The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe

The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe

A series of experiments were conducted to investigate the flow pattern transitions and water holdup during oil–water–gas three-phase flow considering both a horizontal section and a vertical section of a transportation pipe simultaneously. The flowing media were white mineral oil, distilled water, a...

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Main Authors: Guishan Ren, Dangke Ge, Peng Li, Xuemei Chen, Xuhui Zhang, Xiaobing Lu, Kai Sun, Rui Fang, Lifei Mi, Feng Su
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Water
Subjects:
oil–water–gas flow
flow pattern
water holdup
dimensionless analysis
Online Access:https://www.mdpi.com/2073-4441/13/15/2077
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spelling doaj-24ba684df8434d06be7075b8c30f5ef42021-08-06T15:34:00ZengMDPI AGWater2073-44412021-07-01132077207710.3390/w13152077The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation PipeGuishan Ren0Dangke Ge1Peng Li2Xuemei Chen3Xuhui Zhang4Xiaobing Lu5Kai Sun6Rui Fang7Lifei Mi8Feng Su9Oil Production Technology Institute, Dagang Oilfield, Tianjin 300280, ChinaOil Production Technology Institute, Dagang Oilfield, Tianjin 300280, ChinaInstitute of Mechanics, Chinese Academy of Sciences, Beijing 100190, ChinaOil Production Technology Institute, Dagang Oilfield, Tianjin 300280, ChinaInstitute of Mechanics, Chinese Academy of Sciences, Beijing 100190, ChinaInstitute of Mechanics, Chinese Academy of Sciences, Beijing 100190, ChinaOil Production Technology Institute, Dagang Oilfield, Tianjin 300280, ChinaOil Production Technology Institute, Dagang Oilfield, Tianjin 300280, ChinaOil Production Technology Institute, Dagang Oilfield, Tianjin 300280, ChinaOil Production Technology Institute, Dagang Oilfield, Tianjin 300280, ChinaA series of experiments were conducted to investigate the flow pattern transitions and water holdup during oil–water–gas three-phase flow considering both a horizontal section and a vertical section of a transportation pipe simultaneously. The flowing media were white mineral oil, distilled water, and air. Dimensionless numbers controlling the multiphase flow were deduced to understand the scaling law of the flow process. The oil–water–gas three-phase flow was simplified as the two-phase flow of a gas and liquid mixture. Based on the experimental data, flow pattern maps were constructed in terms of the Reynolds number and the ratio of the superficial velocity of the gas to that of the liquid mixture for different Froude numbers. The original contributions of this work are that the relationship between the transient water holdup and the changes of the flow patterns in a transportation pipe with horizontal and vertical sections is established, providing a basis for judging the flow patterns in pipes in engineering practice. A dimensionless power-law correlation for the water holdup in the vertical section is presented based on the experimental data. The correlation can provide theoretical support for the design of oil and gas transport pipelines in industrial applications.https://www.mdpi.com/2073-4441/13/15/2077oil–water–gas flowflow patternwater holdupdimensionless analysis
collection DOAJ
language English
format Article
sources DOAJ
author Guishan Ren
Dangke Ge
Peng Li
Xuemei Chen
Xuhui Zhang
Xiaobing Lu
Kai Sun
Rui Fang
Lifei Mi
Feng Su
spellingShingle Guishan Ren
Dangke Ge
Peng Li
Xuemei Chen
Xuhui Zhang
Xiaobing Lu
Kai Sun
Rui Fang
Lifei Mi
Feng Su
The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe
Water
oil–water–gas flow
flow pattern
water holdup
dimensionless analysis
author_facet Guishan Ren
Dangke Ge
Peng Li
Xuemei Chen
Xuhui Zhang
Xiaobing Lu
Kai Sun
Rui Fang
Lifei Mi
Feng Su
author_sort Guishan Ren
title The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe
title_short The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe
title_full The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe
title_fullStr The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe
title_full_unstemmed The Flow Pattern Transition and Water Holdup of Gas–Liquid Flow in the Horizontal and Vertical Sections of a Continuous Transportation Pipe
title_sort flow pattern transition and water holdup of gas–liquid flow in the horizontal and vertical sections of a continuous transportation pipe
publisher MDPI AG
series Water
issn 2073-4441
publishDate 2021-07-01
description A series of experiments were conducted to investigate the flow pattern transitions and water holdup during oil–water–gas three-phase flow considering both a horizontal section and a vertical section of a transportation pipe simultaneously. The flowing media were white mineral oil, distilled water, and air. Dimensionless numbers controlling the multiphase flow were deduced to understand the scaling law of the flow process. The oil–water–gas three-phase flow was simplified as the two-phase flow of a gas and liquid mixture. Based on the experimental data, flow pattern maps were constructed in terms of the Reynolds number and the ratio of the superficial velocity of the gas to that of the liquid mixture for different Froude numbers. The original contributions of this work are that the relationship between the transient water holdup and the changes of the flow patterns in a transportation pipe with horizontal and vertical sections is established, providing a basis for judging the flow patterns in pipes in engineering practice. A dimensionless power-law correlation for the water holdup in the vertical section is presented based on the experimental data. The correlation can provide theoretical support for the design of oil and gas transport pipelines in industrial applications.
topic oil–water–gas flow
flow pattern
water holdup
dimensionless analysis
url https://www.mdpi.com/2073-4441/13/15/2077
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