Pressure gradient and holdup in horizontal two-phase gas-liquid flows with low liquid loading

Badie S.; Lawrence CJ.; Hewitt GF.; Hale CP.

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Pressure gradient and holdup in horizontal two-phase gas-liquid flows with low liquid loading

机译：低液体负荷下水平两相气液流中的压力梯度和滞留量

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Pressure gradient and holdup data are presented for air-water and air-oil flows in a horizontal, 0.079 m diameter pipe. Addition of a very small liquid flow was found to result in a considerable increase in the pressure gradient compared with single phase gas flow. The pressure gradient and the holdup data were compared with predictions of the 'apparent rough surface' (ARS) and the 'double-circle' models. The ARS model generally gave better predictions for the holdup over the experimental range. Both models predicted the pressure gradient for air-water flows at high gas flowrates reasonably well. However, the predictions of both methods were unsatisfactory for air-water experiments at low gas flowrates and for air-oil experiments. Overall the ARS model was judged to be the more robust. (C) 2000 Elsevier Science Ltd. All rights reserved. [References: 15]

机译：给出了直径为0.079 m的水平管道中的空气-水和空气-油流的压力梯度和滞留数据。与单相气流相比，发现添加非常小的液体流会导致压力梯度显着增加。将压力梯度和滞留率数据与“表观粗糙表面”（ARS）和“双圆”模型的预测值进行了比较。 ARS模型通常会对实验范围内的滞留率给出更好的预测。这两个模型都很好地预测了高气体流量下空气-水流的压力梯度。但是，对于低气体流量的气水实验和气油实验，两种方法的预测都不能令人满意。总体而言，ARS模型被认为更可靠。（C）2000 Elsevier ScienceLtd。保留所有权利。 [参考：15]

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《International Journal of Multiphase Flow》 |2000年第9期|共19页
作者
Badie S.; Lawrence CJ.; Hewitt GF.; Hale CP.;
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正文语种 eng
中图分类流体力学;
关键词
Low liquid loading; Pressure gradient; Holdup; Two-phase flow; Pipe-flow; Pipelines; Drop;

机译：液体负荷低;压力梯度;滞留;两相流;管道流;管道;下降;

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1. Pressure gradient and holdup in horizontal two-phase gas-liquid flows with low liquid loading [J] . Badie S., Lawrence CJ., Hewitt GF., International Journal of Multiphase Flow . 2000,第9期

机译：低液体负荷下水平两相气液流中的压力梯度和滞留量
2. Prediction of two-phase pressure drop and liquid holdup in co-current gas-liquid downflow of air-Newtonian systems through packed beds [J] . Ettiyappan P, Babu J, Arunagiri A, Journal of Chemical Technology & Biotechnology . 2006,第1期

机译：空气-牛顿系统通过填料床并流气液向下流动中两相压降和持液量的预测
3. Experimental investigation of oil-water two-phase flow in horizontal pipes: Pressure losses, liquid holdup and flow patterns [J] . Ismail Ahmad Shamsul Izwan, Ismail Issham, Zoveidavianpoor Mansoor, Journal of Petroleum Science & Engineering . 2015,第Null期

机译：水平管中油水两相流的实验研究：压力损失，液体滞留和流型
4. Pressure Effects on Pressure Gradient and Liquid Holdup in Two-Phase Oil-Gas Low-Liquid-Loading Flow in Horizontal Pipes [C] . Duc H. Vuong, Cem Sarica, Eduardo Pereyra SPE Annual Technical Conference and Exhibition . 2017

机译：水平管中两相油气低液体加载流量对压力梯度和液体堆积的压力影响
5. Low liquid loading gas-liquid two-phase flow in near-horizontal pipes. [D] . Meng, Weihong. 1999

机译：在近水平管道中低液体负荷的气液两相流。
6. Study on Weight Function Distribution of Hybrid Gas-Liquid Two-Phase Flow Electromagnetic Flowmeter [O] . Yulin Jiang 2020

机译：混合气液两相流电磁流量计的权函数分布研究
7. Statistical properties of differential pressure fluctuations and flow patterns in horizontal gas-liquid two-phase flow (Differential pressure between the top and the bottom of a tube cross-section) [O] . Goichi MATSUI, Toshihiko AIZAWA, Akiyasu MORITA 1986

机译：水平气液两相流中差压波动和流动模式的统计特性（管横截面顶部和底部之间的差压）
8. Slug flow transitions in horizontal gas/liquid two-phase flows. Dependence on channel height and system pressure for air/water and steam/water two-phase flows. [R] . Nakamura, H. 1996

机译：对空气/水和蒸汽/水两相流的通道高度和系统压力的依赖性。水平气/液两相流中的团状流转变。

Pressure gradient and holdup in horizontal two-phase gas-liquid flows with low liquid loading

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