DE1231192B - Process for the extraction of hydrocarbons - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. CL:

Number:
File number:
Registration date:
Display day;

E21b

German class: 5 a - 43/24

1231192
S 99695 VI a / 5 a
September 27, 1965
December 29, 1966

The invention relates to a method for the extraction of hydrocarbons from a permeable, storage facility containing hydrocarbons, in which at least one probe for the introduction of substances and at least one probe has been sunk for the promotion.

The invention relates in particular to a method for pumping hydrocarbons from a permeable, hydrocarbon-bearing deposit by adding at least one hot flowable medium introduced into the deposit through one or more probes and the hydrocarbons through a or several Bonrungen are extracted from the deposit. The warmth of the fluid medium is partially released to part of the deposit and the hydrocarbons it contains and thus reduces their viscosity, which accelerates the production of hydrocarbons.

The aim of the invention is to improve the performance of such a promotion by hot flowable media ao to increase.

The inventive method for the production of petroleum from a permeable, hydrocarbon-bearing Storage facility into which one or more probes for the introduction of substances, d. H. Injection probes and one or more delivery probes are enough, provides that at least one hot flowable Medium introduced into the deposit through the injection probes and the crude oil extracted from this deposit is, after the breakthrough of the flowable medium at the delivery probe the pressure in Pore space of the part of the deposit in contact with the flowable medium compared to the pressure in the pore space of the rest of the deposit is reduced.

The designation »hot flowable medium« means a flowable medium, its temperature is higher than the temperature of the deposit into which it is to be discharged.

In the known methods, since the pressure of the liquid medium introduced is higher than the original reservoir pressure, the hydrocarbons from the heated zone of the reservoir partly driven beyond the production probe (s) and then cannot be recovered. at however, the method according to the invention relieves the pressure within the heated part of the reservoir after the breakthrough of the flowable medium opposite the prevailing pressure in the rest of the reservoir is reduced, so that the hydrocarbons are not driven out of the area bounded by the injection probes and delivery probes.

Method of extraction
of hydrocarbons

Applicant:

Shell Internationale Research Maatschappij N.V., The Hague

Representative:

Dr.-Ing. F. Wuesthoff, Dipl.-Ing. G. Pulse and
Dipl.-Chem. Dr. rer. nat. E. Frhr. v. Bad luck man,
Patent Attorneys, Munich 9, Schweigerstr. 2

Named as the inventor

Johannes van Lockeren, Rijswijk (Netherlands)

Claimed priority:

Great Britain 28 September 1964 (39 511)

Instead, hydrocarbons from other parts of the reservoir flow into this zone at a reduced rate Pressure and are then promoted by the delivery probe. With the help of the new procedure, so is pro Extraction probe obtained a large amount of petroleum.

The hot, flowable medium in this process is preferably wet steam, saturated steam or uses superheated steam.

The steam can optionally with gases or with liquids, e.g. B. with hot or cold Water, can be mixed to increase its delivery rate.

The pressure within the pores of the part of the deposit that is in contact with the hot, flowable medium is reduced after the hot flowable medium has broken through into the delivery probe, that the flow resistance in the part of the deposit that surrounds the production probe and / or the Flow resistance at the outlet of the delivery probe is reduced and / or by increasing the pumping speed of a The pump present in the delivery probe is increased.

The pressure within the pore space of the part of the deposit created by the hot, flowable If the medium is touched, this can also be reduced by reducing the rate of introduction of substances is reduced by the injection probe.

If necessary, these measures can be taken at the same time.

609 749/54

The idea of the invention can be put into practice in various ways. Some features are described below by way of example with reference to the drawings.

Fig. 1 shows a section through a permeable, Hydrocarbon-bearing deposit into which an injection probe and a production probe are driven are;

F i g. 2 shows the arrangement of several press-fit

and through the injection probe4 into the deposit! is injected. The vapor pressure on entry into the deposit 1 is higher than that in the pore space of this Pressure prevailing in the reservoir. The steam drives some of the hydrocarbons out of the reservoir 1 to the delivery probe 5 and pushes it through the probe 5 into the line 8 with the valve 9. During this process condenses the greater part of the injected steam and forms a condensation

probes and production probes in one deposit, the ion front. The position of this front is shown in FIG. 1 is to be exploited according to the invention; by position 10 shortly after the start of work

ganges and represented by position 11 at a slightly later point in time.

To achieve a high conveying speed,

Fig. 3 shows another arrangement of probes in a deposit that is to be exploited according to the invention;

Fig. 4 shows a section through a permeable, 15 the valve 9 is fully opened so that the Hydrocarbon-bearing deposit that has an un- flow resistance is kept as small as possible.

