RU2646151C1 - Method for development of high-viscosity oil deposit - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to methods of reservoir and production engineering. In the method for developing a reservoir of high viscosity oil comprising in injecting a displacing agent, for example steam, into the formation of the overlying horizontal wellbore of a multifunctional well, and in selecting of formation oil from the underlying horizontal wellbore, located parallel to the upper wellbore, along the length of the strip-like element of the oil deposit or in the selected direction of the deposit multifunctional wells with two horizontal wellbores are arranged in series one behind the other, so that in the zone of the formation, the horizontal distances between the injection of the displacing agent and the selection of oil are the same. Moreover, the injecting wellbores of the displacing agent should be located with a displacement of half the distance between the wellbores relative to the underlying wellbores of oil withdrawal, so that the vertical projection of each wellbore by pumping the displacing agent onto the hollow with the wellbores of oil withdrawal will be at an equal distance from the wellbores of oil withdrawal.

EFFECT: technical result is the provision of influence on oil in both vertical and horizontal directions, achieving a more complete underbreaking of the formation.

1 cl, 2 dwg

Description

The invention relates to technologies for the development of oil reservoirs using production and injection wells. The developed development method can be used in oil fields, where the production of highly viscous oil from the reservoirs is carried out by the thermal method of displacing oil with hot water or superheated steam.

The development of an oil reservoir by displacing oil from a pore space with water or another displacing agent is carried out at most oil fields in Russia and at many fields in the world. Typically, water or another displacing agent is pumped into injection wells through a tubing string (tubing), and oil is extracted from other wells, oil producing ones, in an acceptable way: in a fountain or mechanized way. Thus, for the effective development of an oil reservoir, at least two wells are necessary - an injection well and an producing well. There are multifunctional wells that contain the capabilities of injection and oil wells.

The use of one well for injection of an agent acting on the formation and simultaneous oil extraction without changing the underground equipment is proposed according to the invention “Method for producing highly viscous oil from a directional well by cyclic steam injection into the formation” (RF patent No. 2436943, publ. 12/20/2011). The well has an ascending end portion of the wellbore, cased by a filter that has only two zones of perforation holes - at the start (lowest point) and end part (highest point in the formation zone). A thermally insulated pipe string for steam injection is conducted to the end of the filter and is cut off from the rest of the well by a packer. Steam supplied to the pipe string penetrates the reservoir, heats the highly viscous oil, which flows into the area of the lower perforation holes of the filter and then rises to the surface of the earth with pumping equipment located in the lower part of the second string of tubing.

According to the invention, there is no possibility of organizing a system of wells providing plane-parallel filtration of formation fluids with the exception of the formation of stagnant zones.

A well-known design of the well with horizontal and simultaneously parallel sections with the functions of pumping the displacing agent and the selection of reservoir oil according to the patent of the Russian Federation for invention No. 2594027 "Method for well development of a section of an oil reservoir" (publ. 08/10/2016). In relation to the production of high-viscosity oil by injecting steam into the reservoir as a displacing agent, this well design has two drawbacks:

- with a significant oil-saturated thickness of the formation when the steam is injected into a remote horizontal section of the well, the upper zones of the formation do not warm up, the viscosity of the oil does not decrease and the oil is not involved in the movement towards the second horizontal wellbore - the zone of formation oil extraction; stagnant zones are formed, the reservoir is only partially developed;

- there are certain heat losses during the movement of steam from the site of the selection of oil to the site of injection of the displacing agent.

For the production of high-viscosity oil (BBH) with the help of gravity and a significant decrease in oil viscosity in Russia, the first two-level wells appeared in 1998 (source of information: pp. 238 and 228 of Ibatullin’s book PP Technological processes for developing oil fields. - M .: VNIIOENG, 2011 . - 304 p.). According to the well-known SAGD technology (SteamAssistedGravityDrainage), two horizontal boreholes of two wells are placed vertically above each other in an oil reservoir vertically at a short distance (about 4-7 meters). Steam with a temperature of up to 200 ° C is supplied to the upper one, and oil with a minimum viscosity is pumped out of the lower well bore, since the temperature in the immediate vicinity of the well increases with time to 100-120 ° C. Around the upper - steam injection - well, a vapor chamber is formed in the form of a triangular oval with the base towards the top of the formation and with a pointed tip - towards the bottom of the formation and the producing well. The propagation of the heat front throughout the formation will occur in the form of an expanding steam chamber. When several pairs of wells of the SAGD system are located on a site of an oil deposit near the bottom of the formation, stagnant zones of the formation that are significant in volume are formed, which are not involved in the development, that is, in the movement of oil towards a horizontal well to take oil.

The known design of a multilateral well with two horizontal shafts according to the patent of the Russian Federation for invention No. 2585297 (publ. 27.05.16, bull. 15). The vertical part of the well ends with two horizontal branches located in the same direction parallel to each other. It is very convenient to use such a well for SAGD technology as follows - steam is pumped into the upper barrel, and oil is pumped out from the lower barrel. Instead of two wells, only one multifunctional well is used. There is only one drawback when using several of these wells in the systematic development of the VVN deposit. The thermal effect on highly viscous oil will be the same as when using two separate wells - with the vertical location of the wellbores. There will be a high proportion of residual, not involved in the movement of oil - in the bottom of the reservoir. According to the claimed invention, the RF patent for the invention No. 2585297 is considered as a prototype.

