RU8732U1 - DEVICE FOR MEASURING OIL WELL DEBIT - Google Patents

Abstract

ABSTRACT DEVICE FOR MEASURING OIL WELL

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

The utility model solves the technical problem of expanding the range of measuring the flow rate of viscosity, increasing the accuracy and reliability of measurement.

The essence of the utility model lies in the fact that the device for measuring the flow rate of oil wells contains a horizontal hydrocyclone separator and a measuring calibrated tank connected to a gas inlet and outlet fluid lines connected to an output common collector. Between the separation tank and the measuring one, a three-way valve is installed, controlled by the hydraulic drive and the hydraulic distributor. The unit is equipped with a temperature and pressure sensor, sensors of the upper and lower levels of the ZHESHOSPHI and the microprocessor. On gas lst before KejateKfepgii exits, install the feextia flow meter, it has 1 annual flow rate through the gas flow meter. On the input heyne yivie flax sampler for sampling the averaged sample and time VNi rhenium ЩQfвficщ l onwards.

The present invention allows with high Tomocity in reliability to measure the flow rate of oil wells, which in turn ensures optimal operation of oil fields.

The measurement accuracy of the proposed utility model is easily checked by sending a portion of the liquid at the time of discharge to a reference measuring scale and comparing the results of measuring the weight of a portion of the liquid on the balance with a measurement obtained through a microprocessor

Description

h DEVICE FOR DEBIT MEASUREMENT OF THE DAY The utility model relates to the field of the oil industry and can be used to measure the d-ebit of oil wells. A device for measuring the flow rate of oil wells (I) is known, comprising a vertical cylindrical separator with a gas cyclone, two pressure sensors installed at different levels, a gas line with a valve, an inlet and outlet liquid line, and a microprocessor. A disadvantage of the known device is the unreliability of its operation. The closest technical solution to the claimed utility model is a device for measuring the flow rate of oil wells (2), containing a vertical cylindrical separator with hydroscopic cyclone, equipped with soothing gratings that form a measurement cavity, inside which the lower and upper level sensors are installed at different side of the separator, installed at different level pressure sensors, a gas line with a valve, combined into a common output manifold, and the outlet liquid line is executed in the form of a siphon and micropro essora. The measurement process of this device is based on the assumption that the measurement cavity will be constantly periodically refilled and emptied. However, when the ratio of the inflow and outflow velocities changes, the fluid does not have time to leave the separator; the Scientific Research Institute of the technological cycle of measurement occurs in violation of the Institute, which does not allow with sufficient accuracy and reliability to ensure the measurement of the entire volume of the liquid coming from the well. when measuring the flow rate of oil wells under certain conditions, the measuring cavity will be periodically filled and emptied, then by UTIM measurements it is impossible to make a complete analysis of the incoming fluid from the wells and passing through the device for measuring the flow rate of oil wells, since part of the liquid comes in and goes immediately without passing a hundred, measurement measurement, i.e. without determining the composition (determining the amount in oil and water), i.e. such measurements will not provide complete information on reliability, since OIL WELLS

the fluidity on the way from the well to the device for measuring the flow rate of oil wells in pipelines, in the collection systems, can immediately stratify into oil, water, and at some points in time, the fluid from the same well with different contents will flow to the device for measuring flow rate oil and water.

The proposed utility model solves the problem of extended measurement of fluid flow rate, improving accuracy and reliability

measurements.

The essence of the utility model lies in the fact that in the known device for measuring oil wells containing separation and measuring tanks, sensors of the upper and lower levels, pressure sensors, temperature, input and output fluid lines, combined into one common collector and control unit, according to the invention on gas line after the separation and measuring tanks installed gas flow regulator, which accumulates gas in the system for injection of the measured liquid from the measuring tank. The amount of gas is separated from the amount of compressible liquid and is regulated by pre-regulated clamps. The same gas flow regulator, accumulating a certain amount of gas when opening, passes a gas-determined speed through the gas meter, which makes it possible to measure gas with high accuracy.

Figure 1 shows a general view of a device for measuring the flow rate of oil wells.

The device contains an inlet pipe (I) with a gas-fluid with: scaffolds from oil wells, a gas separator-accumulator (2), a calibrated measuring tank (3), an outlet gas line (14), 1, a liquid line (15) three-way valve (4) installed by a storage separator and measuring tank, a gas flow regulator (5), a low level sensor (8), a high level sensor (9), a pressure sensor (; 13), a temperature sensor (12), a gas flow meter (6) and a common output collector (7). A three-way valve controls the directional control valve (II) with a hydraulic actuator (10 Operation and control are performed by the control unit (16).

- 2 in - 3 The device works as follows: The gas-liquid mixture from oil wells through the inlet pipe (I) enters the separation tank (2) where gas and liquid are separated by centrifugal forces and the evaporation surface. The crested gas accumulates to a certain pressure set manually by the gas flow regulator (5). If the amount of gas is sufficient and the pressure reaches the set value, the gas flow regulator opens and passes the gas through the gas flow meter at a certain speed. The pressure in the separator is reduced to the lower set pressure, the rasa flow regulator closes and the gas accumulation process is repeated. The liquid from the separator (2) through a liquid line (15) through a three-way valve (4) enters the measuring tank (S). The external level sensor (8) sends a signal to the control unit (16) about the beginning of the measurement and the measurement time is turned on and monitoring of the accumulation of the calibrated measuring capacitance begins. Upon reaching the liquid sensor At the lower level (9), a signal is sent to the control unit (16) and the value of the pressure transition arising from the height of the liquid column between the sensors (8) and (9) is fixed. According to the command of the control unit for emptying the three-way valve (4) with the help of a hydraulic actuator (10) and a hydraulic distributor (II) switches to the drain position. Liquid draining occurs under the action of accumulated gas, which is provided by a gas flow regulator (5). When the liquid level reaches the lower level sensor (8), at the command of the control unit (16), the three-way valve (4) switches to the filling position and the liquid flows from the separator (2) to the calibrated measuring tank (3) again, the process is repeated. The main condition for the operation of the installation is to determine the drainage time relative to the filling time, i.e. drain time should be much less than pour time. This condition is achieved by selecting o (the volume of the accumulated gas and its pressure. The gas volume is determined by constructively designing the volume of the separation tank, and manually adjusting the pressure of the gas flow regulator.

The proposed utility model can be used in the oil industry, in group systems for collecting oil and gas, as well as individual wells.

The use of a utility model for measuring the flow rate of oil wells provides the required accuracy and reliability of measurement.

The accuracy of the measurement according to the proposed utility model is easily checked by the direction of the portion of the liquid at the time of discharge from the installation to the reference measuring scale and comparison of the pay-b-raToB measurement of the weight of the portion of liquid on the balance with the measurement obtained through the control unit.

SOURCES OF INFORMATION:

1. Patent SU1A No. 4549432, cl. 01 15/08, published. 1985

2. USSR Certificate of Authorship No. 1553661, Е 21 В47 (10).

AUTHOR: F.K.Ganeev General,. AK OJSC (4 F.G. Khalilov

Claims (2)

1. A device for measuring the flow rate of oil wells, containing a separation and measuring tank, sensors of the upper and lower levels, switching valves, temperature, pressure sensors, control system, gas line, input and output liquid lines combined into a common collector, characterized in that the volume of the separation container for gas storage is selected so that it reduces the drain time by three times relative to the filling time, and the pressure of the accumulated gas is manually adjusted to provide this condition. 2. The device according to claim 1, characterized in that the gas flow regulator installed on the gas line provides the required accuracy and reliability of gas measurement by passing gas through the gas meter at a constant flow rate.