CN111852449B

CN111852449B - Continuous dragging type horizontal well produced liquid sectional test system

Info

Publication number: CN111852449B
Application number: CN202010940717.XA
Authority: CN
Inventors: 宋文平; 李大建; 程绍鹏; 徐月强; 乔健鑫; 代礼周; 杨君
Original assignee: Harbin Aituopu Technology Co ltd; Chongqing Research Institute of Harbin Institute of Technology
Current assignee: Harbin Aituopu Technology Co ltd; Harbin Institute of Technology; Chongqing Research Institute of Harbin Institute of Technology
Priority date: 2020-09-09
Filing date: 2020-09-09
Publication date: 2022-11-25
Anticipated expiration: 2040-09-09
Also published as: CN111852449A

Abstract

The invention relates to a segmented test system, in particular to a continuous dragging type horizontal well produced liquid segmented test system which comprises a ground controller, a single-core cable, a continuous oil pipe, a centralizer I, an oil pipe, an electronic control packer I, a tester, a production request pump, an electronic control packer II and a centralizer II.

Description

Continuous dragging type horizontal well produced liquid sectional test system

Technical Field

The invention relates to a sectional test system, in particular to a continuous dragging type horizontal well liquid production sectional test system.

Background

The horizontal well and the oil layer are kept horizontal, the larger contact area enables the horizontal well to have higher yield than a straight well, and the yield of a single well can reach more than three times of that of the straight well, so that the horizontal well and the oil layer are widely applied. The horizontal well adopting water injection and oil displacement can form water circulation of a water injection well and a production well after water is met, while the horizontal well adopting bottom water for oil displacement can be crossed into bottom water, and the water layer pressure is higher than that of an oil layer, so that the oil layer can not be close to a well head any more, and a dead oil zone is formed; the horizontal well is excavated, and natural cracks are met at a high probability to generate crack penetration, the water content of produced liquid is increased due to the water outlet modes, and the productivity of the horizontal well is reduced. Similarly, because the horizontal well and the oil layer are kept horizontal, the horizontal well is easier to produce a large amount of water than the vertical well, so that water logging is caused, and the water outlet condition is more serious when the pressure difference is larger. If the water content of the horizontal well is not timely taken after water breakthrough, the water content is continuously increased, the productivity is continuously reduced, so that the water finding is quickly carried out after the water breakthrough occurs to determine the water outlet position, and a corresponding water plugging method is adopted to prevent the water from continuously flowing into the horizontal well.

For example, the publication number CN206874269U is a horizontal well liquid production testing system matched with coiled tubing operation; the system comprises a ground numerical control device, a cable, a coiled tubing, a cable head and a horizontal well subsection testing pipe string; a cable is arranged in the coiled tubing; one end of the cable is connected with the ground numerical control device, and the other end of the cable is connected with the horizontal well subsection testing pipe string through a cable head; the horizontal well subsection testing pipe string comprises a flexible short section, a remote measuring short section, a screen pipe short section, an upper packer, a horizontal well liquid production tester and a lower packer which are sequentially connected; the utility model has the disadvantages that the information of the liquid at the position can not be accurately measured; the existing horizontal well production fluid testing system matched with coiled tubing operation, such as CN206874269U, adopts a mode of putting and salvaging each interval once, and if production fluid is required to be added and pumped by a production pump, the operation of putting and salvaging twice is required, so that the problems of large construction amount and low testing efficiency exist.

Disclosure of Invention

The invention aims to provide a continuous dragging type horizontal well produced liquid subsection testing system which can accurately measure the information of liquid at the position of the horizontal well.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a drag formula horizontal well production liquid segmentation test system in succession, includes oil pipe, automatically controlled packer I, tester, asks product pump and automatically controlled packer II, through tubing connection between the export of tester and asking product pump, through tubing connection between automatically controlled packer I and the tester, automatically controlled packer II with ask through tubing connection between the product pump, ask in the pump with the liquid suction tester between automatically controlled packer I and the automatically controlled packer II.

As a further optimization of the technical scheme, the continuous dragging type horizontal well produced liquid sectional testing system is characterized in that the production obtaining pump is a micro screw pump driven by a high-torque direct-current motor.

