System for exploiting oilfields
Abstract
A description is given of a system for exploiting oilfields, be these either already developed or to be developed. The system comprises the installation of a network of wells in the form of an open or non-open ring that is generally non-circular, said wells possibly being combined with in-line wells. In the case of fields that are already developed, horizontal well sections ( 3 ) are drilled from vertical injection ( 1 ) or producing ( 2 ) wells that already exist so as to interlink them, intercalated, in line or in the form of a ring. The vertical wells that are located in one and the same line are used as injection wells, thereby promoting sweeping of the oil in the reservoir (R) towards the ring-shaped producing wells (P 1 ) or (P 2 ). In the case of fields that are to be developed, vertical service wells are drilled for monitoring the characteristics of the reservoir (R). From these latter wells, horizontal wells are drilled in the form of a ring so as to obtain concentric rings of wells from the periphery to the most central region of the reservoir (R). The outermost horizontal well is used as injection well and the innermost annular horizontal wells are used as producing wells. The system also enables control and production operations to be carried out at each of the wells separately, or in a centralized manner at a central controller unit (E). In the case of fields that are barely or moderately productive, the system makes provision for the use of an artificial lift system, such as, for example, intermittent pneumatic pumping, with or without a mechanical interface or pig.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A method for exploiting an already developed oilfield, for optimizing the draining of the reservoirs, said oilfield already comprising a plurality of vertical injection wells and a plurality of vertical production wells, said method comprising:
drilling sections of horizontal wells in such a way as to interlink the vertical injection wells; drilling sections of horizontal wells in such a way as to interlink the vertical producing wells; whereby said horizontal wells are each configured to be in-line or ring-shaped.
2 . A method for exploiting oilfields according to claim 1 , wherein said horizontal wells interlinking the vertical injection wells form substantially parallel injection lines;
and wherein said horizontal wells interlinking the vertical production wells form substantially parallel production lines.
3 . A method for exploiting oilfields according to claim 2 further comprising:
inserting a production pipeline inside the casing of the parallel production lines, in pairs, such that, at the ends, a section of the production pipeline is on the surface;
installing check valves at points on the production pipeline inside the lines.
4 . A method for exploiting oilfields according to claim 3 , wherein said check valves are installed at locations that substantially coincide with the position of the vertical producing wells.
5 . A method for exploiting oilfields according to claim 2 , wherein the parallel injection lines are converted into in-line injection wells.
6 . A method for exploiting oilfields according to claim 2 , wherein the parallel production lines are converted into ring-shaped producing wells owing to the interlinking of the parallel production lines by means of the production pipelines.
7 . A method for exploiting oilfields according to claim 6 , wherein along the ring-shaped producing wells formed by the group of vertical producing wells, at least some of the latter are used as breathers.
8 . A method for exploiting oilfields according to claim 7 , wherein the breathers are used to promote the relieving of pressure in the horizontal well sections, allowing uniform, maximized fluid intake, even when there are long lengths of such horizontal well sections.
9 . A method for exploiting oilfields according to claim 3 , wherein the check valves installed at points on the production pipeline are used to control the intake of fluids from the reservoir to the inside of the production pipeline.
10 A method for exploiting oilfields according to claim 3 , wherein the check valves installed at points on the production pipeline are used to block the flow of fluids from the inside to outside of the production pipeline.
11 . A method for exploiting oilfields according to claim 2 , further comprising injecting fluids inside the reservoir using only one of the vertical injection wells of those that make up a single parallel injection line.
12 . A method for exploiting oilfields according to claim 2 , further comprising injecting fluids inside the reservoir using the pipes that already exist in each of the vertical injection wells of those that make up a single parallel injection line.
13 . A method for exploiting oilfields according to claim 2 , further comprising controlling oil production and controlling fluid injection into the reservoir in each of the parallel injection lines and each of the parallel production lines.
14 . A method for exploiting oilfields according to claim 2 , wherein oil production and fluid injection into the reservoir are controlled from a central controller unit.
15 . A method for exploiting oilfields according to claim 14 , wherein the central controller unit is a land-based collection and processing station.
16 . A method for exploiting oilfields according to claim 14 , wherein the central controller unit is an offshore central platform.
17 . A method for exploiting oilfields according to claim 1 , wherein the horizontal producing wells are located at different depths in order to drain producing zones that are at different depths.
18 . A method for exploiting oilfields according to claim 2 further comprising using an artificial lift system in reservoirs that are barely or moderately productive.
19 . A method for exploiting oilfields according to claim 18 , wherein the artificial lift system is/an intermittent pneumatic pumping system with mechanical interface passage.
20 . A method for exploiting oilfields according to claim 18 , wherein the artificial lift system is intermittent pneumatic pumping system without mechanical interface passage.
21 . An oil field exploitation apparatus comprising:
a plurality of horizontal wells installed in an oilfield, a first set of said horizontal wells interlinking a plurality of vertical injection wells and a second set of horizontal wells interlinking a plurality of vertical production wells.
22 . Apparatus according to claim 21 , further comprising a central controller for controlling oil production and fluid injection.
