RU2493365C1 - Oil well gaging device - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: device comprises a body presented in the form of a column with the body diameter to height relation not less than 1/3. A vertical branch pipe for wellstream injection in a body lid is provided with holes in its lower part. A screw cap below the body lid overlaps a vertical branch pipe section below the holes. Fixed blades opposite the holes of the vertical branch pipe are oval-shaped. A gas-vent extends inside the vertical branch pipe underneath the screw cap. A float is found under the screw cap and overlaps an end face of the gas-vent. A branch pipe in the lower part of the body is used to drain fluid and has a mass metre on the end. The section areas of the branch pipe for wellstream injection is related to the number of holes in the lower part of the screw cap as 1:(0.6-1).

EFFECT: more accurate analysis of the fluid wellstream component.

2 dwg

Description

The invention relates to the oil industry and may find application in measuring the amount of liquid component of a well product.

A device for measuring the flow rate of wells is known, comprising a gas separator with a nozzle for selecting separation products (a product sampler) and a float connected to a valve on a gas line, connected to a common line through a liquid sampler and through a valve using gas lines, which also includes liquid and gas meters pneumatically connected to gas line diaphragm valve with a stem on the liquid line, made with the possibility of installing it in two extreme fixed positions, while the device is equipped with installed on the gas line, parallel to the shutter, with an additional membrane valve with a stem, also configured to be installed in two extreme fixed positions, and with a throttle in front of it upstream, the submembrane cavity of the additional membrane valve being connected to the gas line up to the throttle, and the supmembrane cavity is connected to the gas the line after it and the throttle (USSR Author's Certificate No. 1530765, dated 23.12.1989).

Closest to the proposed invention in technical essence is a device for measuring the flow rate of wells, containing a gas separator with a nozzle for the selection of separation products (product sampler) and a float connected to the valve on the gas line, communicated through the product sampler with liquid and through the valve with gas lines with a common line, which also includes fluid meter, spring-loaded valve with stem, valve seat, washer made of magnetic material, mounted on the stem and located between the ring magnets, is installed and oriented magnetic cores rigidly attached to the housing, cooperating with the washer when the rod and its fixing in extreme positions, a choke mounted in the passage section of the valve seat and is rigidly connected to the rod of the latter (Patent RF №2199662 of 29.05.2001 - a prototype)

A common disadvantage of the known devices is the low accuracy of determining the liquid component of the well products.

The proposed invention solves the problem of increasing the accuracy of determining the liquid component of the well products.

The problem is solved in that the device for measuring the flow rate of an oil well includes a casing in the form of a column with a ratio of the diameter of the casing to its height of less than 1/3, a vertical pipe for introducing borehole products in the casing cover, provided with holes in the lower part, a cap placed under the casing cover and covering the cross section of the vertical pipe below the holes, fixed blades on the cap opposite the holes of the vertical pipe, made rounded with a change in the direction of the blade from beginning to end by 90 radii and installed not reaching the cover and walls of the body, a gas outlet pipe passing inside the vertical nozzle under the cap, a float under the cap, installed with the possibility of overlapping the end of the gas outlet pipe at the bottom of the housing for draining liquid with a mass meter located at the end of the pipe, a check valve , a mixer with a gas outlet pipe attached to it, while the ratio of the cross-sectional areas of the borehole input pipe and the sum of the holes in the lower part of the cap is 1: (0.6-1).

SUMMARY OF THE INVENTION

The determination of the quantitative composition of the production of an oil well causes certain difficulties due to incomplete separation into liquid and gaseous components. Existing technical solutions do not fully solve this issue. The proposed invention solves the problem of the most complete separation of well production into liquid and gaseous components and, as a result, improving the accuracy of determining the liquid component of the well production. The problem is solved by the device shown in figures 1 and 2.

In Fig.1 and 2, the device for measuring the flow rate of an oil well includes a casing 1 in the form of a column with a ratio of the diameter of the casing "D" to its height "N" less than 1/3, the vertical pipe 2 for introducing the borehole products in the cover 3 of the casing 1, provided with openings 4 in the lower part and a cap 5 in the upper part, cap 6, located under the cover 3 of the housing 1 and overlapping the cross section of the vertical pipe 2 below the holes 4, fixed blades 7 located on the cap 6 opposite the holes 4 of the vertical pipe 2, made rounded with a change in direction the vane 7 from the beginning of 8 to the end of 9 by 90 degrees and installed not reaching the cover 3 and walls 10 of the housing 1, the gas outlet pipe 11 passing inside the vertical pipe 2 with a tight connection in the cap 5 under the cap 6, the float 12 under the cap 6, installed with the possibility of overlapping the end of the exhaust pipe 11, a pipe 13 in the lower part of the housing 1 for draining the liquid with a mass meter 14 located on the end of the pipe, a check valve 15, a mixer 16 with an attached gas pipe 11. A ogre is placed at the bottom of the cap 6 nichitel 17 move between the float 12. Float 12 and a gas outlet tube 11 has a clearance area 18. The ratio of nozzle cross sections of products entering the wellbore 2 and the amount of holes 4 in the bottom of the cap 6 is 1: (0.6-1). The housing 1 is made in the form of a column with a ratio of the diameter of the housing to its height of less than 1/3.

