DE1758545A1 - Process for the promotion of hydrocarbons - Google Patents

Description

17585A5

! EEXA-CO DEVELOPMENT C QRK) RAOiIOIi, New York, N ₀ Y ./USA

Process for the promotion of hydrocarbons

The invention relates to the production of hydrocarbons from underground hydrocarbons Formations and in particular on a method for increasing the sand production of hydrocarbons such formations.

Secondary production processes now play an essential role in the production of clay hydrocarbons from practically all oil and gas condensate deposits in underground hydrocarbon-bearing formations. In these processes, a flowable medium, such as Wasstr or Gee is generally of auasen _y in the storage zone is pressed to the oil or gas dae in Hiohtung on the conveyor

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holes to print * This procedure is often used ale "Flooding". Usually this becomes β JPluten carried out in that bores are made in a geometric arrangement. The most common arrangement is the interface arrangement.

In US Pat. No. 3,109,487, it is described the content of which is referred to here, a * Increased amount of hydrocarbons extracted from a subterranean hydrocarbon-metering formation, by connecting three wells are used in such a Advance formation, these wells being arranged in line to remove hydrocarbons from the formation About two of these holes including the middle one Promote drilling. As in the above mentioned patent is also specified 1st, those from the formation Ober the middle well produced hydrocarbons one supplied to further treatment, and the flowable medium introduced from the outside, such as water or gas, the With the hydrocarbons escaping through the middle bore, it is recovered and returned to the hydrocarbon-bearing formation via the third of the above three Holes returned.

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A US patent application (Serial Ko ₀ 517 052) indicates how an increased amount of hydrocarbons can be produced from the subterranean carboniferous formation. In this case, at least three wells are used which penetrate up to this formation, which wells can be arranged in line in order to produce hydrocarbons from the formation via two of these wells including the central well, as described in the aforementioned US Pat. No. 3,110,487 is specified · This claim procedure is called "pinning the cusp",

In another US patent application (Serial No. 516 891) is another method to increase the flushing effect with a delay in the development of the apex towards the production well. This method of achieving a uniform- ' ren forward movement serves to influence the flow gradients in such a way that the interface spreads, either by choosing a special geometry for the arrangement of the bores or by the ratio of the Conveyor speed is set so that the forward movement speed does not run predominantly in one direction. This can also be done in that

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the gradients are often shifted, and «was both in their direction as well as their size, in order to prevent a part of the interface from becoming too strong the line moves. This funding method is known as "spreading the cusp".

The present invention thus relates to a method but increasing the Aub spill effect θ in secondary funding methods and relates to the above patent and the above patent applications. Procedure in itself. In the method according to the invention, the production bores are arranged in relation to the thickness of the production zones of a deposit. The new process increases the volumetric drainage effect in secondary recovery processes, however the production wells are located in the thinner zone of a reservoir and the indentation wells are located in the thicker zone.

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The aim of the present invention is therefore to provide a new to propose an improved process for the extraction of hydrocarbons from underground hydrocarbon-bearing formations by increasing the volumetric flushing effect,

Another object of the present invention is _f i ». this method of producing hydrocarbons from a subterranean hydrocarbon-bearing formation should include the production methods of "drilling the apex" and "expanding the apex" in order to increase the production capacity.

These and other objects and advantages of the invention are set forth in the following description taken in conjunction with FIG is to be read with the figures of the accompanying drawings, which drawings show schematically an embodiment explain the method according to the invention "

In the drawings show;

Figure 1 shows four units of a conventional five location arrangement of production wells;

2a and 2b a plan view and a side view ' on a potentiometric model of a quadrant of a conventional five-digit arrangement, as indicated by dashed lines Lines in Fig. 1 is indicated} Figo 3 is a side view of a cross section of a subterranean inclined formation} and FIG. 4 is a further view of a cross-section of a dome-like underground formation.

