RU22179U1 - INSTALLATION FOR MEASURING DEBIT OF WELL PRODUCTS - Google Patents

Abstract

Installation for measuring the production rate of oil wells, containing separation and measuring tanks, sensors of the upper and lower levels, a flow switch connected to the output manifold, temperature, pressure sensors, control system, gas line, characterized in that the flow switch is connected to the gas line, connecting separation and measuring capacities.

Description

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Installation for measuring the production rate of wells

    - IPC E 21V 47/00

The utility model relates to the oil industry and can be used to measure the production rate of wells.

A known installation for measuring the production rate of wells / 1 /, containing a separation tank, a measuring chamber, a switching valve, hydrostatic pressure sensors, controller.

The oil and gas mixture from the wells enters the separator, where the gas is separated from the liquid and discharged through the switching valve into the manifold. Fluid builds up in the measuring chamber until a fixed volume is filled. The measuring chamber is equipped with three hydrostatic pressure sensors, the signals of which measure the filling time of the measuring chamber and the density of the liquid. The values of volume, time and density are used to calculate the flow of water, oil and liquid. After filling the measuring tank, the valve switches to the “drain” position, in which the gas separator outlet closes and the measuring chamber is connected to the collector, due to which pneumatic displacement of the liquid from the measuring chamber takes place.

When emptying the measuring chamber, the displacement time, the initial and final pressure, and the average gas temperature are measured. For all these values, the gas flow rate is calculated.

The disadvantage of this device is the lack of measurement accuracy with high productivity wells.

The closest technical solution to the claimed utility model is a device for measuring the flow rate of oil wells / 2 /, containing separation and measuring tanks, sensors of the upper and lower levels, a flow switch connected to the output manifold, temperature, pressure sensors, control system, gas line.

The disadvantage of this device is the lack of accuracy in oil and water measurements, since when the flow regulator is closed, all the released gas is sent from the separation tank to

measuring, which helps to increase foaming and leads to inaccurate measurements.

The objective of the proposed technical solution is to increase the accuracy of measurements with high flow rate and high gas content in the production of wells.

An apparatus for measuring the flow rate of wells is proposed, comprising separation and measuring tanks, upper and lower level sensors, a flow switch connected to the output manifold, temperature and pressure sensors, a control system, a gas line, characterized in that the flow switch is connected to a gas line connecting separation and measuring tanks.

The proposed installation allows you to increase the accuracy of the measurement by connecting the flow switch with the gas line connecting the separation and measuring tanks. During the accumulation of liquid in the measuring tank, the released gas does not enter the measuring tank, which reduces foaming and increases the accuracy of the measurement.

The figure shows a schematic diagram of the proposed installation.

The installation comprises a separation tank 1, a measuring tank 2, a flow switch 3, a high level sensor 4 and a low level 5, a temperature sensor b, a pressure sensor 7, a gas line 8, an output manifold 9.

Installation works as follows. Well production enters the separation tank 1, where gas and liquid are separated. The released gas is directed through the gas line 8 through the flow switch 3 to the output manifold 9, at which time the liquid accumulates in the measuring tank 2. When the liquid reaches the lower level sensor 5, the countdown starts until the upper level sensor 4 is reached and the temperature sensor reads 6. At the moment the liquid reaches the upper level, the hydrostatic pressure is measured using the pressure sensor 7, a command is sent to the flow switch 3, and the drain of the liquid begins. According to the known volume of the measuring capacitance 2 between the upper level sensor 4 and the lower level sensor 5, temperature

environment and pressure is calculated flow rate for oil and water. During the discharge of the liquid, the released gas from the separation tank 1 is sent to the measuring tank 2, by the time of which the gas is calculated.

The removal of gas into the output manifold 9 during the period when the measuring vessel 2 is filled with liquid and the gas released from it freely exits, it is possible to more accurately mark the upper level with the upper level sensor 4 by reducing the transition layer between the liquid and gas and, accordingly, measure the pressure at the moment of known volume.

All installation work, timing, processing of measurement results with level, pressure and temperature sensors, signaling to actuators and processing of measurement results is carried out through a control system according to a given algorithm and program.

The proposed technical solution provides the measurement of parameters with greater accuracy, which allows you to take operational measures for the rational and optimal operation of oil wells.

Claims (1)

Installation for measuring the production rate of oil wells, containing separation and measuring tanks, sensors of the upper and lower levels, a flow switch connected to the output manifold, temperature, pressure sensors, control system, gas line, characterized in that the flow switch is connected to the gas line, connecting separation and measuring capacities.