The device operates as follows.

The production of wells in the form of a mixture of oil, water and oil gas is fed into a vertical pipe 2, from where the mixture enters through the holes 4 on the blades 7, where there is a sharp change in direction and flow rate, liquid deposition and separation of oil gas. Gas passes between the blades 7, the cover 3 and the walls 10 of the housing 1 and enters the housing 1, is collected in the upper part under the cap 6. In this case, the float 12 lowers down and opens the end of the exhaust pipe 11. Gas passes between the float 12 and the cap 6 and through the gap 18 between the float 12 and the vent pipe 11 and the open end of the vent pipe 11 enters the vent pipe 11.

The liquid after the blades 7 enters between the blades 7, the cover 3 and the walls 10 of the housing 1 into the housing 1 and collects in the lower part. Upon reaching the liquid level of the float 12, the latter rises, closes the end of the gas outlet 11. The pressure increases in the housing and the fluid flows through the nozzle 13 in the lower part of the housing 1, a mass meter 14 passes where the mass of the liquid is measured, the check valve 15 and the mixer 16 pass. A gas outlet 11 is connected to the mixer 16 in a narrow section. In the mixer 16, a mixture of liquid and gas takes place, after which it is fed into a collection pipe for well production (not shown). The mixer 16 is designed as a hydro-jet pump operating on the principle of Venturi with the suction of gas from the gas pipe 11.

Thus, the device separates the mixture into gas and liquid, measures the properties of the liquid and again mixes the liquid and gas and delivers the mixture to the collection pipe.

With a low level of liquid in the housing 1, the limiter 17 for movement of the float 12 prevents the loss of the float 12 from the cap 6.

The execution of the housing 1 in the form of a column with a ratio of the diameter of the housing "D" to its height "N" less than 1/3 determines the additional separation of gas from the liquid when in the housing.

Each blade 7 is placed opposite the hole 4 in such a way that the flow exiting from the hole 4 first enters the blade tangentially to its wall, and then changes direction, moving along the blade 7. Performing fixed blades 7 of a rounded shape with a change in the direction of the blade 7 from beginning of 8 to the end of 9 by 90 degrees contributes not only to a change in the direction of flow of the well’s production, but also to swirl, create a turbulent flow and, ultimately, degass the mixture. The placement of the blades 7 installed not reaching the cover 3 and the walls 10 of the housing 1 leads to the exit of the flow in different directions at different angles, which further contributes to the turbulence of the flow and gas evolution.

The number of blades 7 and, respectively, of the holes 4 can be from 2 to the maximum possible for structural reasons.

The ratio of the cross-sectional areas of the input pipe of the borehole product 2 and the sum of the holes 4 in the lower part of the cap 6 is 1: (0.6-1). This ratio allows you to maintain the flow rate or even increase it to provide a more complete separation of gas from the liquid.

As a result of the application of the proposed device, it is possible to completely separate the gas from the liquid, to conduct and accurately measure the mass of the liquid.

The application of the proposed device will improve the accuracy of determining the liquid component of the well products.

Claims (1)

A device for measuring the flow rate of an oil well includes a casing in the form of a column with a ratio of the diameter of the casing to its height of less than 1/3, a vertical pipe for introducing borehole products in the casing lid, equipped with holes in the lower part, a cap placed under the casing lid and overlapping the vertical pipe section below holes, fixed blades on the cap opposite the holes of the vertical pipe, made rounded with a change in the direction of the blade from beginning to end by 90 ° and not installed well casing to the cover and walls of the housing, a gas outlet pipe passing inside the vertical nozzle under the cap, a float under the cap, installed with the possibility of overlapping the end of the gas outlet pipe, the nozzle in the lower part of the housing for draining the liquid with a mass meter, a non-return valve, a mixer with an attached a gas outlet pipe to it, while the ratio of the cross-sectional areas of the borehole input pipe and the sum of the holes in the lower part of the cap is 1: (0.6-1).

Images