Formation Mechanism of Radial Void Fraction Distribution of Bubbly Flow in A Vertical Circular Tube

Liu Guoqiang; Sun Licheng; Tian Daogui; Xing Dianchuan

Feb. 2025

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Liu Guoqiang, Sun Licheng, Tian Daogui, Xing Dianchuan. Formation Mechanism of Radial Void Fraction Distribution of Bubbly Flow in A Vertical Circular Tube[J]. Nuclear Power Engineering, 2014, 35(1): 42-45,51.

Citation:

Liu Guoqiang, Sun Licheng, Tian Daogui, Xing Dianchuan. Formation Mechanism of Radial Void Fraction Distribution of Bubbly Flow in A Vertical Circular Tube[J]. Nuclear Power Engineering, 2014, 35(1): 42-45,51.

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Formation Mechanism of Radial Void Fraction Distribution of Bubbly Flow in A Vertical Circular Tube

National Defense Key Subject Laboratory for Nuclear Safety and Simulation Technology, Harbin Engineering University, Harbin, 150001, China

Received Date: 2012-12-17
Rev Recd Date: 2013-11-09

Available Online: 2025-02-15

Abstract

Abstract

The formation mechanism of radial void fraction distribution of gas-liquid two phase flow in a vertical circular tube was investigated experimentally by using an optical fiber probe under ambient temperature and pressure. Experiments were conducted in a tube with inner diameter of 100 mm, and with the gas and liquid superficial velocity covering the ranges of 0.0042-0.053 m·s-1 and 0.071-0.213 m·s-1, respectively. The results show that local void fraction shows a ‘‘core’’ or a "wall" peak distribution along the radius with different gas and liquid flow rates. The analysis of the wall force and lift force acting on a bubble shows that the two forces are of great importance in leading to a "core" or "wall" peak distribution of the void fraction due to their key role in determining the transverse movement of a bubble.
- Two-phase flow,
- Void fraction,
- Wall force,
- Lift force