The production speed can be increased further that the petroleum in a known manner

g, contains a permeable layer or streak.

In Fig. 1, the hydrocarbon-bearing deposit 1 is from above through an impermeable

is pumped out of the probe 5. The speed

They are dismantled, piped and contain the corresponding supply and discharge lines as well as others Equipments that see; result from the intended use. The usual measures, such as B. heat

Layer 2 and from below by a likewise ui- ^ao digkeit, with which the oil from the deposit limits permeable layer 3. A press-in probe 4 by a pump present in the delivery probe 5 is pumped down through the layer 2 into the deposit 1, and influences the pressure in which it is brought. At some distance from this probe, deposit 1.

there is a second probe 5, which determines after a certain time the steam starts in

is used as a delivery probe. Both son 25 break through the production hole. The interface,

which is then between the steam zone and the zone in which the pore space of the deposit is used The larger part is filled with petroleum, is indicated by the line 12. After this passage

treatment or so-called Fracs treatments, 30 an excessive pumping of steam can be prevented in the probe and in the surrounding layer
Increase deposit. All downhole equipment
are, for the sake of simplicity, from FIGS
Drawings omitted. If necessary, the
The delivery probe reaches down to the layer 3, whereby
the delivery pipes in the probe are then arranged in this way

are that the openings contained therein are below

be changed, for which the pumping speed in the probe 5 is reduced or the valve 9 is throttled will.

Immediately after the steam, between the two probes 4 and 5 on the condensation front 12 flows along or some time afterwards, the pressure in the part of the deposit that is from the Steam is touched, gradually lowered to below

the bottom of deposit 1 are located. So a 40 becomes the pressure in the rest of the deposit liquid seal ^ between the pore space that prevails. In practice this means that the injection pressure of the steam, which after the exit of the steam from the probe 4 and after entering

the deposit 1 is measured is less than that

the. This line is in turn connected to a reference source for the not shown in the figure hot flowable medium, e.g. B. a boiler or

Deposit and the interior of the conveyor pipe system are preserved, whereby the escape of the steam is restricted to the surface of the earth.

The wellhead of the injection probe 4 is at 45 original reservoir pressure, provided that Line 6, in which a valve 7 is installed, connected pressure outside the steam zone is not increased

before the breakthrough has occurred. Under the original reservoir pressure, the Understood pressure in the pore space of the deposit

an oven that has steam and / or hot water 50 before steam injection begins, testifies. The wellhead of the production probe 5 is through what has been said so far about the various pressures

the line 8 was said with a Sam- not shown in the picture, also applies if instead of steam connected to the meltank for the oil produced. Any other hot, flowable medium into which A valve 9 is installed in line 8. z. B. hot water, to carry out the inven-

If the method according to the invention is used as the method according to the invention, hot flowable medium steam is used, the desired pressure drop in the pore space of the

So this can be superheated steam, saturated steam deposit, created by the hot flowable medium or wet steam. Since the device is touched for steam, this results in a reduction in the generation are known per se, they will not flow at the injection speed of this hot individually described. The steam can be given 60 medium by z. B. the flow resistance in if valve 7 is mixed with other flowable media, and / or from a decrease those that are either gaseous such. B. air or fluid of the flow resistance in which the conveyor probe 5 umsig such as B. are water. giving part of the deposit by z. B. the warehouse

The method according to the invention is broken up at a place around the probe 5, wherever arrangement of the probes as shown in Fig. 1, 65 by a horizontal break on a low

carried out as follows:

Steam is used as a hot, fluid medium, through the line 6 to the valve 7

Level in the deposit arises, or at the outlet of the probe 5 by z. B. the valve 9 is opened further or the pumping speed of the feed pump,

if such is present in the delivery probe 5, it is increased. Preferably, the valve 7 is gradual throttled and the valve 9 gradually opened or the feed pump output increased until the required pressure drop in the hot zone of the deposit has been reached.

The steam injection into the reservoir 1 can also be interrupted after the steam breakthrough whereupon the pressure in the pore space of the hot zone of the deposit drops because the valve 9 is left open or even wider. After the desired pressure drop has been reached in the pore space has been, the steam injection is resumed by the injection probe 4 at such a rate that that the pressure in the hot deposit zone remains lower than the pressure in the pore space the rest of the deposit.

The interface between the vapor zone and the zone in which the pore space of the deposit becomes larger part is filled with petroleum, migrates between the probes 4 and 5 from the position 12, which the Corresponds to the moment immediately after the breakthrough of the steam, to position 13 and then, while the introduction of hot flowable medium through the probe 4 and the oil production is continued through the probe 5, in the positions 14, 15 and 16. A possible further migration this interface in the part of the deposit which, as seen from the probe 4, is beyond the probe 5 is indicated by lines 13 ', 14', 15 'and 16'. These lines give along with the Lines 13, 14, 15 and 16 indicate the position of the interfaces of the steam zone in the various process stages.

