KR101993859B1 - Container module for extraction and control of oil sand - Google Patents

Abstract

The present invention relates to a container module for collecting and controlling oil sand, which is characterized by comprising: a steam introduction unit into which high-temperature and high-pressure steam is introduced; a steam manifold including a steam supply control unit and a steam discharge unit; a supply steam distribution unit supplying steam for pre-heating; an oil collecting manifold including an oil introduction unit, an oil collecting control unit, a 3-way valve, an oil discharge unit, and an initial gas introduction line; a gas collecting manifold including a collected gas introduction unit, a collected gas discharge unit, and a collected gas transfer control unit; a closed gas manifold injecting closed gas into an upper portion of an underground oil sand; and a container module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a container module for extracting and controlling oil sand,

The present invention relates to a container module for collecting and controlling oil sand. More particularly, the present invention relates to a steam manifold that is detachably connected to a plurality of wells connected to a plurality of wells constructed around an oil sump embedded in an underground, an oil collecting manifold, a gas collecting manifold, The present invention provides a container module in which a gas manifold is built in. When the collection of the oil sands is finished, only the container module is separated from the plurality of wells and transferred to the new oil sand tank to be reinstalled, thereby remarkably shortening the construction period for the new tank To a container module for collecting and controlling oil sand.

Generally, oil sands are composed of 75 ~ 85% of inorganic materials (sand, clay, minerals, etc.), 3 ~ 5% of water and 1 ~ 18% of bitumen due to the geological environment. , Has a high weight and high viscosity characteristics and does not flow through the pipeline. Therefore, it is heat-treated or mixed with a diluent such as light oil to lower viscosity and then transported. In some parts of Canada and Mongolia, .

These oil sands are buried in 50m ~ 75m underground. In order to collect buried oil sand, the oil sand is solidified by using high temperature and high pressure steam, phase change to liquid phase and viscosity is lowered, And so on.

However, in the case of the above-described conventional oil sand collecting method, a part of water vapor generated in the process of dissolving the oil sand by spraying high-temperature and high-pressure steam is leaked to the outside, .

In particular, in the case of collecting oil sands buried underground, it is possible to collect only for a limited period of time for about 5 years. Therefore, various facilities installed for collecting oil sands can be disassembled and disposed of, There is a problem in that efficiency and economical efficiency of collecting the oil sand are deteriorated.

Korean Patent No. 10-1481459

In order to solve such problems, the present invention has been devised in view of the above-mentioned background art, and it is an object of the present invention to provide a method and apparatus for separating oil sands from a plurality of wells connected to a plurality of wells, The present invention provides a container module having a steam manifold, an oil collecting manifold, a gas sampling manifold, and a hermetically sealed gas manifold. When the collection of the oil sand is completed, only the container module is separated from the plurality of wells and transferred to the new oil sand tank And to provide a container module for collecting and controlling oil sand that can remarkably shorten a construction period for a new facility by re-installing the container.

In addition, since the container module is preliminarily manufactured from a specialized worker or the like and installed in an oil sand tank, it is not necessary to repeatedly disassemble and reassemble each of the manifolds, thereby shortening the construction schedule for oil sand collection, And an object of the present invention is to provide a container module for collecting and controlling oil sand that can improve the cost and the cost.

In addition, the present invention facilitates demolition, transportation, and re-installation of the container module, thereby making it possible to reuse equipment installed for collecting the oil sand, And to provide a control container module.

It should be understood, however, that the scope of the present invention is not limited thereto, but includes any object or effect which can be understood from the solution or the embodiment of the present invention without explicitly mentioning it.

