and its multifaceted complexity. To make things worse, it is impossible to repeat the status quo of the research objects because of its random nature. Thus, it seems too costly and consumable to conduct the experiments in terms of the manpower and material resources, whereas the numerical simulation can serve as one of the most popular ways to predict the pollution for the test conditions are easy to get control. For, as a matter of fact, numerical modeling was just found to be one of the earlier users in simulating the radionuclide radon migration from the uranium mining-well in some uranium mining areas. Then physical experiment model was set up and PIV （Particle Image Velocity ） experiments were conducted in a water tank to investigate the radionuelide radon diffusion mechanism as well as the airflow pattern on uranie ventilation outlet over complex terrains. Furthermore, various water flow velocities were used to denote the different wind speeds, whereas graphs and curves indicating the velocity vectors and streamlines were used to explain the diffusion of radionuclide radon with PIV technique in the tank. Finally, the result of simulation could be akin to compare the results of experiments, which prove to be coincided to a great extent. All in all, our research shows that the concentration attenuation rate of radionuclide radon can be found going on rapidly in the range of 200 m, with the ground concentration dropping along the downwind-ward distance. Then, with the increase of the distance from uranic ventilation outlet, the ground concentration would be getting lower and lower. However, when the downwind-ward distance reach

关 键 词：辐射防护 铀矿排风 放射性污染 数值模拟 水槽实验 

分 类 号：X591[环境科学与工程—环境工程]