RU2449114C1 - Method of dual completion of several productive horizons and device for its implementation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: group of inventions refers to oil and gas industry and can be used for production of liquid and gaseous hydrocarbons in wells developed several productive horizons, production control from every productive horizon and wells research without extraction of pumping equipment. Method includes descending along well tubing and installation of liner with through or plugged end, with cup, packers, mandrels and column splitters. Note that measuring and regulating instruments are descended into the well with the aid of device for dual completion of several productive horizons that includes pumping station bypassing system. Measuring and regulating instruments are installed in the mandrels by fishing tools. Geophysical researches are made along the whole well length by measuring instruments descended on a cable.

EFFECT: provision of unobstructed passing of measuring and regulating instruments along the whole down-hole equipment of dual completion of multi-layer well without contacting the pumping unit, without lifting the latter to the well mouth.

6 cl, 1 dwg

Description

The invention relates to the oil and gas industry and can be used for the production of liquid or gaseous hydrocarbons in wells that have opened several productive horizons; regulating production from each productive horizon and exploring wells without extracting pumping equipment.

A known method for monitoring the parameters of a borehole fluid (US patent 5213159, May 25, 1993, E21B 34/14, E21B 43/128, E21B 47/06), the method includes lowering at least one column of tubing with an u-adapter attached to it, to which the pump unit and the bypass pipe are attached. At the same time, the device allows the measuring device to freely pass along the pump installation through the bypass pipe and conduct geophysical studies of the well in the area under the pump installation.

The disadvantage of the analogue is the inability to control production from each productive horizon.

The known method of separate operation of multilayer wells (RF patent No. 2313659, ЕВВ 43/14, 12/27/2006), the method includes the descent into the well of at least one column of tubing with constant or variable diameter and with a muffled lower end equipped , between reservoirs or higher and between reservoirs, one or more packers for separating the reservoirs and a control device for controlling fluid flow during injection or fluid production. At the same time, in the injection, or fountain, or gas lift, or pump wells, at the level of one of its layers, a tubing string or control device with a measuring transducer is equipped to transmit information from measurements to the surface of the well and determine the technological parameters of the fluid during production. To do this, a geophysical cable is lowered into the well outside or inside the tubing string and connected to a measuring transducer, or a regulating device, or both to a measuring transducer and to a regulating device made of a removable or non-removable type. In this case, after the installation of the wellhead, the working agent is pumped in or fluid is produced, directing it through the control device and the measuring transducer. Receive measurement information from the measuring transducer at the mouth and determine the technological parameters of the working agent or fluid for the formations. If they differ from the design value, the throughput section of the control device is changed until the design value of the technological parameters for each of the layers is reached.

The disadvantage of the analogue is the impossibility of lowering the measuring device into the well for geophysical surveys of the well, it is impossible to conduct studies along the entire length of the well.

The closest in technical essence and the achieved technical result to the claimed one is a method for simultaneously separately operating several productive horizons (RF patent No. 2334867 C1, E21B 43/14, 03/21/2007), which includes the descent of a shank of tubing with packers and with downhole cameras, installation of a liner in the well and operation of the latter. According to the invention, a liner is assembled on the tubing and a funnel with a pressure or flow regulator with a check valve or plug is lowered into the well first. Then the tubing is lowered with one or more downhole chambers and the last or upper of the latter is placed at a distance of at least 2 internal diameters of the production casing of the lower holes of the perforation interval of the lower productive horizon. Then, the packer of the lower section of the liner is attached to the tubing, thus completing the assembly of the latter. After that, the second and subsequent sections of the shank are assembled and attached, depending on the number of productive horizons that will be exploited. The packer of each section of the shank is set to a height of at least 10 meters from the upper holes of the perforation interval of the developed productive horizon. After installing the last packer, a disconnection unit is connected and one or more borehole chambers are installed on the tubing above the last packer. Then the packers are brought into working position, dividing among themselves productive horizons. After that, well operation is started.

The disadvantage of the closest analogue is the inability to measure the geophysical parameters along the entire length of the well under the conditions of well operation, as well as the need to dismantle the pump unit and raise it at the wellhead to install a measuring or control device at the level of each formation. Another disadvantage of the closest analogue is the lack of technical devices to install a plug or a pressure or flow regulator without lifting it at the mouth of the pump unit and tubing installed above it.

The objective of the invention is to ensure unhindered passage of measuring or control devices along the entire well installation for separate operation of a multilayer well without contacting them with a pump unit, and when installing measuring and control devices, the pump unit should not rise at the wellhead, and also provide the ability to control production from each separately taken layer due to the system of packers and borehole chambers.

The problem is solved in that in the method of simultaneous and separate operation of several productive horizons, along which a tubing is lowered onto a tubing string and a liner with a through or plugged end, with a funnel, packers, borehole chambers and column disconnectors interconnected sections of tubing, according to the invention, measuring or regulating devices are lowered into the well using a device for simultaneous and separate operation of several of productive horizons, which includes a bypass system for the pumping unit, then regulating and measuring instruments are installed in the borehole chambers using a fishing tool, and geophysical studies are carried out along the entire length of the borehole with measuring instruments lowered on the cable.