According to an aspect of the present invention, there is provided a steam generator comprising: a steam inlet for introducing high-temperature and high-pressure steam; a steam supply controller for controlling a supply amount of the high- And a steam discharging portion for injecting high-pressure steam into a plurality of wells to cause a phase change of the solidified oil sand; A supply steam distribution unit branched from the steam manifold to discharge the high-temperature and high-pressure steam to the outside, or to supply preheating steam so as to preheat the plurality of wells during an initial operation for collecting oil; An oil collecting control unit for controlling the mining pressure for mining the oil transferred through the oil collecting unit; and an oil collecting control unit for controlling the mining pressure for extracting the oil conveyed through the oil collecting unit, A 3-way valve for switching the direction of the collected oil; an oil outlet connected to the 3-way valve for transferring the collected oil to the oil treatment facility; An oil pick-up manifold including an initial gas inlet line for transferring gas; A collecting gas inlet for separating the gas transfer pipe for transferring the by-product gas to the ground, a collecting gas discharging unit for transferring the collecting gas to the gas facility, and a collecting gas conveying unit for collecting the collected gas, A gas sampling manifold including a control portion; A hermetic gas manifold for injecting the hermetic gas into the upper portion of the underground oil sand according to the internal pressure of the gas sampling manifold; And the respective manifolds are installed in the inside to be detachably coupled with the plurality of wells, and the steam inlet portion, the oil inlet portion, the sampling gas inlet portion, and the hermetically sealed gas injection portion of the hermetic gas manifold And a container module in which the steam discharging portion, the oil discharging portion, the collecting gas discharging portion, and the first and second hermetically sealed gas discharging portions of the hermetically sealed gas manifold are formed as one front portion.

According to an embodiment of the present invention, the steam supply control unit is controlled by an external control device, and the external control device is configured to automatically control the flow rate and pressure of the high-temperature high-pressure steam. do.

According to an embodiment of the present invention, the supply steam distributor may be configured to display the supply amount or the injection amount of the distribution steam dispensed from the main pipeline line of the steam manifold, and to control the supply amount of the distribution steam by the external control device Steam flowmeter; A steam safety valve for discharging a predetermined amount or more of steam to the outside; A first distribution steam discharge unit configured to discharge steam to be supplied to the steam discharge line and a second discharge gas discharge unit configured to supply the distribution steam to the plurality of wells to preheat the steam; And a control unit.

According to one embodiment of the present invention, the oil collecting control unit measures the mining pressure of the oil, and when the measured result falls to the minimum mining pressure corresponding to a state in which the mining of the oil is difficult, And transmits an alarm signal to the device.

According to an embodiment of the present invention, the oil collecting manifold further includes a test oil manifold connected to the 3-way valve and transferring the collected oil to an oil test facility when the collected oil is supplied .

According to an embodiment of the present invention, when the collection of the oil from the plurality of wells is finished, the container module is configured to be transferred to and installed in a plurality of new wells in which the oil sand is formed.

According to the embodiment of the present invention, when the collection of the oil sand is completed, only the container module is separated from the plurality of wells connected to the plurality of wells, and is transferred to the new oil sand tank to be reinstalled. Demolition, transfer, and re-installation of the new facility can be facilitated and the construction period for the new facility can be drastically shortened.

Further, according to the embodiment of the present invention, it is not necessary to repeatedly disassemble and reassemble each of the manifolds by preliminarily manufacturing the container module from a professional worker or the like and installing the container module in the oil sand tank, The schedule can be shortened, the quality can be improved, and the cost can be reduced.

In addition, according to the embodiment of the present invention, since each manifold installed for collecting oil sand can be reused, it is eco-friendly to collect oil sand, and economical efficiency can be further improved.

In addition, the various and advantageous advantages and effects of the present invention are not limited to the above description, and can be more easily understood in the course of describing a specific embodiment of the present invention.

1 is a perspective view of a container module for collecting and controlling oil sand according to an embodiment of the present invention;
2 is a plan view of a container module for collecting and controlling oil sand according to an embodiment of the present invention,
3 is a front view showing a container module for collecting and controlling oil sand according to an embodiment of the present invention;
4 and 5 are side views showing a container module for collecting and controlling oil sand according to an embodiment of the present invention,
6 and 7 are process diagrams showing manifolds of the container module for collecting and controlling oil sand according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected to or connected to the other component, It should be understood that an element may be "connected," "coupled," or "connected."

