RU48025U1 - PIPE CONNECTION OF THE INDIVIDUAL ACCOUNTING UNIT FOR INDIVIDUAL OIL - Google Patents

Abstract

This utility model relates to the oil industry, in particular, to oil equipment used in the preparation of well products (field oil) and relates to devices and methods for separately accounting for produced fluid from the fields to oil receiving points. The purpose of the utility model is to increase the reliability and quality of the separate measurement of well production coming from the fields to oil receiving and receiving stations during the preventive and repair work of pumping units, as well as in the event of a sudden failure of one of them without stopping the pumping of well products. This goal is achieved by using a pipe connection for a separate oilfield metering unit, consisting of inlet and outlet pipelines with shut-off and control equipment, pumping units and instrumentation (liquid meters). New is that the pipe connection contains additional pipelines with shut-off and control equipment that connect the inlet and outlet pipelines of pumping units with the possibility of separate measurement of well production. The application of the claimed utility model will allow to separately account for the production of wells during shutdown or repair of pumping units and will ensure the maintenance of separate accounting of oil. The use of this utility model allows for routine inspection and repair of technological equipment without stopping the pumping of well products. The proposed technical solution allows you to effectively use existing process equipment when switching pumping units to measure well production and apply a simpler

design, which leads to an overall improvement in quality, reliability in the separate measurement of well production coming from the fields while reducing the cost of the design. The proposed pipe connection has a low manufacturing cost, is easy to install, reliable in operation, does not require qualified maintenance and does not depend on other technical and technological factors, i.e. A steady positive effect is achieved. The pipe connection is made in strict accordance with the regulatory requirements for fire and explosion safety and meets the requirements of labor safety and environmental protection.

Description

This utility model relates to the oil industry, in particular, to oil equipment used in the preparation of well products (field oil) and relates to devices and methods for separately accounting for produced fluid from the fields to oil receiving points.

A known installation for collecting and measuring oil well production, comprising a well switch, metering separator, distributor, control valve, liquid and gas meters, where the liquid outlet from the separator through the distributor is connected to receiving chambers of low pressure ejectors, and the ejector output with a common collector. (AS USSR No. 4667964, IPC E 21 B 43/00 “Installation for the collection and measurement of oil well products”).

The disadvantages of this installation is the design complexity, high energy consumption and metal consumption, as it is designed for separate accounting of produced liquid and gas.

There is a system for collecting and transporting oil well products, including a network of prefabricated pipelines from wells, a pressure pipe to an oil treatment unit, an ejector and a pump mounted on a tubing and placed in a sump that is equipped with a pipe with a plug at the lower end and wellhead equipment on upper end. The system is equipped with a separation unit having taps of gas-oil and water-oil separation products. The ejector is placed between the network of prefabricated pipelines and the pressure pipe,

wherein the pipe for introducing the transported liquid into the ejector is connected to the network of prefabricated pipelines. The ejector nozzle is connected through a linear outlet of the wellhead equipment to the cavity of the tubing, and the ejector diffuser is connected to the input of the separation unit. The outlet of the gas and oil separation products is connected to the pressure pipe, and the outlet of the oil and gas separation products is connected via the bypass pipe to the outlet of the annulus of the sump. (RF patent No. 2236639, IPC F 17 D 1/00, “System for the collection and transportation of oil well products”).

The disadvantages of this technical solution are

- low reliability, since the flow controllers are connected by control lines to the separation unit;

- the presence of an ejector and a pump located in the sump, which increases the intensity;

- the impossibility of separate accounting of well products from a single well.

The closest in technical essence to the proposed utility model is a reservoir pressure maintenance system, including hydrodynamic systems, each of which contains pumps, injection wells of high and low injectivity, combined by water conduits. The water conduit in the estuary zone of the low-pressure injection well is connected by additional pipelines through the fluid flow regulator to the conduit of the estuary zone of the high-pressure injection well of a single hydrodynamic system and / or neighboring hydrodynamic systems. (Utility model of the Russian Federation No. 39643, IPC E 21 V 43/20 "System for maintaining reservoir pressure")

The disadvantage of this utility model is that it is designed to maintain reservoir pressure and cannot be used for separate accounting of well production.

