SU1618876A1 - Device for measuring flow of oil-water fluid in well - Google Patents

Abstract

The invention relates to oil production and allows improving the accuracy of measuring the flow rate of a water-oil fluid in a well. The device includes a housing 1 with windows 2 and thermo-anemometric sensors 4 installed in the protective casing 5 and a humidity sensor with insulated 3 and non-insulated electrodes connected to the electronic unit 6. Opposite the windows of

Description

The invention relates to oil production and is intended to measure the flow of water in a well in a well.

The aim of the invention is to improve the accuracy of measurement of the flow of water-oil fluid in the well, i.e., increase the reliability of measurement results.

FIG. 1 shows a device for measuring the flow rate of a water-oil fluid in a well; in fig. 2 shows experimental curves of the dependences of the increment of the resistance of a hot-wire anemometer sensor on the flow rate of two media.

The device comprises a housing 1 with longitudinal windows 2. The housing 1 contains an insulated electrode 3 of a capacitor humidity sensor, around which thermo-anemometric sensors 4 are placed coaxially in protective covers 5 installed opposite the windows 2. The covers 5 are connected to the case and are non-isolated electrodes of a condenser humidity sensor . Thermoanemometric sensors 4, their cases 5 are electrically connected to a flow converter, which together with a humidity converter are combined into one electrical unit 6. The insulated electrode 3 and the cases 5, which are simultaneously non-isolated electrodes of a condenser humidity sensor, are electrically connected to the electronic unit 6.

In the process of measuring the flow of fluid is directed (Fig. 1) in the direction indicated by the arrows. In bespakernyh devices, the transverse component of the fluid flow is measured, i.e., the direct flow of fluid from the perforations or the places of violation of the integrity of the casing. The experimental curves of the dependences of the increment of the resistance E / thermo-anemometric sensor (corresponding to the amount of heat lost by the continuously heated body) on the flow rate for two media (water and oil) are shown in fig. 2. Curve I corresponds to the dependence D / on the oil flow rate, curve II corresponds to the dependence D / on the speed of the water flow. The dotted line shows dependency curves for mixtures of water and oil.

Experimental curves clearly show that a change in the composition of the liquid causes an increase in the output parameter of the thermo-anemometric sensor, which is commensurate with the change in the output parameter from a change in the flow velocity in the zone of greatest sensitivity.

The flow and humidity converters of the electronic unit 6 measure the parameters of thermo-anemometric sensors connected, for example, in series, and a capacitor humidity sensor. By known means, by making corrections to the readings of the flow converter, taking into account the data of the converter, the true flow rate of the water-oil fluid is determined. At the same time, according to previously known dependencies, the specific consumption of water and oil is determined from the data of the flow and humidity converters.

These features allow improving the accuracy of measuring the flow rate of a water-refractory fluid in a well due to the fact that the flow and humidity measurement is performed within one limited thermoelectric sensor and electrically

condenser volume sensor fluid.

At the same time, the supply of the device with additional thermo-anemometric sensors in separate housings, which are installed coaxially around the insulated electrode of a capacitor humidity sensor, allows the specified limited volume to be created; the location of each sensor opposite the housing windows provides an exchange within the closed volume of the flowing fluid with its simultaneous flushing of the sensors at the maximum angle of attack (angle between the longitudinal axis of the sensor and the direction of flow); The use of shells of thermo-anemometric sensors as uninsulated electrodes of a capacitor humidity sensor provides for the creation of one common measured volume of liquid by thermo-anemometric and capacitor sensors.

Claims (1)

Invention Formula A device for measuring the flow of water-to-oil fluid in a well that contains an electronic unit, a housing with windows and a thermo-anemometric sensor installed in it in a protective casing and a humidity sensor with insulated and non-isolated electrodes, connected to an electronic unit, characterized in that In order to improve the measurement accuracy, it is equipped with additional thermo-anemometric sensors in protective enclosures installed opposite the windows of the housing coaxially relative to the insulated electrode of the humidity sensor, the uninsulated electrode of which is made of the enclosures of additional thermo-anemometric sensors, and the thermal anemometric sensors are interconnected. Yu C SP / s