FIG. 1 is a perspective view of a container module for collecting and controlling oil sand according to an embodiment of the present invention; FIG. 2 is a plan view of a container module for collecting and controlling oil sand according to an embodiment of the present invention; FIGS. 4 and 5 are side views showing a container module for collecting and controlling oil sand according to an embodiment of the present invention, and FIGS. 6 and 7 show a side view of a container module for collecting and controlling oil sand according to an embodiment of the present invention. FIG. 2 is a process diagram showing manifolds of a container module for collecting and controlling oil sand according to an embodiment of the present invention. FIG.

As shown in the figure, the container module for collecting and controlling oil sand of the present invention is connected to a plurality of wells constructed in the basement where the oil sands are buried for collecting oil sands, (Hereinafter, referred to as " gauge ") and the like, which are separated from the plurality of wells and wells at the end of collecting the oil sludge, The oil collecting manifold 200, the gas collecting manifold 300, the test oil manifold 400, and the test oil collecting unit 400 are separated from each other, A hermetic gas manifold 500 and a container module 600.

The steam manifold 100 is a piping line configured to spray a high-temperature and high-pressure steam to an oil sand layer buried in the ground to cause a phase change of the solidified oil sand and lower the viscosity of the oil sand, The steam supply unit 120, the steam circulation unit 130, the steam discharge unit 150, the supply steam distribution unit 160, the distribution steam flow meter 160, A steam safety valve 180, and a dispensing steam discharging unit 190. As shown in FIG.

The steam inlet portion 110 is formed at a rear side of a frame located at one side of the side frame 620 of the container module 600 and is connected to a steam supply device (not shown) for supplying steam at a high temperature and a high pressure .

The steam inlet portion 110 may be formed at the rear end of the steam manifold 100 and may be formed as a coupling flange so as to be detachably coupled to the steam supply device. (620). ≪ / RTI >

The steam supply control unit 120 is configured on the steam manifold 100 in the form of a piping line and is configured to be positioned in the inner space of the container module 600. The steam supply control unit 120 is configured to supply the high- The supply amount and the supply pressure are controlled, and the control of whether or not to supply the high-temperature high-pressure steam is made.

The steam supply control unit 120 includes a steam flow rate control unit 122 for controlling the amount of steam supplied to the high temperature and high pressure steam, a steam pressure control unit 124 for controlling the supply pressure to the high temperature and high pressure steam, The steam supply control unit 122 controls the steam pressure control unit 124 to control the opening and closing of the steam manifold 100 so that the steam is supplied at a constant flow rate and pressure, And a valve 126.

The steam flow rate control unit 122 and the steam pressure control unit 124 control the supply amount and the supply pressure of the high temperature and high pressure steam when the high temperature and high pressure steam is supplied through the steam manifold 100 composed of the high temperature and high temperature steam line The steam flow meter panel and the steam pressure gauge panel are further configured.

The steam flow rate control unit 122 and the steam pressure control unit 124 may be configured to be controlled by an external control device (not shown), and may be configured to control the flow rate (supply amount or injection amount) of the supplied high- (Supply pressure, or injection pressure) can be automatically controlled.

At this time, the automatic control for the high-temperature high-pressure steam is supplied to the steam discharging part 150 at a constant flow rate by the flow rate information set by the external control device, and the high-temperature high-pressure steam is sprayed to the oil sand side of the plurality of wells So that the injection is made to the steam injection part side.

The steam circulation unit 130 circulates or discharges the high-temperature high-pressure steam to the outside when steam of a predetermined amount or more is drawn from the steam inlet 110 connected to the steam supply unit, And is configured to be opened or closed under the control of the steam flow rate control unit 122 or to be opened or closed under the control of an external control device.

The steam circulation unit 130 may be a conventional bypass line and may be connected to the steam flow control unit 122 and the steam inlet unit 110 and between the steam pressure control unit 124 and the steam supply control valve 126 Respectively.

The steam discharging unit 150 is configured on the front side of the frame located at one side of the side frame 620 of the container module 600 and connected to the steam injecting unit among the plurality of wells, The steam is injected into the steam injecting unit to cause a phase change of the solidified oil sand.

The steam discharging part 150 may be formed as a coupling flange so as to be detachably coupled to the steam injecting part as in the steam inlet part 110. The steam discharging part 150 may be formed of a plate- Lt; / RTI >

The supply steam distributor 160 discharges the steam of high temperature and high pressure diverted from the steam manifold 100 of the pipe line type to the outside or preheats the plurality of wells during the initial operation for collecting the oil So as to supply steam for preheating.

