RU105665U1 - COMPLEX OF EQUIPMENT FOR COMMISSIONING OPERATION OF INACTIVE POOR OIL WELLS - Google Patents

Abstract

 1. A set of equipment for commissioning inactive low-flowing oil wells, comprising installing a submersible jet apparatus, wellhead equipment, a block of ground processing equipment, including a unit for preparing oil fluid wells, a power pump unit and a monitoring and control system, characterized in that the block of ground technological the equipment is made in a mobile container design, the power pump unit is made on the basis of a multistage centrifugal pump in horizontal version with adjustable electric drive and equipped with a chemical dosing system installed at the inlet of a multi-stage centrifugal pump. ! 2. The equipment complex according to claim 1, characterized in that the power pump unit is mounted in a drawer, and the container of the ground processing equipment unit is equipped with a lifting device for dismantling the pump and equipment of the oil well preparation unit. ! 3. The equipment complex according to claim 1, characterized in that the fluid preparation unit consists of a gas separator and a centrifugal separator of solid particles connected in series, made in the form of a vertical drive rotor rotating in a fixed stator with a helical grill, the blade cutting path of which is opposite to the direction of rotation of the rotor . ! 4. The equipment complex according to claim 1, characterized in that it is equipped with a remote control system and control the operation of the equipment complex and the downhole telemetry system. ! 5. The equipment complex according to claim 1, characterized in that as a power pumping unit

Description

The inventive utility model relates to the oil and gas industry and is designed to lift fluid from wells using pump-ejector systems when commissioning an inactive fund of low-yield oil wells.

Pump-ejector systems find a certain effective field of application due to the following advantages compared to other methods of operation:

- simplicity and compactness of downhole equipment;

- lack of moving parts, cable and sucker rods;

- high reliability of downhole equipment, long overhaul period;

- ease of regulation of the selection of production wells;

- replacement of the pump without underground repair;

- supply to the well of the necessary reagents and thermal energy with the working fluid;

- access to the face without lifting the downhole equipment;

- the creation of the required depressions on the reservoir;

- the ability to conduct hydrodynamic studies in the well and optimize fluid withdrawal;

- oil production from marginal wells - less than 10 m ³ / day .;

- the minimum cost of raising the liquid at flow rates up to 150 m ³ / day .;

- operation of wells in difficult conditions (high temperature, high gas factor, high pressure of oil saturation with gas, high viscosity of pumped products, large depth, salt and paraffin deposits, high sand content, low permeability of the reservoir, unstable flow from the reservoir, large well curvature up to horizontal).

The set of equipment required for this purpose consists of downhole equipment for lifting the produced fluid to the surface and ground equipment, which provides preparation of the fluid for its subsequent injection into the jet downhole apparatus using a power pump.

The preparation of an oil well fluid, which is a mixture of oil, water, hydrocarbon gases and mechanical impurities, consists in separating gas and mechanical impurities from it.

Closest to the claimed technical solution are "Pumping unit for the development and operation of wells" (RF patent No. 21118919, class F04F 5/54, 1996) and "Method of oil production and pump-ejector system for its implementation" (RF patent No. 2238443, CL F04F 5/54, ЕВВ 43/40, 2003), the latter is selected as an analogue of the claimed utility model.

Technological equipment of the known devices is made in a stationary version, which requires a significant amount of preparatory work, significant capital costs for its installation, and also are characterized by insufficient reliability and low maintainability.

In the technical solution according to the patent of the Russian Federation No. 2238443, the power pump unit, in the form of a submersible centrifugal pump, is mounted in a special vertical hole near the wellhead and its installation and maintenance require calling specialized lifting units for well repair.

The objective of the claimed utility model is to eliminate the above disadvantages by ensuring the mobility of equipment that requires a minimum amount of installation work at the well, as well as improving operating efficiency, including by improving the maintainability of the main elements of technological equipment and reliability.