The problem is also solved by the fact that a device for simultaneous and separate operation of several productive horizons, containing a liner with a through or plugged end, with a funnel, packers, downhole chambers and column disconnectors, interconnected by tubing sections, measuring and control devices, according to the invention, further comprises a bypass system for the pump installation, which consists of a y-adapter with a plug, with supply pipes, with a pump unit m, while the y-adapter is connected to the tubing connected to the pump unit and the supply pipes, and a plug is installed in the y-adapter.

In the case of well operation in normal mode, a blind plug is installed in the y-adapter.

In the case of geophysical surveys, a logging plug is installed in the y-adapter, through which a cable passes, to which a measuring device is connected, which is lowered through the tubing string, through the y-adapter, through the supply pipes, through the funnel into the shank and measure the space under the pump unit.

In the case of research or other work using a flexible pipe, a plug for the flexible pipe is installed in the y-adapter.

If it is necessary to pressure test the tubing string, a nipple is attached to the y-adapter, into which a blind plug is installed.

In the case of adjusting the fluid flow or overlapping a particular formation or several layers, the control device connected to the fishing tool mounted on the cable is lowered through the tubing string, through the y-adapter, through the supply pipes, through the funnel into the shank and installed in downhole chamber.

A device for simultaneous and separate operation of several productive horizons provides simultaneous transportation of fluid and the study of its parameters using measuring instruments in multilayer wells or monitoring the flow of fluid using installed control devices at the level of each reservoir.

The invention is illustrated in the drawing. In FIG. shows a general view of the device.

A device for simultaneous and separate operation of several productive horizons contains a nipple 1 connected to the y-adapter 2, which contains the supply pipe 3 and the pump unit 4. Below the supply pipe 4 in the well, an arrangement consisting of a funnel 5 is attached to which the tubing pipes 6 connected to the borehole chambers 7. Packers 8 and a plug 9 are placed on the tubing 6. Along the entire device for simultaneous and separate operation of several productive horizons, the passage T cable 10 on which are fixed the measuring or regulating devices 11 mounted to the top of each borehole chamber 7.

The device operates as follows.

The layout, consisting of a funnel 5, tubing 6, well chambers with measuring or regulating fluid flow devices 7, packers 8, plugs 9, is lowered into a multilayer well with separate horizons. Packers 8 fix and simultaneously separate the formation zones of horizons in the well. At a certain distance, the arrangement with the nipple 1, the y-adapter 2, with the supply pipes 3 and the pump unit 4, which allows transporting the fluid to the wellhead with the possibility of organizing a study of its physical and chemical properties, is lowered. To study the properties of the fluid in separate horizons, the measuring device 11 is omitted on the cable 10.

An example of a specific implementation of the method.

In the inventive method for the simultaneous and separate operation of several productive horizons to control fluid parameters in separate horizons while transporting it using pump unit 4, a measuring 11 or control device (not shown) is used, which falls under the packer 8 of each horizon inside the compressor pipes. For safe operation, the measuring or control device moves at the mouth along the entire device for simultaneous and separate operation of several productive horizons through the supply pipes 3 through the y-adapter 2 and the nipple 1, without contacting the pump unit 4. To control the fluid flow into the borehole chambers, devices (not shown in the drawing). In the case of geophysical surveys, a logging plug is installed in the y-adapter. In the case of geophysical studies using a flexible pipe, a plug for a flexible pipe is installed in the y-adapter. After conducting geophysical studies, a blank plug is installed in the y-adapter in order to prevent fluid circulation in the bypass system.

So, the claimed invention allows to expand the functionality of the method through the use of additional new elements, which ensure simultaneous and separate operation of several productive horizons, conduct research on the physical and chemical parameters of the fluid flow or adjust its flow during production without removing the pumping unit from the well.

Claims (6)

1. The method of simultaneous and separate operation of several productive horizons, which is lowered onto the tubing string and a liner with a through or plugged end, with a funnel, packers, downhole chambers and string disconnectors connected to each other by tubing sections is installed in the well characterized in that the measuring or control devices are lowered into the well using a device for simultaneous and separate operation of several productive horizons, including a system of bypass pumping unit is then mounted regulating and measuring instruments in the downhole camera by fishing tools, as well as geophysical investigations carried out on the entire length of the borehole instrumentation wireline. 2. A device for simultaneous and separate operation of several productive horizons, comprising a liner with a through or plugged end, with a funnel, packers, downhole chambers and column disconnectors, interconnected by tubing sections, measuring and regulating devices, characterized in that contains a bypass system for the pumping unit, which consists of a y-adapter with a plug, with supply pipes, with a pump unit, and to the tubing isoedinen y-adapter connected to the pump unit and the inlet pipe, and in the y-adapter plug installed. 3. The device according to claim 2, characterized in that the plug in the y-adapter is made blind. 4. The device according to claim 3, characterized in that the plug in the y-adapter is made logging. 5. The device according to claim 3, characterized in that the plug in the y-adapter is made for a flexible pipe. 6. The device according to claim 2, characterized in that the tubing and the y-adapter are interconnected using a nipple.