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A gas-liquid two-phase flow phase holdup and phase separation flow detection device and detection method

A flow detection device, gas-liquid two-phase flow technology, applied in the direction of volume flow measurement device, measurement device, liquid/fluid solid measurement, etc., can solve the problem of two-phase flow holdup, flow measurement, Affect the phase holdup measurement and other issues to achieve the effect of on-line monitoring and weaken the impact

Active Publication Date: 2018-11-30
HEBEI UNIVERSITY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Although various methods have some applications in some specific occasions, generally speaking, due to the complexity of two-phase flow flow and the diversity of two-phase flow conditions, especially the change of two-phase flow flow patterns, the measurement of related parameters There is a non-negligible impact, which will eventually affect the measurement of phase holdup. Therefore, the problems of phase holdup and flow measurement of two-phase flow have not been well resolved.

Method used

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  • A gas-liquid two-phase flow phase holdup and phase separation flow detection device and detection method
  • A gas-liquid two-phase flow phase holdup and phase separation flow detection device and detection method
  • A gas-liquid two-phase flow phase holdup and phase separation flow detection device and detection method

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Embodiment 1

[0049] Embodiment 1, a gas-liquid two-phase flow phase holdup and phase separation flow detection device.

[0050] like figure 1 As shown, the gas-liquid two-phase flow phase holdup and phase separation flow detection device provided by the present invention specifically includes an outer tube 1, an inner tube 2, an LCR tester, a differential pressure transmitter, a data acquisition unit and a data processing unit.

[0051] The outer tube 1 is a hollow circular straight tube structure; the inner tube 2 is connected in the inner cavity of the outer tube 1, and the axis line of the inner tube 2 coincides with the axis line of the outer tube 1; the length of the inner tube 2 is longer than that of the outer tube 1, and the two ends of the inner tube 2 protrude from the two ends of the outer tube 1 respectively. The outer diameter of the inner tube 2 is smaller than the inner diameter of the outer tube 1 , so that an annular cavity is formed between the outer sidewall of the inne...

Embodiment 2

[0058] Embodiment 2, a gas-liquid two-phase flow phase holdup and phase separation flow detection method.

[0059] like figure 1 As shown, the gas-liquid two-phase flow phase holdup provided by the present invention and the phase separation flow detection method include the following steps:

[0060] a. Set the inner tube 2 inside the outer tube 1 . The outer tube 1 is a hollow circular straight tube structure, the inner tube 2 is placed in the outer tube 1, the length of the inner tube 2 is greater than the length of the outer tube 1, and the two ends of the inner tube 2 extend from the two ends of the outer tube 1 respectively. out; the axis line of the inner tube 2 coincides with the axis line of the outer tube 1. The inner tube 2 includes a barrier area in the middle that does not allow gas-liquid two-phase flow to flow through and a flow area at both ends that allows gas-liquid two-phase flow to flow through. The parts where the two flow areas connect to the barrier area...

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Abstract

The invention provides a gas-liquid two-phase flow phase holdup and a separate phase flow rate detection device and detection method. The device comprises an outer tube, an inner tube, a differential pressure transmitter, an LCR tester, a data collection unit and a data processing unit. The inner tube is connected in the outer tube in a sleeved mode, the middle of the inner tube is a baffle area, the two ends of the inner tube are circulation areas, fluid outlet holes and fluid inlet holes are formed in the side walls of the circulation areas at the two ends of the inner tube respectively, a to-be-tested fluid enters the inner tube from one circulation area of the inner tube, enters an annular space between the inner tube and the outer tube through the fluid outlet holes and then flows to the other circulation area through the fluid inlet holes, and the phase holdup of two-phase flow can be obtained by measuring a capacitance value of an annular capacitor and combing correlation operation; by combining pressure differences of the fluid at the two ends of the inner tube, the fluid total flow can be obtained, and the separate phase flow rate can be obtained finally. According to the gas-liquid two-phase flow phase holdup and the separate phase flow rate detection device and detection method, the inner tube and the outer tube and a middle fluid forms capacitance, the capacitance value is only related to an intermediate medium, and therefore an influence of flow pattern changes to measurement of the two-phase flow holdup can be weakened.

Description

technical field [0001] The invention relates to a two-phase flow flow detection device, in particular to a gas-liquid two-phase flow phase holdup and phase separation flow detection device and detection method. Background technique [0002] At present, the continuous online detection methods of phase holdup mainly include optical methods (laser, optical fiber), electrical methods, ray methods, nuclear magnetic resonance methods, microwave methods, etc. [0003] The optical method is further divided into two methods: the optical fiber probe method and the light intensity modulation method. The optical fiber probe method mainly utilizes that different media have different refractive indices for light. When the measurement medium passes through the optical fiber probe, the photoelectric converter outputs a signal to obtain the gas fraction information of the local cross-section. The light intensity modulation method is to detect the phase holdup in the pipeline according to th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01F7/00G01D21/02G01N27/22
CPCG01D21/02G01F7/005G01N27/221
Inventor 方立德李婷婷韦子辉刘霜
Owner HEBEI UNIVERSITY
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