This goal is achieved due to the fact that the block of ground processing equipment is made in a mobile container version, and the power pump unit is based on a multistage centrifugal pump in a horizontal version with an adjustable electric drive and is equipped with a chemical dosing system installed at the inlet of a multistage centrifugal pump.

In addition, the power pump is mounted in a pull-out device, and the container of the ground processing equipment unit is equipped with a lifting device for dismantling the pump and equipment of the oil well preparation unit.

In this case, the fluid preparation unit consists of a gas separator and a centrifugal separator of solid particles connected in series, made in the form of a vertical drive rotor rotating in a fixed stator with a helical grill, the blade cutting path of which is opposite to the direction of rotation of the rotor.

The equipment complex is also equipped with a remote monitoring, control system and a downhole telemetry system.

As an embodiment, a submersible centrifugal pump for oil production is used as a power pump, additionally equipped with a pumping fluid inlet unit and dispersing elements.

To ensure safe equipment repair, the ground equipment unit is also equipped with an inert gas purge device for the technological equipment, as an option carbon dioxide from a cylinder.

The mobile unit of technological ground equipment is equipped with lighting, heating, including autonomous, ventilation, fire protection and hydrocarbon gas detection systems.

The implementation of ground-based technological equipment in a mobile design will allow for the minimum cost to carry out development, research and development of the well, as well as ensure, if necessary, the operation of low-production wells after they are withdrawn from an inactive fund.

Technical solutions of the claimed utility model can be implemented using tools used in general and petroleum engineering. Distinctive features reflected in the formula of a utility model are necessary for its implementation and sufficient, because provide a solution to a technical problem.

The composition and operation of the proposed technical solution is illustrated in figures 1-3, where figure 1 shows a schematic diagram of the location of the equipment complex, figure 2 centrifugal separator of solid particles, figure 3 node water is liquid in a submersible centrifugal pump.

The complex of equipment for commissioning inactive low-yield oil wells (figure 1) includes two groups of equipment:

I - downhole and wellhead equipment;

II - a mobile unit of ground equipment. The 1st group includes traditional equipment of known design, including:

- replaceable jet pump apparatus 1;

- packer equipment 2;

- wellhead equipment, including a lubricator 3 for launching a removable jet apparatus using a flow of power fluid.

The second group of ground processing equipment is mounted in a single transportable module-container 4, which, in turn, can be mounted on a trailer (semi-trailer) 5 or on a slide, which ensures its quick movement to the place of operation and does not require additional capital costs for arrangement of the place of its installation. The trailer can be equipped with outriggers (not shown in the figure) to ensure horizontal installation of the mobile unit and unload the trailer chassis from the weight of the equipment.

Technological equipment consists of a power pump unit 6, made in the form of a horizontal multistage centrifugal pump 7 with an adjustable electric drive 8. As an option, a multi-stage centrifugal pump type ESP, widely used in the oil industry, which in this case can be used as a multistage pump equipped with an additional fluid injection unit 9.

In addition, the installation of a submersible centrifugal pump can be additionally equipped with dispersing elements (not shown) of a known design (see, for example, patent No. 2315859 “System for water-gas stimulation of a formation” ЕВВ 43/20, published January 27, 2008, Bull. No. 3), allowing to ensure cavitation-free injection of a gas-liquid mixture.

The dispersant is made in the form of a single module with an immersed centrifugal pump and has a rotating screw and a fixed blade grill at the periphery of the screw, while the direction of installation of the blades of the grill is opposite to the direction of installation of the blades of the screw.

To simplify the replacement of the horizontal centrifugal pump, it is mounted in a sliding device 10, which will allow you to quickly push it out of the container.

To prepare the liquid used for the operation of the jet apparatus, a separator 11 for liberating free gas and a centrifugal separator of solid particles 12 with an electric motor 13 are installed in series, as well as a dosing system for liquid chemicals 14, consisting of a tank of chemicals 15 and a metering pump 16 and installed at the input of a multi-stage centrifugal pump 7. The dosing system provides the flow of purified power fluid corrosion inhibitors, reagents to combat paraffin formation and other liquid components used in oil production.

