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机构地区:[1]华南理工大学电力学院,广东省能源高效洁净利用重点实验室,广东广州510640
出 处:《原子能科学技术》2017年第2期275-280,共6页Atomic Energy Science and Technology
基 金:广东省科技项目资助(2014A010106012)
摘 要:基于扩散界面法和有限元法,对较大气泡在上升阶段的形态和速度进行了模拟,结果与实验吻合较好,说明该方法能准确地模拟气泡的运动特性。利用该模型,对初始直径不同的较大气泡上升过程中的形态、速度和振荡随时间变化的规律进行了分析。并分析了14mm直径的气泡在不同尺寸通道中上升过程的形态、速度的变化规律。结果表明:气泡的稳定形态随着气泡初始直径的增大由椭球形变为球帽形,且达到稳定形状的时间更长。气泡初始直径越大,气泡的顶端速度越快,并稍有波动。而气泡的底端速度开始快速增大使气泡向内凹陷,随后回落并在气泡顶端速度上下振荡。气泡上升通道越窄,气泡达到稳定形态的时间越长,顶端速度越小,气泡的高宽比越大。Based on the diffusion interface method and the finite element method, the shape and velocity of the larger bubble during the rising process were simulated. The results agree well with the experiments of the references. It is indicated that the diffusion interface method can correctly simulate the motion characteristics of the bubble. By using this model, the shape, velocity and oscillation of bubbles with different initial diameters were analyzed during the rising process. Moreover, the variations of shape and velocity of the bubble with diameter of 14 mm in rising process with different sizes of channel were also studied. The results show that with the increase of the initial diameter it takes more time to get the stable shape of the bubble from the ellipsoid to the spherical cap type. The larger the initial diameter bubble is, the greater the top velocity of the bubble is. The bottom velocity of the bubble increases rapidly at very beginning so that the bottom of the bubble is inward depression, then the bottom velocity falls back and shocks around the top velocity of the bubble. As the bubble rises in a smaller size channel, the top velocity of the bubble decreases, the height/width ratio increases and longer time is needed to get the stable shape.
分 类 号:TK284[动力工程及工程热物理—动力机械及工程]
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