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Many factors affect the ErdölfördertechnilE the location of I ¹ or the swell. Usually the location of the indentation and production wells is not determined by the bead of the deposit. The novel feature of the present invention is that one of the essential factors for the location of the indentation and production wells is the relative thickness of the deposit The normal tendency is to locate the production wells in the thickest section for maximum performance. There is a requirement that there be a 100 Lge washout of the formation around each inlet well during flooding. Accordingly, it would be more advantageous to use a larger one To achieve volumetric flushing in secondary production processes by locating the penetration bore where the formation has the largest diameter and by producing from the bore which penetrates the thinner part of the formation. The advantage here is that

a considerably increased volumetric flushing out of the Storage facility for practically all mobility conditions, which one can encounter, is achieved

In the drawings, Fig. 1 shows four units of a conventional five-piece assembly with the bores at the eoken drawn as circles with an arrow are to indicate the indentation holes, while the

central hole, which is shown as an enlarged point is, a production well showed As in the above mentioned patent applications is set out, the punctures of this hole according to the work plan for the Exploitation of the deposit in the underground formation to be changed" ,

2a and 2b show a top view and a side view of a quadrant of a potentiometric model of a five-position arrangement having a symmetrical structure, the side view being taken on line bb of FIG The thinner zone hj of the subterranean formation model penetrates, and the indentation hole is drawn in at B in the thicker zone hg of the formation model _t where h ^ is half as large as hg. The badius of the thicker zone h «is denoted by r and makes three tenths of it i distance from A to B from »

Three tests were carried out with mobility ratios of I ₅ , 10 and 0.1 ο The procedure was reversed and the indentation wells were placed in the thicker zone at B and the production wells in the thinner zone at A. The results are compiled in the table below

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TABLE I. Mobility ratio

0.1 1.0 10

Procedure, volumetric flushing I. Production wells in the thick

Drill holes in the thin ⁸² ' ³ * ⁷² ' ⁶ * ⁵⁷ ' ⁸ * zone

II · Production wells in the thin

Drilling holes in the dioken ⁸⁵ * ⁵ * 77.8 ^ 69 _t 6 # zone

III. consistently equal thickness 81.7 * 71.4 * 61.3 *

The above results "own that the" wide procedure a higher volumetric flushing results than the other two procedures, and it wasnieeen with all mobility conditions. This bites that higher volumetrieche Aue-. Spin effect »can be achieved by inserting the press-in bores in

the thicker zones of the deposit and the production wells In the thinner zones, the part of the deposit that has not been washed out is mainly located in the Raohbarsohaft the Furderbohrung, where a vertex formation takes place while the deposit is in the neighborhood the deposit is completely rinsed out.

Flg. 3 and 4 are cross-sections through different shapes

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underground formations. In Pig. 3 has a penetration hole shown at B, which can correspond to either or both of the holes on the right side of one of the five-satellite arrangement of FIG The left side of this arrangement corresponds to which boreholes now serve as delivery boreholes and nloht as indentation boreholes and penetrate into a formation zone of the bead h *. As indicated in this specification, production is commenced at A which penetrates through the formation zone of thickness h, while the indentation occurs through hole B which penetrates through the formation zone of thickness H. When the injected medium reaches the bore A and exits through it, the requirement at A is maintained according to the patent mentioned at the beginning, during which the production in the bore (or bores) A * is started until a breakthrough occurs. This procedure is known as "boring the vertex ¹¹ When it is decided that" spreading the vertex "is the best way to exploit the deposit, then production is started at one of the wells a & the corners of the left side of this five-point arrangement, while the promotion through the central bore stops at A and the promotion to the

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Drilling at the corners is continued, bia a Duroh * · bruoh dee medium takes place.

4 shows the manner in which a dome station is exploited, the apex of the dome being in the vicinity of the production well A, which penetrates the formation zone of the Dioke h. You Eindrückboh w contended that τοη along the right side of the Funfstellenan-order? Ig. 1 are present and are denoted by Ö, penetrate the formatlons zone of the Dioke H, while the insertion bores along the left side of this five-point arrangement, which are denoted by B *, penetrate the formetiοηββοηβ of the Dick · H *. In any case, H and H * are larger than h and can be equal to or undersole. In Flg. 3 is H aa greatest, while h and h * are thinner in proportion.

I word "a procedure for the implementation of volueetrisohen

The elimination effect in secondary production is achieved by choosing a correct arrangement of the cylinder and production boreholes which penetrate into a coal mine-watcher formation in the deposit ₉ whereby the methods of influencing the orena surface forward movement in flooding arrangements are also taken into account.