As a further optimization of the technical scheme, the continuous dragging type horizontal well produced liquid sectional testing system is characterized in that a plurality of through flow holes are formed in an oil pipe located at an inlet of the production-seeking pump.

As further optimization of the technical scheme, the continuous dragging type horizontal well produced liquid subsection testing system is characterized in that the equivalent overflowing diameter of the electric control packer I and the electric control packer II is 20-35 mm, and the outer diameter of the electric control packer I and the outer diameter of the electric control packer II are 90-110 mm.

As further optimization of the technical scheme, the continuous dragging type horizontal well produced fluid sectional test system further comprises a centralizer I and a centralizer II, wherein the centralizer I is connected with the electronic control packer I through an oil pipe, and the centralizer II is connected with the electronic control packer II through an oil pipe.

As further optimization of the technical scheme, the continuous dragging type horizontal well produced liquid sectional testing system further comprises a continuous oil pipe, and the continuous oil pipe is connected with a centralizer I.

As further optimization of the technical scheme, the continuous dragging type horizontal well produced fluid sectional test system further comprises a ground controller and a single-core cable, wherein the ground controller is arranged on the ground and connected with the single-core cable, the single-core cable is arranged in the continuous oil pipe, and a production pump, a tester, a centralizer I, an electric control packer II and a centralizer II are connected with the single-core cable.

As further optimization of the technical scheme, the continuous dragging type horizontal well produced liquid subsection testing system comprises a tool string consisting of a centralizer I, an electric control packer I, a tester, a production pump, an electric control packer II, a centralizer II and oil pipes connected among the centralizer II.

As further optimization of the technical scheme, the inner diameter of the oil pipe is 62mm.

The continuous dragging type horizontal well produced liquid subsection testing system has the beneficial effects that:

the continuous dragging type horizontal well liquid production subsection testing system can realize the purpose of measuring any underground section by dragging through the continuous oil pipe; the novel production-seeking pump is adopted, the operation can be realized only by supplying power to a wellhead, the construction difficulty is reduced, the tester is connected with the outlet of the production-seeking pump, underground real-time data can be quickly obtained, and the output condition of each section can be analyzed in real time; ask to produce the pump and place inside the tool string, when change test interval, need not to put in alone and salvage asking to produce the pump, shortened construction operation required time greatly, improved efficiency of software testing, the setting and the deblocking of automatically controlled packer I and automatically controlled packer II receive ground controller's initiative regulation and control, can realize test position wantonly, test time adjusts.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of a horizontal well production fluid subsection testing system based on coiled tubing dragging.

In the figure: a ground controller 1; a single core cable 2; a coiled tubing 3; a centralizer I4; an oil pipe 5; an electric control packer I6; a tester 7; a yield pump 8; an electric control packer II 9; and a centralizer II 10.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first specific implementation way is as follows:

the embodiment is described below with reference to fig. 1, and a continuous dragging type horizontal well produced fluid sectional test system comprises an oil pipe 5, an electric control packer I6, a tester 7, a production seeking pump 8 and an electric control packer II 9, wherein outlets of the tester 7 and the production seeking pump 8 are connected through the oil pipe 5, the electric control packer I6 and the tester 7 are connected through the oil pipe 5, the electric control packer II 9 and the production seeking pump 8 are connected through the oil pipe 5, liquid discharged from an outlet of the production seeking pump 8 enters the tester 7, the production seeking pump 8 pumps the liquid between the electric control packer I6 and the electric control packer II 9 into the tester 7, and the tester 7 tests the temperature, pressure, flow and water content of overflowing liquid; in a packing state, the outer diameter of the rubber cylinder is increased by extrusion to realize sealing, and the rubber cylinder is used for separately separating the interval to be measured, so that liquid outside the interval cannot be sucked by the production pump 8; because the electric control packer I6 and the electric control packer II 9 are used for packing liquid, no liquid flows, the liquid information of the position can be more accurately measured, and the direct measurement of the parameters of the producing zone can be realized; the electric control packer I6 and the electric control packer II 9 are electric control mechanisms for driving the rubber sleeve to compress and reset, so that repeated setting and unsetting actions of the electric control packer I6 and the electric control packer II 9 are realized; the yield-seeking pump 8 can quickly suck liquid into the tester 7, so that quick and accurate detection is realized; the production seeking pump 8 is thrown into the horizontal well section along with the tool string, and can work immediately after setting is finished without independent throwing.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, and the present embodiment further describes a first embodiment, in which the yield pump 8 is a micro screw pump driven by a large-torque direct current motor; the yield-seeking pump 8 is realized by driving a micro screw pump by a large-torque direct-current motor, the pressure difference between the outlet and the inlet of the yield-seeking pump 8 is not more than 10MPa, and the flow is not more than 20m ³ /d。