The purpose of the utility model is to increase reliability and quality.

separate measurement of well production coming from the fields to oil receiving and receiving points during the implementation of preventive and repair work of pumping units, as well as in the event of a sudden failure of one of them without stopping the pumping of well products.

This goal is achieved by using a pipe connection for a separate oilfield metering unit, consisting of inlet and outlet pipelines with shut-off and control equipment, pumping units and instrumentation (liquid meters).

New is that the pipe connection contains additional pipelines with shut-off and control equipment that connect the inlet and outlet pipelines of pumping units with the possibility of separate measurement of well production.

The present utility model is illustrated by an example of its implementation, schematically depicted in the attached drawing.

The pipe connection for the separate oil metering unit includes the following main elements: inlet 1 and 1a with valves A and B and output 2 and 2a pipelines, pumping units 9-11, with shut-off and control equipment (inlet valves 3-5 and outlet 6- 8), filters 12, 13 and liquid counters 14 and 15, shutoff valves of a separate oil metering unit 16-19. An additional pipe connection consisting of a pipe 20 with a valve 21 connecting the inlet pipes 1 and 1a and an additional pipe connection consisting of a pipe 22 with a valve 23 connecting the output pipes 2 and 2a is additionally introduced.

In more detail, the essence of the claimed utility model is described below.

At present, pump units 10 and 11 are used to separately account for well production from fields.

In the event of a failure of one of the pumping units or in the event of a scheduled repair, a transition to another pumping unit is carried out, which does not allow

carry out separate accounting of well products and there is no way to pump field oil coming from the fields through an appropriate fluid meter.

To eliminate this drawback, it is proposed to make additional pipe connections, consisting of pipelines 20 and 22 with valves 21 and 23, respectively, between the input and output lines of the pumping units 10 and 11, which allow pumping out well products from the fields in turn to oil receiving and receiving points through appropriate liquid meters.

An example of a specific implementation.

Currently, well products from oil and gas production workshops (ЦДНГ) - I and II are transported to the Aktash Commodity Park of the Zainskneft Oil and Gas Production Unit through input pipelines 1 and 1 a. Well production passes through pumping units 10 and 11, filters 12 and 13 and is taken into account by liquid meters 14 and 15.

In the event of a failure of one of the pump units 10 or 11, or in the case of a scheduled repair of one of them, the pumping of well products occurs through the pump unit 9, periodically, after a certain time provided by the technology.

When the pump unit 11 is turned off and the well products are received from the TsDNG-I, the valves B and 5 are closed, the valves A and 21 are opened on the pipe connection 20 and the well products enter the input line 1a, then the input 3 and output 6 valves of the pump unit 9 are opened. Products wells CDNG-I through the outlet pipe 2A through the pipe connection 22 and the open valve 23 enters the fluid counter 15.

As the tanks fill and the production of wells with TsDNG-II arrives, the transfer is switched from the pump unit 9 to the pump unit 10. The valves A and 21 of the pipe connection 20 and the valve 3 of the pump unit 9 are closed, and the valves B, the valves open

input 4 and output 7 of the pumping unit 10 and the production of wells with TsDNG-II passes through the input line 2 a and enters the fluid meter 14 with a closed valve 23 of the pipe connection 22.

The technological cycle is repeated.

The application of the claimed utility model will allow to separately account for the production of wells during shutdown or repair of pumping units and will ensure the maintenance of separate accounting of oil.

The use of this utility model will allow for routine inspection and repair of technological equipment without stopping the pumping of well products.

The proposed technical solution will make it possible to effectively use the existing technological equipment when switching pumping units to measuring well production and apply a simpler design, which leads to an overall improvement in quality and reliability when separately measuring well production from fields while reducing the cost of construction.

The proposed pipe connection has a low manufacturing cost, is easy to install, reliable in operation, does not require qualified maintenance and does not depend on other technical and technological factors, i.e. A steady positive effect is achieved.

The pipe connection is made in strict accordance with the regulatory requirements for fire and explosion safety and meets the requirements of labor safety and environmental protection.

Claims (1)

Pipe connection of a separate production oil metering unit, consisting of inlet and outlet pipelines with shut-off and control equipment, pumping units, filters and instrumentation (liquid meters), characterized in that it includes additional pipelines with shut-off and control equipment for interconnection of input and output pipelines with the possibility of separate measurement of well production coming from the fields to oil receiving and receiving points when prevention and repair work of pumping units.