23 . Apparatus according to claim 22 , wherein said central controller is one of a land-based collection and processing station and an offshore central platform.
24 . Apparatus according to claim 21 , wherein said horizontal wells are located at a plurality of different depths in order to drain producing zones located at different depths.
25 . A method for exploiting a new oilfield, for optimizing the draining of the reservoirs, said method comprising:
drilling a vertical injection well; drilling a horizontal injection well linked with said vertical injection well; drilling a first group of vertical producing wells; drilling a first horizontal producing well interlinked with said first group of vertical producing wells.
26 . A method according to claim 25 , wherein said vertical injection well is drilled at a location close to the periphery of the reservoir and connected to the injection line of a central controller unit.
27 . A method according to claim 26 , wherein said horizontal injection well is drilled so as to be substantially rig-shaped, following the geometry of the water/oil interface at the periphery of the reservoir.
28 . A method according to claim 27 , wherein said first group of vertical producing wells are drilled inside the area delimited by the horizontal injection well.
29 . A method according to claim 28 , wherein said first horizontal producing well is drilled in the form of a ring, inside the area delimited by the horizontal injection well.
30 . A method according to claim 29 , further comprising:
drilling a second group of vertical producing wells inside the area delimited by the first horizontal ring-shaped producing well; drilling a second horizontal producing well in the form of a ring, inside the area delimited by the first horizontal ring-shaped producing well, interlinking the second group of vertical producing wells.
31 . A method according to claim 30 , further comprising:
to drill successively a plurality of horizontal producing wells in the form of a ring, each one inside the area delimited by the nearby outside horizontal ring-shaped producing well, interlinking a group of vertical producing wells previously drilled inside the area delimited by the said nearby outside horizontal ring-shaped producing well.
32 . A method according to claim 31 , further comprising:
to establish the number of horizontal ring-shaped producing wells to be drilled based on reservoir characteristics and economical analysis.
33 . A method according to claims 31 and 32 , further comprising:
drilling a group of vertical producing wells inside the area delimited by the innermost horizontal ring-shaped producing well;
drilling a horizontal producing well in line, inside the area delimited by the innermost horizontal producing well in a region close to the centre of the reservoir, interlinking the said group of vertical producing wells.
34 . A method for exploiting oilfields according to claim 25 , wherein the first horizontal producing well is drilled with the aid of the first group of vertical producing wells.
35 . A method for exploiting oilfields according to claims 30 to 33 , wherein groups of vertical producing wells comprise at least two vertical wells.
36 . A method for exploiting oilfields according to claims 30 to 33 , wherein at least one well in one of the groups of vertical producing wells is used for collecting production.
37 . A method for exploiting oilfields according to claim 36 , wherein the remaining wells in said group of vertical producing wells are kept open as breathers.
38 . A method for exploiting oilfields according to claim 37 , wherein the breathers are used to promote the relieving of pressure in the segments of horizontal well such that there is a uniform, maximized fluid intake.
39 . A method for exploiting oilfields according to claims 30 to 33 , wherein the horizontal producing well is shortened by means of production lines on the surface that link one of the wells in the group of vertical producing wells to a central controller unit and divide a horizontal producing well into two.
40 . A method for exploiting oilfields according to claim 25 , wherein the first horizontal producing well may, at the same time, be producing in a specific segment and injecting in another segment, the method further comprising the insertion of injection and production pipes in each of the segments and the installation of equipment that isolates the producing segment from the injecting segment.
41 . A method for exploiting oilfields according to claims 30 to 33 , further comprising injecting water from the central controller unit to the horizontal injection well so as to force the moving fluid front inside the reservoir to move the oil towards the first horizontal producing well until this first horizontal producing well begins to produce practically water and, as of that moment, converting that horizontal producing well into an injection well, with continuity of the movement of the oil towards the second horizontal producing well until water is produced, to be then converted into an injection well and so on in succession as far as the last horizontal producing well, sweeping the entire reservoir.
42 . An oilfield exploitation apparatus comprising:
a central controller unit that carries out the operations of injection of fluids into the reservoir, control of an intermittent pneumatic method for production and collection of the production; a vertical injection well, drilled at a location close to the periphery of the reservoir and connected to the injection line of the central controller unit; a horizontal injection well, linked to the vertical injection well, drilled so as to be substantially ring-shaped, following the geometry of the water/oil interface at the periphery of the reservoir; a first group of vertical producing wells drilled inside the area delimited by the horizontal injection well; a first horizontal producing well, drilled in the form of a ring, inside the area delimited by the horizontal injection well, interlinking the first group of vertical producing wells; as many as necessary horizontal producing wells, drilled in the form of a ring, inside the area delimited by the nearby outer horizontal producing well, interlinking a group of vertical producing wells previously drilled inside the area delimited by the nearby outer horizontal producing well; a group of vertical producing wells drilled inside the area delimited by the innermost horizontal ring-shaped producing well; a horizontal producing well, drilled in line, inside the area delimited by the innermost horizontal ring-shaped producing well in a region close to the centre of the reservoir, interlinking the said group of vertical producing wells.Cited by (0)
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