VELOCITY PROFILE UNDER THE CONDITIONS OF NATURAL TURBULENT CONVECTION ACCORDING TO THE HEAT SEPARATING SURFACES OF THE INTERNAL REACTOR DEVICES

N. Matyukhin, A. Sorokin, N. Denisova, M. Kascheev
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Abstract

As a result of the processing and analysis of experimental data on natural convection of coolants for various forms of heat-transfer surfaces of in-reactor structures, a relation for the velocity profile along the normal to the heat exchange surface under conditions of natural turbulent convection in the coolant flow was proposed. By the example of a vertical isothermal surface, it is shown that for different values of the longitudinal coordinate there is a characteristic point at which the longitudinal velocity reaches its maximum value (umax) at the corresponding value of the transverse coordinate (ymax). This point divides the fluid flow along the heat exchange surface into two zones: an internal one adjacent to the wall and an external one located beyond the maximum value of the velocity. Taking for the characteristic scale umax and ymax and presenting experimental data in dimensionless form u/umax = f(y/ymax), generalization of experimental data obtained. The results of processing the experimental data of various authors are well generalized by the dependences obtained in the work for the velocity profile in the inner and outer zones of the coolant flow. The velocity profile at the horizontal, downward-facing heat transfer surface is characterized by the same regularities as for the vertical surface: the velocity in the near-wall region increases, reaches a maximum and then decreases. The results of processing the measured velocity profile for a horizontal cylinder according to the method proposed in the work show agreement with the generalized data for a vertical isothermal surface. The data of experimental studies of the velocity field around an isothermally heated sphere with free convection in water are also well generalized by the dependences proposed in this work. The analysis of the experimental data on the velocity profiles for various forms of heat-transfer surfaces under conditions of natural turbulent convection, carried out by the authors, shows that the velocity profile proposed by the authors along the normal to the heat exchange surface has a universal character.
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根据反应器内装置的隔热面,得到了自然湍流对流条件下的速度分布
通过对不同形式的堆内结构传热面冷却剂自然对流实验数据的处理和分析,提出了冷却剂流动中自然湍流对流条件下沿法向与换热面速度分布的关系式。以垂直等温面为例,表明在纵坐标不同的情况下,存在一个特征点,纵速度在相应的横坐标处达到最大值(umax)。这一点将流体沿换热表面的流动划分为两个区域:靠近壁面的内部区域和位于速度最大值之外的外部区域。取特征尺度为umax和ymax,将实验数据以无量纲形式u/umax = f(y/ymax)表示,得到实验数据的概化。对不同作者的实验数据进行处理的结果很好地概括了工作中得到的冷却剂流动内外区速度分布的依赖关系。水平向下换热表面的速度分布与垂直换热表面的速度分布具有相同的规律:近壁面速度先增大,达到最大值后减小。用所提出的方法处理水平圆柱速度剖面的结果与垂直等温表面的广义数据一致。本文提出的依赖关系也很好地推广了在水中自由对流的等温加热球周围速度场的实验研究数据。作者对自然湍流对流条件下各种形式换热面速度分布的实验数据分析表明,作者提出的沿法向换热面速度分布具有普适性。
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