The process equipment block is connected to the well using the receiving 17 and injection 18 pipelines, and to the production network using the pipeline 19. To protect the equipment from external pressure when the unit is idle, check valves 20 are installed on pipelines 18 and 19. For the initial commissioning of the equipment, the system filled with liquid through the start-up pipeline 21. The pipelines are equipped with controlled valves 22a and 22b.

For the mechanization of work when changing equipment, the block container is equipped with a lifting beam 23 with a hoist. Equipment is controlled by a monitoring and control system 24 having communication channels with a field dispatch center.

To ensure safe and comfortable operation of technological equipment, the container is equipped with an autonomous heating system 25, as well as lighting, ventilation, fire protection and hydrocarbon gas detection systems of known design 26 (shown conditionally).

The centrifugal separator of solid particles is schematically shown in FIG. 2 and consists of a housing 27 in which a rotor 29 is mounted on the shaft 28. A fixed stator 30 with a helical grill is placed on the periphery of the rotor, the blade cutting path of which is opposite to the rotor rotation direction.

The rotation of the rotor is carried out by an electric motor 13.

Due to the field of centrifugal forces created by the rotating rotor, solid particles are separated from the liquid. The presence of a fixed helical lattice contributes to a more efficient transportation of solid particles to the outlet pipe.

The crude liquid enters the separator cavity through the nozzle 31, the separated solid particles with a part of the liquid are discharged through the nozzle 32, and the purified liquid through the nozzle 33.

The separator 11 is connected by a pipe 34 to the intake of a multi-stage pump 7 and a pipe 35 with a pipe 19

An embodiment of the fluid inlet unit to the multi-section pump 7 is shown in FIG. 3 and consists of a housing 36 with a fluid inlet 37.

On the one hand, a drive assembly is attached to the housing, including a bearing assembly 38, a drive shaft 39, a mechanical seal assembly 40, and on the other hand, an adapter flange 41 is connected to the housing for connection with the pump housing 7.

To carry out repair work with ground processing equipment, taking into account the presence of hydrocarbon gases in the well fluid and, as a consequence, explosion hazard, the complex is equipped with an inert gas purge device 42, which allows the well fluid to be displaced from the cavities of the process equipment before dismantling equipment requiring repair. As an implementation option for this solution, carbon dioxide or nitrogen in high pressure cylinders and a pipeline with shut-off valves can be used to discharge the displaced fluid (conventionally shown).

To control the operation of the well, a well-known telemetry system 43 of a well-known design was used (see, for example, patent No. 2382197, ЕВВ 47/12 “Downhole telemetry system”, as well as the article “Formation of a monitoring and control system using immersion sensors”, “Oil and gas vertical”, No. 12, 2009, pp. 45-47). The downhole telemetry system carries out the functions of technological control and allows for monitoring the development of the field and optimizing the operating modes of downhole pumping equipment.

Works complex equipment as follows.

Installation of a submersible jet apparatus 1 and packer equipment 2 for harnessing an annular space is lowered into an inactive low-flowing oil well to be put into operation, while the wellhead is equipped with wellhead equipment, including a lubricator 3, necessary for launching a replacement jet apparatus using a flow of power fluid by known technology.

The design of the listed equipment and the technology of its installation are standard and known from oilfield practice.

To prepare the power fluid, inject it into the well, in order to ensure the installation of the submersible jet apparatus, a block of ground processing equipment is installed near the wellhead, made in the form of a single transportable module-container 4 mounted on a trailer 5 or on a slide.