PATEIfT AL SAY! t ■

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Claims (1)

-, (758545 PAIEKTAH PROBLEMS? 1. Process for the promotion of hydrocarbons from underground hydrocarbons of leading formats by means of an Elndrttokbohrung and a production well, characterized in that one impression mediura in said Formation introduces via said indentation hole and Hydrocarbons from said formation via the ge f promotes the so-called production well and maintains the production of hydrocarbons until the penetration of the indentation medium »whereby the indentation well is arranged in such a way that that it penetrates a relatively thicker zone of the hydrocarbon-bearing formation and the production well in such a way that orders that they have a relatively thinner zone of the kohlenwaa »penetrating formation. 2ο method according to Anepruoh 1, marked dadttroh, λ that the Bindrüok and POrder holes form part of a five-atom arrangement. 3. The method according to claim 2, characterized in that that the production well is in the center of the five-tunnel arrangement and the impression hole is present at the corners of the same sindo 009887 / 059Λ 4β method according to claim 1, characterized in that that one begins the production of hydrocarbons at another production well, which is so arranged is that it penetrates a relatively thinner zone of the formation while maintaining production at the original production well until a durometer »Breakage of the above-mentioned compression medium on the Ie he did en conveying · drilling is observed. 5. The method according to claim 4, characterized in that one hydrocarbons from the aforementioned formation Promotes via the original production well, organic largely clay is extracted from the outside, tea medium is extracted from it, meanwhile one promoting τοη hydrocarbons and clay from externally supplied medium is maintained at the wide production well. 6. The method according to claim 1, characterized in that that water is used as a pressure medium. 7. The method according to claim 1, characterized in that that a gas is used as the pressing medium. -. ■ ■ # - Θ. Process for the promotion of hydrocarbons aue an underground hydrocarbon-bearing formation, 009887/0594 wherein a centrally arranged indentation bore is surrounded by production bores, which are arranged on the diagonals of an animal corner, at least awei of said PiSrder bores imwe Bent Hohen arranged in line with said indentation bore and thereby by a similar pair of, production bores, which are on the same Diagonals are arranged, have a spacing, characterized in that injection medium is introduced into said formation via said injection bore, hydrocarbons from said formation via the production bores on said diagonals, which are closer to the injection bore, conveying hydrocarbons hydrocarbons from the formation ( formation via the Fo rderbohrungen on the above-mentioned diagonals, which are further away from the above-mentioned injection bore, promotes, and the production of hydrocarbons sue the said production sources, which are further away from the above-mentioned injection source, maintains until there is a Durohbruoh of the mentioned indentation medium is observed while nan meanwhile hydrocarbons and the mentioned pressure medium from the mentioned production wells, 009887/0594 which lie next to the said press-in bore, conveys, the said press-in bore being arranged in such a way that that it is a relatively thicker zone of the aforementioned penetrates hydrocarbon-metering formation, and the said production sources are arranged in such a way that they the relatively thinner zones of said hydrocarbon Penetrate clock formation. 9. Process for the promotion of hydrocarbons from a subterranean hydrocarbon-bearing formation, a centrally located injection bore being surrounded by production bores which are arranged at the tips and along the sides of a quadrangle, characterized in that the injection medium presses into said formation via dl "called" connection bore, the production of clay hydrocarbons from the production wells on one side of the quadrangle begins and sustains until a breakthrough of the penetration medium takes place, and then the production of clay hydrocarbons ceases there and the production of hydrocarbons from the production wells begins and continues at the tips of said quadrilateral until there is a breakthrough of said quadrilateral Injection medium takes place, the indentation bore being arranged in such a way that it penetrates a relatively thicker zone of the hydrocarbon-carrying formation, and the production bores 009887/0594 are arranged in such a way that it never holds the ver sig diianeren Zones of said hydrocarbon-feeding formation penetrate. 10. Process for the promotion of hydrocarbons according to Claim 9 »characterized in that one is the promotion iron hydrocarbons "simultaneously from the conveyor, which define the said square begins and the production of hydrocarbons at the production sources Quadrilateral ends after a break in the pressure medium. 009887/0594 Blank page