The third concrete implementation mode:

the present embodiment is described below with reference to fig. 1, and the present embodiment further describes the first embodiment, in which a plurality of through-flow holes are provided in the oil pipe 5 at the inlet of the production pump 8; the liquid can smoothly flow into the production obtaining pump 8, the separation of the section to be detected is realized by the electric control packer I6 and the electric control packer II 9, and the production obtaining pump 8 only sucks the liquid between the electric control packer I6 and the electric control packer II 9; because the electric control packer I6 and the electric control packer II 9 are used for packing liquid, no liquid flows, and the liquid information at the position can be measured more accurately; in single downhole operation, the electric control packer I6 and the electric control packer II 9 can be effectively set and unset repeatedly.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, and the embodiment further describes the first embodiment, wherein the equivalent flow-through diameter of the electrically controlled packer i 6 and the electrically controlled packer ii 9 is 20 to 35mm, and the outer diameter is 90 to 110mm. Slightly smaller than the borehole wall.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, and the embodiment further describes the first embodiment, the horizontal well produced fluid subsection testing system based on coiled tubing dragging further includes a centralizer i 4 and a centralizer ii 10, the centralizer i 4 and the electronic control packer i 6 are connected through an oil pipe 5, and the centralizer ii 10 and the electronic control packer ii 9 are connected through an oil pipe 5; the external diameter of centralizer I4 and centralizer II 10 slightly is lighter than the well hole, is greater than the tool string, consequently when the borehole internal motion, centralizer I4 and centralizer II 10 can guarantee that the tool string is concentric basically with the well hole, can not take place obvious slope, and then reach and avoid equipment dead problem of card in the pit.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1, and the fifth embodiment is further described in the embodiment, the horizontal well produced fluid segmented testing system based on coiled tubing dragging further comprises a coiled tubing 3, and the coiled tubing 3 is connected with a centralizer i 4; the coiled tubing 3 is pushed by the oil field equipment of the wellhead hydraulic device to axially advance/retreat so as to drive the tool string connected with the coiled tubing to advance/retreat together; under the dragging of the coiled tubing 3, the tool string moves to the next interval to be tested, and the process is repeated until the test of the whole horizontal well is completed; and analyzing the test parameters and determining the position of the layer interval where water is produced.

The seventh embodiment:

the embodiment is described below with reference to fig. 1, and the sixth embodiment is further described, wherein the horizontal well produced fluid sectional test system based on coiled tubing dragging further comprises a ground controller 1 and a single-core cable 2, the ground controller 1 is arranged on the ground, the ground controller 1 is connected with the single-core cable 2, the single-core cable 2 is arranged in the coiled tubing 3, and a production pump 8, a tester 7, a centralizer i 4, an electronic control packer i 6, an electronic control packer ii 9 and a centralizer ii 10 are all connected with the single-core cable 2; the electric control packer I6 and the electric control packer II 9 receive an instruction of the ground controller 1 to perform active packing action, and the outer diameters of rubber cylinders of the electric control packer I6 and the electric control packer II 9 are increased under the extrusion action to extrude a well wall to realize sealing; the production seeking pump 8 starts to pump liquid after receiving an instruction of the ground controller 1, a plurality of through holes are formed in the position, close to the inlet of the production seeking pump 8, on the oil pipe 5, so that the liquid can smoothly flow into the production seeking pump 8, and the production seeking pump 8 only pumps the liquid between two

electric control packers

9,6 as the electric control packer I6 and the electric control packer II 9 realize the separation of the section to be measured; liquid discharged from the outlet of the yield pump 8 enters the tester 7, the tester 7 tests the temperature, pressure, flow and water content of overflowing liquid, and signals are transmitted in the ground controller 1 in real time through the single-core cable 2; after the test analysis is completed, the production-seeking pump 8 receives an instruction for stopping pumping of the ground controller 1, and meanwhile, the electric control packer I6 and the electric control packer II 9 receive an instruction for deblocking of the ground controller 1.

