RU13392U1 - INSTALLATION FOR MEASURING OIL WELL DEBIT - Google Patents

Abstract

1. Installation for measuring the flow rate of oil wells, containing two vertical calibrated capacity of the input and output three-way valves, sensors of the upper and lower levels, temperature and pressure sensors, control system, inlet and outlet fluid lines, characterized in that for accurate fixation of the volume of the measured fluid in vertical tanks, the lower pressure transducers are installed below the drain pipe, the weight of the liquid remaining above the high-measuring sensors is the reference point, i.e. zero, and the upper sensors in the containers are needle-shaped, capacitive, which are clearly fixed when in contact with the liquid. 2. Installation for measuring the flow rate of oil wells according to claim 1, characterized in that the inlet and outlet pipelines are divided and three-way valves are installed on each line, thereby ensuring the reliability of the installation. Installation for measuring the flow rate of oil wells according to claim 1, characterized in that the design of the installation allows under operating conditions at the time of measuring the flow rate of wells to verify the accuracy of the measurement.

Description

Watanovm yes iamErEnsh dshvita vshshnyh shshshshsh

A useful model relates to the field of the oil industry and can be used to measure the flow rate of oil) wells.

A known installation for measuring the flow rate of oil wells CI) consisting of a vertical separator and the upper part of which has a hydrocyclone head with a tangential inlet, low and upper level sensors, pressure and temperature sensors are installed in the measuring part of the separator, a pipe connection with a hydroclone head, a gas outlet pipe installed in the upper part of the separator and connections with the device for alternately connecting the gas and liquid lines to the common collector. The installation is controlled by a microprocessor.

A disadvantage of the known installation is the unreliability of measuring the flow rate of low-production wells with a small gas factor.

The closest technical solution to the claimed utility model is a setup for measuring two-phase flow standards (), containing two measuring ones: cylinders, in which floats are placed, moving along the guide tubes. In the tubes, sensors are installed that fix the upper position of the floats and sensors that fix the lower position of the floats. In the lower part of the measuring cylinders are placed for the removal of gas to the wall of the partition, made in the form of fender rings.

Well production enters the storage separator through oil reservoirs after the liquid phase of production through the actuating unit of the flow switch and pipelines enters the measuring cylinders. The lower position sensors include timers for filling the measuring cylinders with liquid, and the upper position sensors command the switching of the fluid flow switch mechanism.

The measurement process of this installation is based on the periodic filling and emptying of calibrated measuring cylinders.

The disadvantage of this installation is the insufficient error of the sensors depending on the density of the medium being measured and the weak reliability of its operation. Ш The proposed utility model solves the problem of increasing the accuracy of measurement and the reliability of the installation. The essence of the utility model is that for measuring the flow rate of oil wells, the installation has two cylindrical calibrated vertical tanks, which are interconnected by inlet and outlet three-way valves1 and a gas manifold. The lower level sensors, which are located below the drain pipe, always have certain indicators independently of the medium being measured, and the upper level sensors are needle-type, capacitive, which are activated when they are in contact with the medium being measured, thereby ensuring the exact weight of the measured liquid. Three-way valves operate sichronically from a single actuator (valve). Figure 1 shows a schematic diagram of an installation for measuring oil production rates. To ensure the continuity of the process of measuring oil flow rates, the installation has two measuring tanks (EI) (E2), three-way valves (CT) and (CT2) and connecting pipes. Each measuring tank has liquid level sensors ДД СД) and pressure transducers Sapphire 22ДГ-ВН ( Щ), Devices are connected to the control station, and the output signal of the pressure transducer linearly depends on the oi of the mass of the borehole fluid in the tank. The control station has settings for fixing the mass of 10 kg ,,,, 1 00kg, Production of the measured well through ball valves (KS) is fed to the input of the three-way valve CKTI) and after it comes i one of the measuring tanks, for example (EI). At this time, from the reservoir CE2) the liquid through the SKT2 valve) and the check valve (K) and the valve (36) are discharged into the common collector. When filling the measuring tea pot (EI), the liquid level sensor (D1) sends a signal to the control station, and from there a command is sent to turn on the hydraulic drive (GP) and at the same time the supply voltage is supplied to the hydraulic distributor coil (GR). In this case, the oil C (GP) is supplied through (GR) to the cylinder of the three-way valve KT2 and then to the cylinder of the KTI valve, the valves are switched and the fluid enters the reservoir (EE), and the measured fluid is drained from the reservoir (EI) into the total

Due to the difference in diameters of the nominal passage of the valve (KlI) DN50 and valve (CT) 80, the fluid is squeezed faster than the accumulation. The container is interconnected on top of the pipeline, so when the liquid rises in the filled tank, the gas, ng per person in the storage tank, is mixed into another tank, forcing it out of the non-existing liquid, speeding up the drain.

But the signal of the liquid level sensor C / 1) turns on the CrP) i) valve and the liquid under the action of the valve springs merges into the hydraulic actuator and the valves switch and the cycle repeats.

For verification and calibration, tanks C) with measuring weights (.ВТ) are used.

The proposed utility model can be used in the oil industry in group systems for collecting oil and gas. The use of a utility model for measuring the flow rate of oil wells provides the required accuracy and reliability of the measurement.

The measurement accuracy of the proposed utility model is easily checked by sending the measured portion of the liquid at the time of discharge from the installation to the reference measuring scale and comparing the results of the measurement of the portion of liquid on the scale with that measured by the control unit. Sources of information: I. Device for measuring. Patent f 1811585 GGGP oil production rate EEI B 47U10. 01 15U18 published I99Q

Author: F.K.Taneev

Claims (3)

1. Installation for measuring the flow rate of oil wells, containing two vertical calibrated capacity of the input and output three-way valves, sensors of the upper and lower levels, temperature and pressure sensors, control system, inlet and outlet fluid lines, characterized in that for accurate fixation of the volume of the measured fluid in vertical tanks, the lower pressure transducers are installed below the drain pipe, the weight of the liquid remaining above the high-measuring sensors is the reference point, i.e. zero, and the upper sensors in the containers are needle-shaped, capacitive, which are clearly fixed when in contact with the liquid.  2. Installation for measuring the flow rate of oil wells according to claim 1, characterized in that the inlet and outlet pipelines are divided and three-way valves are installed on each line, thereby ensuring the reliability of the installation. 3. Installation for measuring the flow rate of oil wells according to claim 1, characterized in that the design of the installation allows under operating conditions at the time of measuring the flow rate of wells to verify the accuracy of the measurement.