The supply steam distribution unit 160 displays the supply amount or the injection amount of the distribution steam distributed from the main piping line of the steam manifold 100 and controls the supply amount of the distribution steam by the external control device, The steam flow meter 170 is constituted.

The supply steam distributor 160 is provided with a steam safety valve 180 for detecting a predetermined amount of steam when the internal pressure of the supply steam distributor 160 is higher than a predetermined level, do.

In this case, it is preferable that the steam discharge line is branched to the supply steam distributor 160 when the distribution steam is discharged to the outside, and it is more preferable that the steam safety valve 180 is formed in the steam discharge line.

In addition, the supply steam distribution unit 160 may include a first distribution steam discharge unit 192 configured to discharge the distribution steam to be supplied to the steam discharge line, and a second distribution steam discharge unit 192 configured to supply the distribution steam to the plurality of the wells, And a second distribution gas discharge unit 194 for discharging the steam.

The oil collecting manifold 200 is configured to be connected to an oil collecting part among a plurality of wells in which an oil sand having a phase change in a liquid phase is collected. The oil collected in the oil collecting part is collected on the ground, The oil collecting control unit 220, the oil collecting control unit 220, the oil collecting control unit 220, and the oil test facility. -way valve 230, an oil discharge line 240, and an initial gas inlet line 260.

The oil inlet portion 210 is connected to an oil collecting portion installed from the well buried in the ground to the ground and is configured to allow the oil transferred from the oil collecting portion to flow. And may be formed as a coupling flange so as to be detachably coupled to the oil collecting portion and may be configured to be exposed from the side frame 620 of the container module 600. [

 The oil collecting control unit 220 is configured on the oil collecting manifold 200 in the form of a piping line and is configured to be located in the inner space of the container module 600. The oil collecting control unit 220 extracts the oil conveyed through the oil collecting unit To control the mining pressure.

The oil collection control unit 220 measures the oil extraction pressure and sends an alarm signal to the external control device to stop the oil extraction when the measured result falls to the minimum extraction pressure corresponding to the oil extraction difficulty .

At this time, when the warning signal is transmitted, the external control device transmits a steam supply stop signal for stopping the supply of steam to the steam supply control unit 120 of the steam manifold 100 to control the supply of steam to be interrupted, At the same time, the warning signal is transmitted to the oil sand mining facility for driving a plurality of wells to stop the mining operation of the oil, thereby preventing the occurrence of a safety accident in advance.

The oil collecting manifold 200 may be provided with an oil treatment facility or an oil test facility for analyzing the components of the oil that is collected (or mined) or performing the test operation using the collected oil. Way valve 230 for switching the conveying direction.

That is, the 3-way valve 230 is provided for switching the conveyance direction so that the collected oil can be transferred to the oil discharge line 240 connected to the oil treatment facility, or the collected oil can be transferred to the test oil manifold 400, And to control the oil transfer direction according to the control of the external control device.

At this time, when the test oil is supplied to the test oil manifold 400 by driving the 3-way valve 230, the test oil is discharged to the test oil discharge portion The test oil discharge unit 410 is disposed between the steam discharge unit 150 and the oil discharge unit 242.

In addition, the oil discharge line 240 is connected to the 3-way valve 230 at one end, and the oil discharge unit 242 is connected to the oil discharge line at the rear end thereof.

The oil discharge portion 242 is formed on the front side of one side of the side frame 620 in the same manner as the steam discharge portion 150 described above, Flange.

Meanwhile, the oil collection manifold 200 of the present invention includes an initial gas inlet line 260 for transferring the by-product gas generated while being liquefied in the underground oil sand layer during the initial operation.

The initial gas inlet line 260 is formed at one side of the steam inlet portion 110 and includes an initial gas supply portion 262 in the form of a coupling flange for introducing the initial gas, An initial gas flow meter 264 for measuring the supply amount of the initial gas such as the by-product gas to be supplied is constituted.

