Effects of Diameters on Countercurrent Flow Limitation at a Square Top End in Vertical Pipes-Reference-Cited by-同舟云学术

Effects of Diameters on Countercurrent Flow Limitation at a Square Top End in Vertical Pipes

Published:2018-12-02 Issue: Volume:2018 Page:1-11
ISSN:1687-6075
Container-title:Science and Technology of Nuclear Installations
language:en
Short-container-title:Science and Technology of Nuclear Installations

Author:

Murase Michio¹^ORCID,Nishida Koji¹,Torige Toshihide¹,Takaki Toshiya¹,Goda Raito²,Tomiyama Akio²

Affiliation:

1. Institute of Nuclear Technology, Institute of Nuclear Safety System, Inc., 64 Sata, Mihama-cho, Mikata-gun, Fukui 919-1205, Japan

2. Graduate School of Engineering, Kobe University, 1-1 Rokkodai, Nada-ku, Kobe-shi, Hyogo 657-8501, Japan

Abstract

The falling liquid flow rate under flooding conditions is limited at a square top end of a vertical pipe in the pressurizer surge line with the diameter of about 300 mm that consists of a vertical pipe, a vertical elbow, and a slightly inclined pipe with elbows. In this study, therefore, we evaluated effects of diameters on countercurrent flow limitation (CCFL) at the square top end in vertical pipes by using existing air-water data in the diameter range of D = 19-250 mm. As a result, we found that there was a strong relationship between the constant CK and the slope m in the Wallis-type correlation where the Kutateladze parameters were used for the dimensionless gas and liquid velocities. The constant CK and the slope m increased when the water level is increased in the upper tank h. CCFL at the square top end of the vertical pipes could be expressed by the Kutateladze parameters with CK = 1.53±0.11 and m = 0.97 for D ≥ 30 mm. The CK values were smaller for D = 19-25 mm than those for D ≥ 30 mm.

Publisher

Hindawi Limited

Subject

Nuclear Energy and Engineering

Link

http://downloads.hindawi.com/journals/stni/2018/1426718.pdf

Reference23 articles.

1. Prediction of Countercurrent Flow Limitation and Its Uncertainty in Horizontal and Slightly Inclined Pipes

2. Two-phase flow phenomena in full-scale reactor geometry

3. Countercurrent Air-Water Flow in a Scale-Down Model of a Pressurizer Surge Line

4. Flooding in the pressurizer surge line of AP600 plant and analyses of APEX data

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