As a result of the pressure drop in the pore space of the heated zone of the deposits 1, the petroleum flows out the cold part of the deposit to the hot zone.

The flow rate also depends on the amount of heat that is transferred from the hot zone to the cold zone is released. The interface between the vapor zone and the zone in which the The pore space of the deposit is largely filled with petroleum, finds an equilibrium position that z. B. indicated by line 16 '.

The pressure drop in the direction of the well causes the petroleum to expand out of the well surrounding area can be promoted.

The petroleum is from the deposit 1 with the help known method promoted by the probe 5.

If 1 layers appear in the permeable deposit, they are completely or almost completely impermeable such as shown at 20 in Fig. 4, the delivery probe 5 is preferably passed through this layer is driven through and only opens at a level below this layer.

The inventive method can be used with the same effectiveness for the extraction of petroleum an underground storage facility in which several injection wells and / or several production wells are sunk are to be applied. As e.g. in Fig. 2, the probes can be so arranged be that the injection probes 4 are in a row 17, while the conveyor probes 5 in one or two Rows 18 and / or 19 are parallel to row 17.

In a further arrangement according to FIG. 3, the conveyor probes 5 around a centrally located Injection probe 4 be arranged around. The range within which the hydrocarbons are after implementation of the method have been promoted is shown schematically in Fig. 2 and Fig. 3 in the lateral direction indicated by the lines 16 '. Of course, you can replace the six shown in the picture Production Probes any other number of production probes arranged around a single injection probe be, or the arrangement of probes shown in the picture doubled or in the same area

ίο tripled to get hydrocarbons out to mine a single deposit. If necessary, the arrangement is made so that the outermost boundary surfaces 16 ', which are formed during the various implementation of the method, do not overlap.

The influx of petroleum from the zone outside the interface 16 'to the production well (s) can optionally be supported by the fact that flowable raising media through injection probes, the are located in the zone outside the boundary line 16 '. These flowable media, such as B. hot or cold water, air or steam, increase the pressure in said zone and cause thereby the inflow of the petroleum to the or the production wells.

The advantage of the process according to the invention is that the petroleum as a result of the low Pressure, which prevails within the hot flow zone, flow from the deposit to the production probe.

This is exactly the opposite of what is used in the previously known extraction methods happens by hot flowable media. In these, the hot, flowable medium flows with a Pressure is introduced, which is higher than the camp site pressure, horizontally from the injection probes to the delivery probes, thereby removing some of the existing between and around the delivery probes Crude oil is pushed back into the deposit and can no longer be recovered from it.

In the method according to the invention, the petroleum flows from both the parts of the deposit that lie between the delivery probes, as well as from the part which is outside the boundary of the delivery probe lies towards these. A comparison with known and customary methods shows the advantage that when using the method according to the invention, areas of the same size with a can yield fewer probes and this means a significant reduction in drilling costs.

Claims (4)

Patent claims: 1. Process for the production of hydrocarbons from a permeable, hydrocarbon-bearing Deposit in which at least one injection probe and at least one production probe are placed and in which a hot flowable medium introduced and from which the hydrocarbons through the delivery probe be promoted, characterized in that after the breakthrough of the hot flowable medium to the delivery probe the pressure in the pore space of the part of the deposit that is exposed to the flowable medium is touched, is lowered below the pressure in the pore space of the rest of the deposit prevails. 2. A method for the production of hydrocarbons according to claim 1, characterized in that that the pressure in the pore space of the part of the deposit, which is from the hot flowable Medium is touched, is reduced by the fact that the flow resistance in which the Production probe surrounding part of the deposit and / or reduced at the outlet of the production probe and / or the pumping speed of a pump arranged in the delivery probe is increased. 3. A method for the production of hydrocarbons according to claim 1, characterized in that that the pressure in the pore space of the part of the deposit, which is from the hot flowable Medium is touched, thereby lowered is that the injection speed is decreased in the injection probe. 4. Process for obtaining
Hydrogen according to claim 1 to 3,
marked that each conveyor probe
production pipes contained therein
Layer are driven under the hydrocarbon-bearing deposit, so that the opening of the production pipes is at a level below the bottom of the hydrocarbon-bearing deposit. Coal through it and those in the Considered publications:
U.S. Patent No. 3 182721. 1 sheet of drawings 609 749/54 12.66 © Bundesdruckerei Berlin