JPH0274785A - Device and method of extracting oil - Google Patents

Abstract

PURPOSE: To prevent deterioration of a pump device due to highly viscous crude oil by introducing auxiliary and/or conservative fluid in the inside of an oil producing pump in a precise proportion, without exerting adverse influence on an oil producing facility. CONSTITUTION: A subsoil pump 22 is positioned in an oil producing tube 16 to pump up oil on the ground from a ground layer and is furnished with a casing and a jacket 24, an inlet 26 such as a fixed inlet valve, a movable piston 28 and an outlet 30 such as a moving outlet valve. Oil is introduced to the inside of the casing 24 through the inlet valve 26 by rising of a piston 28 in this pump 22. Additionally, a means 32 for introducing a liquid such as thinner in a precise proportion is furnished in the pump 22 at the same level of or slightly above the inlet valve 26. Consequently, when the piston 28 rises, oil and fluid respectively flows into the inside of the pump 22 through the inlet valve 26 and an opening 34. At this time, introduced quantity of fluid is regulated by a check valve 42 so as to produce an ideal fluid-crude oil mixture.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) This invention relates to the extraction of crude oil from a geological formation, and more particularly to the injection of a fluid into a well that is useful for the production of wells and/or the maintenance of oil production equipment. Concerning apparatus and methods. According to the apparatus and method according to the present invention, an ideal amount of fluid can be injected to easily produce crude oil from a well.

Prior Art In the prior art, fluids were injected into oil producing wells in a variety of ways. For example, as shown in Figure 1,
A fluid is injected into the space between the well casing and the oil producing tube to dilute the pumped oil. The diluent fluid and crude oil are then mixed below the pump inlet.

However, in this method, the injection pressure of the dilution fluid and the static pressure of the fluid already in the annular space suppress the production oil pressure in the pond bed, reducing the efficiency of the oil production equipment.

As shown in FIG. 2, a method of injecting fluid into a well through an oil production pipe is also a conventionally known method.

In this process, mixing of the crude oil and fluid occurs in a through nipple, typically located about 50 feet above the production pump. The fluid/crude oil mixture is then discharged to the surface through the annular space between the well casing and the production pipe and through the nipple perforations.

(Problems to be Solved by the Invention) However, this technique has several drawbacks. First, when diluent fluid is injected into the well in this manner, it does not pass through the oil production bump. As a result, the high viscosity of the crude oil degrades the pumping equipment and eventually renders the pump unusable.

Second, this device cannot be used to inject maintenance fluids, such as anti-corrosion fluids or antioxidants, into the production facility because the fluids do not pass through the production pump.

Yet another drawback of these prior art techniques is that they do not provide the auxiliary fluid accurately and in ideal proportions to facilitate the pumping process.

The present invention therefore solves these problems of the prior art by introducing auxiliary and/or maintenance fluid into the oil production pump at a precise rate without adversely affecting the oil production equipment. Furthermore, in detail, fluid is introduced into the oil production pump without generating load pressure that suppresses oil production.

SUMMARY OF THE INVENTION An oil removal device according to the invention includes means for sequentially introducing a precise proportion of auxiliary, repair or maintenance fluid into the oil production pump at the oil inlet level. The oil production pump then includes a movable piston, means for reciprocating the piston, a fixed inlet valve, and a moving outlet valve. The introduction means consists of an opening in the pump casing through which the fluid is introduced into the pump, means for connecting to a source of fluid, and a check valve for supplying the correct insect fluid. Additionally, in a preferred embodiment, the source of fluid comprises fluid injected into the annular space between the well casing and the production tube.

(Operation) During operation, fluid is injected into the annular space between the well sink and the oil producing duplex. In the first stage, when the piston is raised, the inlet valve of the pump opens and crude oil flows into the pump. At the same time, a check valve in the fluid introduction means opens and a predetermined amount of fluid is introduced into the pump through the opening in the casing. At this stage, complete mixing of oil and fluid occurs. When the piston descends, the inlet and check valves are closed, creating compression.

When the pressure of the oil/fluid mixture becomes greater than the pressure above the piston, the outlet valve of the pump opens and the oil/fluid mixture flows out of the pump. The piston is then raised and the above steps are repeated.

This invention is used to introduce diluent fluid into the pump to reduce the viscosity of the oil being pumped. It is also used to introduce repair or maintenance fluid into the pump to improve oil production efficiency.

Accordingly, it is an object of this invention to provide an apparatus and method for improved crude oil extraction.

Another object of the present invention is to provide an apparatus and method that can supply an accurate amount of auxiliary fluid to oil production equipment without generating a load pressure that suppresses the production oil pressure in the pond bed.