The specific implementation mode is eight:

the embodiment is described below with reference to fig. 1, and the seventh embodiment is further described, wherein the centralizer i 4, the electronic control packer i 6, the tester 7, the production pump 8, the electronic control packer ii 9, the centralizer ii 10 and the oil pipe 5 connected therebetween form a tool string; the electric control packer I6 and the electric control packer II 9 can be internally provided with a timing automatic setting and unsetting program, the production pump 8 can be internally provided with a timing automatic starting and stopping program, and the tool string can be automatically measured underground by matching with the timing dragging of the continuous oil pipe 3, and the ground controller 1 only carries out power supply and underground signal acquisition; after the tool string is thrown to a designated position, the ground controller 1 controls the electric control packer I6 and the electric control packer II 9 to move so as to complete setting and unsetting; the ground controller 1 controls the production-seeking pump 8 to start and stop; the tool string can carry out setting test on any layer section at any position under the dragging of the coiled tubing, and does not need to be thrown and dragged for many times in the midway.

The specific implementation method nine:

the present embodiment will be described with reference to fig. 1, and the present embodiment further describes the first to eighth embodiments, wherein the inner diameter of the oil pipe 5 is 62mm.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a drag formula horizontal well production liquid segmentation test system in succession, includes oil pipe (5), automatically controlled packer I (6), tester (7), asks production pump (8) and automatically controlled packer II (9), its characterized in that: the tester (7) is connected with an outlet of the production-seeking pump (8) through an oil pipe (5), the electric control packer I (6) is connected with the tester (7) through the oil pipe (5), the electric control packer II (9) is connected with the production-seeking pump (8) through the oil pipe (5), and the production-seeking pump (8) pumps liquid between the electric control packer I (6) and the electric control packer II (9) into the tester (7);

the oil pipe (5) at the inlet of the yield pump (8) is provided with a plurality of through holes;

the automatic control device is characterized by further comprising a centralizer I (4) and a centralizer II (10), wherein the centralizer I (4) is connected with the electronic control packer I (6) through an oil pipe (5), and the centralizer II (10) is connected with the electronic control packer II (9) through the oil pipe (5);

the oil pipe is characterized by further comprising a continuous oil pipe (3), wherein the continuous oil pipe (3) is connected with a centralizer I (4);

still include ground controller (1) and single core cable (2), ground controller (1) sets up subaerial, ground controller (1) and single core cable (2) are connected, and single core cable (2) set up in coiled tubing (3), ask for product pump (8), tester (7), centralizer I (4), automatically controlled packer I (6), automatically controlled packer II (9) and centralizer II (10) all are connected with single core cable (2).

2. The continuous drag-type horizontal well produced fluid staged testing system according to claim 1, characterized in that: the yield-seeking pump (8) is a micro screw pump driven by a large-torque direct-current motor.

3. The continuous drag-type horizontal well produced fluid staged testing system according to claim 1, characterized in that: the equivalent overflowing diameter of the electric control packer I (6) and the electric control packer II (9) is 20-35 mm, and the outer diameter is 90-110 mm.

4. The continuous drag type horizontal well liquid production subsection test system of claim 1, which is characterized in that: the centralizer I (4), the electric control packer I (6), the tester (7), the production pump (8), the electric control packer II (9), the centralizer II (10) and the oil pipe (5) connected with the centralizer II (10) form a tool string.

5. The continuous drag type horizontal well liquid production subsection testing system of any one of claims 1 to 4, characterized in that: the inner diameter of the oil pipe (5) is 62mm.