Fluid density measurement device

一种流体密度、流体的技术,应用在流体密度测量装置领域,能够解决损及流体密度确定、不适用测量流体、共振频率不确定性等问题

Inactive Publication Date: 2012-04-25
安德雷·苏斯托夫
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] First, if it is used to measure the density of a fluid composed of immiscible components (heterogeneous mixture) like a water-oil mixed emulsion, the properties of the medium around the tuning fork will cause changes in the resonance characteristics, causing inaccuracies in the resonance frequency measurement. deterministic, which ultimately adversely affects measurement accuracy
[0005] Secondly, since the presence of clogging gas causes appreciable and sudden changes in the resonant frequency, affecting its mean value and impairing the determination of the fluid's density, the known device has been found unsuitable for measuring the density of fluids containing such clogging gas

Method used

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Embodiment Construction

[0037] The present invention relates to devices for measuring the density of fluids. Known devices for determining the density of a fluid include, for example, sensors arranged to detect the oscillations of, for example, a mechanical resonator excited by an exciter (so the sensor and exciter can be incorporated in a driver / receiver unit) and by determining the mechanical resonator An estimation unit that determines the density of the measured medium (eg, fluid) as a result of changes in resonance frequency. According to the present invention (its embodiment is in figure 1 The device schematically depicted in ) differs from known devices in that it comprises an evaluation unit arranged to determine the oscillation distribution. By analyzing the oscillation distribution of the mechanical resonator, it is possible to obtain statistically useful information about density fluctuations of the measured medium (eg fluid) around the mechanical resonator. As a result, fluid density me...

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Abstract

A device for determining a density of a fluid is described. The devices comprises a mechanical resonator, a driver / receiver unit arranged to provide an actuation to the mechanical resonator, sense a response of the mechanical resonator to the actuation, and provide an output signal representing the response; and an evaluation unit. The evaluation unit of the device is arranged to i. determine an oscillation distribution from the output signal, ii. determine a resonance frequency estimate from the oscillation distribution, and iii. determine the density of the fluid based upon the resonance frequency estimate. The device according to the invention enables a more accurate determination of the fluid density for fluids comprising immiscible components (thus forming a heterogeneous mixture), like a water-oil emulsion, or a fluid with occluded gas.

Description

technical field [0001] The invention relates to a device for measuring the fluid density of different media, including aggressive media, both under normal conditions and under high pressure environments. As an example, the invention may be applied to crude oil and gas production and delivery systems in chemical and petrochemical production and fuel and energy industries, among others. Background technique [0002] Devices for measuring or determining the density of fluids are known per se. The operating principle of this known device is eg based on the application of a low-frequency mechanical resonator immersed in a fluid whose density is to be determined. In this regard, reference may be made, for example, to the Government of the Russian Federation Patent No. 2 291 403, US Patent No. 4 922 745, US Patent No. 6 389 891, US Patent No. 6 845 663. Due to the effect of increasing mass of the medium (eg fluid), the resonant frequency of the mechanical resonator changes. Know...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N9/00
CPCG01N9/002
Inventor 弗拉基米尔·德洛布科夫弗拉基米尔·梅尔尼科夫安德烈·苏斯托夫
Owner 安德雷·苏斯托夫
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