A further object of the invention is to provide an apparatus and method for supplying repair and/or maintenance fluids to oil production equipment.

Furthermore, the objects and effects of this invention will become clear from the following examples.

Embodiments As already mentioned, the present invention relates to an improved apparatus for recovering crude oil.

FIG. 3 is an explanatory diagram of a well opening into the pond bed.

The well typically includes a well casing 12 having a plurality of through holes 14 for admitting oil into the well. The oil production tube 16 is located in the center of the well casing! An annular space 18 is formed between the two. The bottom of the annular space is separated from the bottom of the formation by a suitable backing material 20.

A subsoil pump 22 is located within the production tube 16 for pumping oil from the formation' to the surface. Pump 22 includes a casing or jacket 24, a fixed inlet valve or the like, and a movable piston 28, as shown in FIG.
and an outlet 30 such as a mobile outlet valve. The piston 28 can reciprocate up and down. The piston is only shown schematically in this figure. The piston 28 is connected to the tube 1 by an annular member 29 as shown in FIGS.
It is located isolated within 6. The piston is suspended by a rod string 31 which is connected to suitable means, not shown, for raising and lowering the piston.

A typical subsoil pump is shown here.

In such a pump, oil is introduced into the casing 24 through the inlet valve 26 by the upward movement of the piston. When the piston descends, compression begins. When the pressure of the oil in the casing becomes higher than the pressure above the piston, the outlet valve 30 opens and the oil flows into the oil producing tube 16 and ultimately to the surface.

The viscosity of crude oil is very high, and in high production wells this can cause significant deterioration of the pumping equipment, rendering the pumps unusable. One technique to solve this problem is to dilute the oil with a fluid to form a lower viscosity oil/fluid mixture. When using this technology, it is important to (1) add the diluent fluid to the oil in an appropriate ratio, and (2) add the diluent fluid in the opposite direction to the oil production direction (the direction in which the oil is pumped to the surface) of the pond bed. The diluent fluid is added in such a way that it does not create a working load pressure.

Accordingly, the present invention provides a means 32 for introducing a fluid such as a diluent in a precise proportion, as shown in FIGS. 3 and 4.
is provided in the pump 22 at or slightly above the level of the inlet valve 26, so that no load pressure is created relative to the production oil pressure. The means 32 are then constituted by an opening 34 provided in the side wall 33 of the pump casing. The opening 34 is suitably sized with a predetermined diameter to allow a predetermined amount of fluid to enter the pump.

The opening 34 is connected by a fluid passageway 38 to a source of fluid 36 within the annular space 18 . One advantage of using the annular space I8 to hold the fluid supply is that the weight of the fluid injected into the annular space is supported by the backing material 20, which is located about 30 feet below the pump. This is something that can be done.

Although not shown here, any suitable means known in the art may be used to inject fluid 36 into annular space 18.

A filter 40 is provided at the entrance of the passage 38 to remove mixtures such as fine substances in the fluid 36. Passage 38 is further provided with a check valve 42 to ensure that the correct and desired amount of fluid is introduced through opening 34. The check valve 42 includes a valve seat 44 having a fluid opening 45, a ball 46 for closing the opening, and a spring 48.

As shown in FIG. 6, as piston 28 rises, oil and fluid flow into pump 22 through inlet valve 26 and opening 34, respectively. At this time, the fluid introduction is regulated by a check valve so that an ideal fluid-crude oil mixture is produced.

At the same time, oil and fluid are pumped into the pump to ensure complete mixing of the oil and fluid. As shown in Figure 7,
When the piston 28 descends, compression begins. As a result, the ball of the inlet valve 26 seats and closes the oil inlet. Also, the ball 46 of the check valve 42 is seated, thereby stopping the flow of fluid 36 through the opening 34. When the pressure of the oil/fluid mixture 50 becomes higher than above the piston, the transfer outlet valve 30 opens and the oil/fluid mixture 50 flows into the oil production tube 16 .

As already mentioned, fluid 36 reduces the viscosity of the crude oil;
Auxiliary fluids such as diluents can be used to facilitate pumping to the surface or emulsion separator. Fluid 36 may also include corrosion inhibitors, antioxidants, and other fluids useful in equipment maintenance. Furthermore,
The fluid can be a repair fluid or other chemicals such as skimmers, flocculators, anti-paraffin agents, and disinfectants.

According to the present invention, auxiliary, repair, or maintenance fluid can be introduced into the oil pump in a regulated and precise amount according to the demands of the oil production.

If desired, regulation of fluid entering the pump may be effected by adjusting the apertures 34 and/or by adjusting the check valve elements. Any suitable means known in the art may be used to adjust the aperture 34 and/or the check valve member. Alternatively, any other suitable proportioning method known in the art may be used to adjust the proportion of the amount of fluid in the oil.