A block of ground equipment is connected to the wellhead by receiving 17 and injection 18 pipelines, as well as with a production pipeline. Before the equipment starts, for its initial start-up, all technological devices of the ground unit, downhole and wellhead equipment are filled through the pipeline 21 and the valve 22a, with the starting fluid (water, oil) supplied from an external source (not shown in Fig. 1. Gas separator 11, in this case, plays the role of the storage tank.The power pump unit 6 is turned on, which collects the starting fluid from the gas separator 11, through the centrifugal separator of solid particles 12 and pumps it through the pipe 18, the valve 22b into the lubricant p 3 and further through the tubing to the jet pump unit 1. By creating a vacuum during the operation of the jet apparatus, formation fluid containing oil, water, gas and mechanical impurities is sucked from the oil reservoir, mixed with the power fluid and flows through the annulus to the surface and then through the pipe 17, the valve 22 g enters the gas separator 11.

In the gas separator, free gas is separated, which is discharged through the pipeline 19 into the field pipeline network. The remaining liquid phase, in the form of a mixture of starting fluid, oil, produced water and mixed with mechanical impurities, is sent to a centrifugal particulate separator 12, where solid particles are separated from the liquid. The purified liquid through a pipe 34 enters the inlet of a multi-section centrifugal pump 7 and is again pumped into the well, and the separated solid particles with a part of the liquid extracted from the formation are sent through a pipe 35 to a pipeline 19 and then to a field network.

The implementation of the unit of technological equipment in a mobile container design allows for its quick delivery to the place of work, minimizing capital costs, which in this case come down only to preparing the site for the installation of equipment, as well as reducing installation work.

Given that the basic purpose of the proposed equipment complex is the development, research and operation of low-production (less than 15 cubic meters / day) wells, it is especially important to reduce operating costs, which is achieved due to: the use of reliable, high-resource equipment, in particular, use as a power pump 7, a submersible centrifugal pump of the ESP type, widely used in oil production, with its retrofitting with an injection fluid injection unit (Fig. 3), increasing the maintainability of the equipment, which is achieved by anizatsiey works to replace the basic complex units including due to the installation of a centrifugal pump 7 in the sliding device 10 and the use of a lifting beam 23 with a hoist.

In addition, increasing the stability of the power pump unit in the presence of gas at the inlet through the use of dispersing elements.

Claims (7)

1. A set of equipment for commissioning inactive low-flowing oil wells, comprising installing a submersible jet apparatus, wellhead equipment, a block of ground processing equipment, including a unit for preparing oil fluid wells, a power pump unit and a monitoring and control system, characterized in that the block of ground technological the equipment is made in a mobile container design, the power pump unit is made on the basis of a multistage centrifugal pump in horizontal version with adjustable electric drive and equipped with a chemical dosing system installed at the inlet of a multi-stage centrifugal pump. 2. The equipment complex according to claim 1, characterized in that the power pump unit is mounted in a drawer, and the container of the ground processing equipment unit is equipped with a lifting device for dismantling the pump and equipment of the oil well preparation unit. 3. The equipment complex according to claim 1, characterized in that the fluid preparation unit consists of a gas separator and a centrifugal separator of solid particles connected in series, made in the form of a vertical drive rotor rotating in a fixed stator with a helical grill, the blade cutting path of which is opposite to the direction of rotation of the rotor . 4. The equipment complex according to claim 1, characterized in that it is equipped with a remote control system and control the operation of the equipment complex and the downhole telemetry system. 5. The equipment complex according to claim 1, characterized in that a submersible centrifugal pump for oil production is used as a power pumping unit, additionally equipped with a pumped-in fluid input unit and dispersing elements. 6. The equipment complex according to claim 1, characterized in that the mobile unit of the technological ground equipment is equipped with lighting, heating systems, including autonomous, ventilation, fire protection and hydrocarbon gas detection, as well as an inert gas purge device for the technological equipment, as an option carbon dioxide from the cylinder. 7. The equipment complex according to claim 1, characterized in that the installation of the submersible inkjet apparatus is equipped with a telemetry system.