The initial gas inlet line 260 is connected to the oil discharge line 240 and the test oil manifold 400 to transfer the initial gas to the oil discharge line 240 and the test oil manifold 400, And gas discharge portions 270 and 280, respectively.

The gas sampling manifold 300 is configured to collect by-product gas generated when the solidified oil sand is phase-changed into a liquid phase. The gas sampling manifold 300 includes a collecting gas inlet 310 and a collecting gas inlet 310, The collected gas discharge portion 330 is formed in the form of a coupling flange on the side frame 620 of the container module 600 and the piping line connecting the collected gas inlet portion 310 and the collected gas outlet portion 330 And a collected gas transport control unit 320 for providing information on the transport flow rate of the collected gas.

At this time, the collected gas inlet part 310 is connected to a well corresponding to an oil collecting part of a plurality of wells through a connection pipe or the like to be detachably coupled to a gas transfer pipe for transferring the by-product gas to the ground.

The collected gas discharge unit 330 is detachably coupled to the piping line of the gas facility so that the collected gas transferred through the gas sampling manifold 300 can be transferred to the gas facility.

The closed gas manifold 500 is connected to any one of the plurality of gas transfer pipes when the internal pressure of the gas sampling manifold 300 is lowered to control the flow rate and pressure of the closed gas existing in the oil collecting part A closed gas supply control unit 520, a closed gas pressure regulating unit 530, a first closed gas discharge unit 540, and a second closed gas discharge unit 540. The closed gas injection unit 510, the closed gas supply control unit 520, A closed gas circulation unit 550, and a second closed gas discharge unit 560.

The hermetically sealing gas injection unit 510 is formed in a side frame 620 of the container module 600 and includes a coupling flange detachably coupled to the gas transfer pipe. And the closed gas to be supplied is injected through the gas transfer pipe to adjust the internal pressure of the oil collecting part. The closed gas injection unit 510 may be formed on the rear side of the side frame 620, but is not limited thereto.

The closed gas supply control unit 520 is interlocked with the collected gas transfer control unit 320 of the gas sampling manifold 300 and detects the internal pressure of the gas sampling manifold 200 from the collected gas transfer control unit 320 And the closed gas supplied from the gas supply header is supplied to the closed gas injection unit 510 only when the internal pressure of the gas sampling manifold 200 is less than a predetermined pressure.

The hermetic gas pressure regulator 530 measures and displays the internal pressure of the hermetic gas manifold 500 and maintains the constant pressure of the hermetic gas supplied through the hermetic gas manifold 500 .

The first hermetically sealed gas discharge unit 540 is formed on the side frame 620 of the container module 600 and is detachably coupled to a gas supply header formed on the front side of the one side and separately formed outside, A predetermined amount of hermetic gas is supplied from the supply header to the hermetic gas manifold 500 side.

When the internal pressure of the hermetically sealed gas manifold 500 is lower than a predetermined pressure by the hermetic gas pressure regulator 530, the hermetic gas circulation unit 550 circulates the hermetic gas supplied from the gas supply header, A second closed gas discharge portion 560 detachably coupled to any one of the plurality of gas transfer pipes so as to directly supply circulating closing gas to the gas transfer pipe by adjusting the internal pressure of the manifold 500 .

The container module 600 includes the steam manifold 100, the oil collecting manifold 200, the gas collecting manifold 300, the test oil manifold 400, and the hermetic gas manifold 500 And is configured to be removably coupled to each of the manifolds (100, 200, 300, 400, 500) and a plurality of wells and an oil sand collecting facility.

The container module 600 is an enclosed enclosure that forms an internal space in which the respective manifolds 100, 200, 300, 400, and 500 are installed so as to be installed therein, A door frame 610 for performing maintenance operations of the manifolds 100, 200, 300, 400 and 500 and setting the transfer pressure of steam, oil and gas, And a plurality of manifolds 100, 200, 300, 400, 500 constituting both side portions of the container module 600 and adapted to allow intake and discharge of media including steam, oil and gas, And a side frame 620 in which the inlet and the outlet of the discharge chamber 620 are formed.