(Effects of the Invention) According to this invention, crude oil can be pumped up very easily. Further, according to the present invention, problems such as bar floating, valve failure, insufficient dilution fluid, and insufficient mixing of crude oil and fluid can be solved.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram of a conventional device for adding fluid into oil, FIG. 2 is a schematic diagram of a conventional device for adding fluid into oil, and FIG. 4 is an exploded view of the auxiliary/maintenance fluid introduction device of the present invention. FIG. 5 is a partial cross-sectional view of the oil extraction device according to the present invention. FIG. FIG. 6 is an explanatory diagram, and FIG. 7 is an explanatory diagram. The first stage of the method of this invention The second stage of the method of this invention JFl'G-5 JFi-G-B FZG-7

Claims (1)

[Scope of Claims] (1) means for pumping oil in a first direction from a subsurface oil bed, the pumping means comprising a pump having an oil inlet at a predetermined subsurface level; and means for introducing fluid sequentially and in precise proportions at the level of said inlet without creating a load pressure acting in the opposite direction. (2) the inlet comprises a fixed inlet valve, the pumping means comprises an outlet valve and a casing, and the introducing means comprises an opening formed in the wall of the casing located between the inlet valve and the outlet valve; An apparatus according to claim 1, comprising: 3. The apparatus of claim 2, wherein said opening is sized to allow a predetermined amount of said fluid to flow out. (4) The device according to claim 2, wherein said introducing means further comprises a fluid source, a passageway connecting said openings, and a check valve provided in said passageway for passing a predetermined amount of said fluid to said openings. . (5) The pumping means comprises a movable piston and a means for reciprocating the piston, and in a first stage, oil is introduced into the pump casing through the inlet valve, and fluid is introduced into the casing through the opening. inflow,
5. Apparatus as claimed in claim 4, characterized in that in the second stage, when the inlet valve and check valve are in the closed position, the oil and fluid mixture is discharged through the outlet valve. (6) a well casing, an oil producing tube inserted into the well casing so as to form an annular space between the well casing, means for injecting fluid into the annular space, and the introduction means; 2. The apparatus of claim 1, further comprising means for removing fluid from said annular space. 7. The apparatus of claim 6, wherein said removal means includes means for filtering the fluid. (8) The apparatus according to claim 6, wherein a backing material is provided between the well casing below the inlet and the oil production tube in order to support the fluid injected into the annular space. 9. The apparatus of claim 1, wherein said introducing means supplies fluid to dilute the oil and reduce its viscosity. (10) The introducing means repairs and/or repairs the pumping means.
2. The device according to claim 1, wherein the device supplies fluid for the purpose of retaining or retaining the fluid. (11) A well is equipped with a subsoil pump having a casing located at a predetermined level below the ground surface and an inlet for introducing oil, and a predetermined amount of fluid is sequentially introduced from openings provided in the casing at the level of the inlet. , a method for extracting highly viscous crude oil that does not generate reverse load pressure on the oil entering the pump. (12) The method according to claim 11, wherein the introducing step comprises a step of introducing a fluid to reduce the viscosity of the oil and make it easier to pump out the oil from the well, and a step of thoroughly mixing the fluid and the oil. . (13) The pump includes means for regulating the fluid introduced through the opening to a predetermined amount, and further includes an outlet valve, a movable piston, and a means for reciprocating the piston, wherein the pump is configured such that the piston moves in the first direction. When the piston moves in a second direction opposite to the first direction, oil and fluid are introduced into the casing at a predetermined ratio, and when the piston moves in a second direction opposite to the first direction, the oil inlet and the fluid restriction means are closed. 13. The method of claim 12, wherein pressure is applied to the oil and fluid mixture such that the pressure of said mixture opens an outlet valve and discharges the mixture. (14) The well includes a casing and an oil production tube located so as to form an annular space within the casing, and injects fluid into the annular space to cause a predetermined amount of the fluid to pass through the opening. 12. A method as claimed in claim 11, comprising introducing fluid into the opening through means for regulating the flow rate. (15) The method according to claim 11, wherein the introducing step introduces a corrosion inhibitor. (16) The method according to claim 11, wherein the introducing step introduces an antioxidant. (17) The method according to claim 11, wherein the introducing step introduces a skimmer. (18) The method according to claim 11, wherein the introduction step introduces an emulsion separating agent. (19) The method according to claim 11, wherein the introducing step introduces a flocculator. (20) The method according to claim 11, wherein the introducing step introduces a paraffin inhibitor. (21) The method according to claim 11, wherein the introducing step introduces a bactericide.