单用文丘里流量计测量封头内不均匀两相流量

Q3 Engineering

Multiphase Science and Technology Pub Date : 2023-01-01 DOI:10.1615/multscientechn.2023048066

Aude Lecardonnel, Delphine Laboureur, Piero Colonna

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引用次数: 0

摘要

在蒸发器中，液相和气相在通道之间的分布是一个复杂的问题，取决于广泛的参数范围。然而，不均匀分布造成了重要的性能损失。多相流分布的实验研究大多是通过相分离过程来测量通道内的液汽量，这增加了测试的时间和复杂性。因此，通常研究的参数数量是有限的。在本工作中，空气/水的混合物被用作流体。研究了两相在连接头的8个通道中的分布。考虑的进口质量流量范围为0到0.2kg/s的水，从0到0.04kg/s的空气。因此，质量x可达0.3，空隙分数α可达0.9。最后，为了实现连续测量过程，每个通道的质量流量都是通过在单独的线上校准的文丘里流量计来测量的。由于没有耦合孔隙率计，本文提出了一种新的基于文丘里压降测量的迭代方法。实验证明，该方法可以成功地预测各通道内的气、液相流速。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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TWO-PHASE FLOW METERING OF MALDISTRIBUTION INSIDE A HEADER BY MEAN OF VENTURI FLOWMETER SOLELY

In evaporators, the distribution of the liquid and vapor phases among the channels is a complex prob- lem, depending on a wide range of parameters. However, maldistribution causes important loss of performances. Most of the experimental investigations of multiphase flow distribution are measur- ing the liquid and vapor quantities in the channels through a phase separation process, increasing the test duration and complexity. Therefore, the amount of parameters usually investigated is limited. In the present work, an air/water mixture was used as fluid. The distribution of the two phases in eight channels connected to a header was investigated. The inlet mass flow rates considered ranged from 0 to 0.2kg/s for the water, and from 0 to 0.04kg/s for the air. Consequently, qualities x up to 0.3 and void fractions α up to 0.9 were reached. Finally, to allow a continuous measurement process, the mass flow rates in each channel were measured thanks to venturi flowmeter calibrated on a separate line. Since no void fraction meter was coupled, a new iterative methodology, based on the venturi pressure drops measurement solely, was developed and is proposed here. It proved to successfully predict the vapor and liquid phases flow rates in each channel.

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来源期刊

Multiphase Science and Technology Engineering-Engineering (all)

CiteScore

0.80

自引率

0.00%

发文量

期刊介绍： Two-phase flows commonly occur in nature and in a multitude of other settings. They are not only of academic interest but are found in a wide range of engineering applications, continuing to pose a challenge to many research scientists and industrial practitioners alike. Although many important advances have been made in the past, the efforts to understand fundamental behavior and mechanisms of two-phase flow are necessarily a continuing process. Volume 8 of Multiphase Science and Technology contains the text of the invited lectures given at the Third International Workshop on Two-Phase Flow Fundamentals sponsored by the Electric Power Research Institute (EPRI) and the U. S. Department of Energy (DOE).