It is to be understood that the terms "comprises", "comprising", or "having" as used in the foregoing description mean that the constituent element can be implanted unless specifically stated to the contrary, And all terms including technical or scientific terms are to be construed as further including other elements unless the context clearly dictates otherwise as generally understood by one of ordinary skill in the art to which this invention belongs. Have the same meaning.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or essential characteristics thereof. . Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100: steam manifold 110: steam inlet
120: steam supply control unit 130: steam circulation unit
140: Steam supply controller

Claims (6)

A steam inlet portion into which steam of high temperature and high pressure is introduced,
A steam pressure control unit for controlling a supply pressure to the high-temperature and high-pressure steam, and a controller for controlling the supply of steam to the high-temperature and high-pressure steam, and the control of the steam flow rate control unit and the steam pressure control unit A steam supply control valve for supplying the high-temperature and high-pressure steam at a constant flow rate and pressure in accordance with the steam flow rate control unit and the steam pressure control unit, A steam supply control unit composed of an instrument panel and a steam pressure gauge plate and configured to automatically control the flow rate and pressure of high temperature and high pressure steam supplied by an external control device; A steam vessel for allowing the phase change of the solidified oil sand to be injected Steam manifold including a;
A supply steam distribution unit branched from the steam manifold to discharge the high-temperature and high-pressure steam to the outside, or to supply preheating steam so as to preheat the plurality of wells during an initial operation for collecting oil;
An oil collecting control unit for controlling the mining pressure for mining the oil transferred through the oil collecting unit; and an oil collecting control unit for controlling the mining pressure for extracting the oil conveyed through the oil collecting unit, A 3-way valve for switching the direction of the collected oil; an oil outlet connected to the 3-way valve for transferring the collected oil to the oil treatment facility; An oil pick-up manifold including an initial gas inlet line for transferring gas;
A collecting gas inlet for separating the gas transfer pipe for transferring the by-product gas to the ground, a collecting gas discharging unit for transferring the collecting gas to the gas facility, and a collecting gas conveying unit for collecting the collected gas, A gas sampling manifold including a control portion;
A hermetic gas manifold for injecting the hermetic gas into the upper portion of the underground oil sand according to the internal pressure of the gas sampling manifold; And
The steam inlet, the oil inlet, the sampling gas inlet, and the hermetically sealed gas injection unit of the hermetic gas manifold are formed at one side of the respective manifolds so as to be detachably coupled to the plurality of wells, A container module including the steam discharging portion, the oil discharging portion, the collecting gas discharging portion, and the first and second hermetically sealed gas discharging portions of the hermetic gas manifold as one side front portion;
And a container module for collecting and controlling the oil sand.
The method according to claim 1,
Wherein the steam supply control unit is controlled by an external control device and is configured to automatically control the flow rate and pressure of high temperature and high pressure steam by the external control device.
The method according to claim 1,
Wherein the supply steam distributor comprises:
A distribution steam flow meter for indicating a supply amount or an injection amount of the distribution steam distributed from the main piping line of the steam manifold and controlling the supply amount of the distribution steam by the external control device;
A steam safety valve for discharging a predetermined amount or more of steam to the outside;
A first distribution steam discharge unit configured to discharge steam to be supplied to the steam discharge line and a second discharge gas discharge unit configured to supply the distribution steam to the plurality of wells to preheat the steam;
And a container module for collecting and controlling the oil sand.
The method according to claim 1,
The oil collecting control unit measures the mining pressure of the oil and transmits an alarm signal to the external control unit to stop the mining of the oil when the measured value falls to the minimum mining pressure corresponding to the difficulty of oil extraction,
The external control device transmits a steam supply stop signal for stopping the supply of steam to the steam supply control unit to control the supply of steam to be cut off when the warning signal is transmitted to the oil supply apparatus, And the warning signal is transmitted to stop the mining operation of the oil.
The method according to claim 1,
Further comprising a test oil manifold connected to the 3-way valve for transferring the collected oil to an oil test facility when the collected oil is supplied to the oil collecting manifold. Control Container Module.
The method according to claim 1,
Wherein when the collection of the oil from the plurality of wells is completed, the container module is configured to be transferred to and installed in a plurality of new wells having the oil sand.

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