The considered configuration (form) of the heat front using SAGD technology, and hence the movement lines of heated oil, is explained by the simultaneous action of two forces applied to the oil particle: gravitational gravity F ₁ (it acts downward) and the force arising due to the pressure difference in trunks of the injection well and the underlying producing well - F ₂ . The force F _{2 is} also directed vertically downward.

The technical task according to the invention is the organization in the oil reservoir of plane-parallel filtration of formation fluid using a system of multifunctional wells, and the filtration of fluid in the pore space of the reservoir should occur not only in the vertical direction, but also in the horizontal direction, in order to exclude the possibility of formation of stagnant zones in the volume the entire reservoir, especially near the bottom of the reservoir. In our opinion, this can be accomplished by assigning greater importance to the force of gravity acting on a particle of oil by organizing a different orientation of the gravity force and the second force F ₂ .

The task is carried out in that according to the method of developing a highly viscous oil deposit, which consists in injecting a displacing agent, in particular steam, into the formation through an overlying horizontal wellbore of a multifunctional well and extracting produced oil from the underlying horizontal wellbore located parallel to the upper wellbore along the length multifunctional wells with two horizontal boreholes are located next to the strip-like element (PE) of the oil reservoir or to the selected direction of the reservoir one after another so that in the formation zone the horizontal distances between the trunks for steam injection and oil selection are the same, and the trunks for steam injection should be offset half the distance between the trunks relative to the underlying trunks for oil selection, so that the vertical projection of each the barrel for injecting steam onto the plane with the trunks for oil selection will be at an equal distance from the trunks for oil selection.

A new arrangement of multifunctional wellbores in the reservoir space is shown in a perspective view of FIG. 1 and in section, in FIG. 2. In FIG. 1 are conventionally marked with numbers: 1 - vertical boreholes, 2 - the upper horizontal bore, designed to pump steam along its entire length, 3 - the underlying horizontal bore, designed to collect oil along its entire length, 4 - the borehole with a slope to offset the barrel 3 to the middle position under the two nearest shafts 2. Under position 5, a formation (deposit) with high viscosity oil is indicated.

Thus, to organize the method of developing an oil deposit, a two-level well was used according to the invention patent No. 2585297 with a significant change - the barrel for oil selection was shifted relative to the upper barrel for steam injection to the required distance.

For a more convenient perception of the volumetric picture of the location of the horizontal shafts of three multifunctional double-well boreholes in the form of three triangles, the floor arrangement of the shafts in the section plane is shown (Fig. 2). Closer to the top of the reservoir are trunks for supplying steam, and closer to the bottom of the reservoir are trunks for oil selection.

In FIG. Figure 2 shows the directions of the forces F ₁ (gravity) and F ₂ (pressure force) acting in the changed conditions in comparison with the current position according to the SAGD system in the plane of the section of the reservoir (runs perpendicular to the axis of the horizontal wellbores). The legend in FIG. 2 are the same as in FIG. 1: 2 - horizontal barrel for injecting steam into the reservoir, 3 - horizontal barrel for taking oil from the reservoir, 5 - reservoir (reservoir) with highly viscous oil, 6 - the shape of the steam chamber or the area of heating and movement of oil, 7 - residual oil in the bottom parts of the reservoir.

As before, the gravity force F ₁ acts vertically downward, and the force F ₂ acts, as before, in the direction from the greater pressure to the direction of lower pressure, that is, from the injection shaft to the side of the barrel for oil selection. The components of these forces (forces F) are directed to the intermediate points A and B at the bottom of the formation, which are located between the horizontal trunk for oil selection and the vertical projection of the horizontal trunk for steam injection. This new orientation of the resulting forces contributes to a different configuration of the steam chamber and the heat front - more rational. Due to the shift of the steam injection lines relative to the oil extraction line organized according to the invention, the oil is more completely displaced by steam in the reservoir volume, since the multidirectional forces F ₁ and F ₂ increase the oil heating area in the considered section plane of the oil reservoir. According to the invention, the area of residual oil in the cross section of the reservoir is significantly smaller than with the existing system for the development of oil and gas production using SAGD technology.

The method is expected to achieve two positive effects for the oil company:

1. A highly viscous oil field is developed by half the number of wells with a horizontal end of the wellbore in the reservoir through the use of an improved form of a multifunctional well with two horizontal shafts. The improvement consists in the fact that the underlying horizontal shaft is shifted horizontally by half the distance between the horizontal shafts by supplying steam in the roofing zone of the formation.

2. The design of the well with two levels of horizontal wells meets all the requirements of multifunctional wells when a displacing agent is pumped into the well and reservoir oil is taken from it. In a vertical wellbore above the wellbore with steam, a high temperature is maintained, as a result of which the produced oil does not have time to cool when rising to the wellhead. This positive effect of the two-pipe system in the wellbore will be in maximum demand with a significant depth of high-viscosity oil.

In the opinion of the authors, the subject of protection according to the invention is that a multifunctional well arrangement system is proposed that provides for plane-parallel fluid movement in both vertical and horizontal directions, as a result of which a more complete formation production is provided.

Claims (1)

A method for developing a highly viscous oil deposit, which involves injecting a displacing agent, for example, steam, into the formation through an overlying horizontal wellbore of a multifunctional well and extracting produced oil from a horizontal well below the upper wellbore parallel to the upper wellbore, characterized in that the length of the strip-like element of the oil well or multifunctional wells with two horizontal shafts are placed sequentially one after another so that in the zone the horizontal distances between the trunks for the injection of the displacing agent and the selection of oil were the same, and the trunks for the injection of the displacing agent should be offset half the distance between the trunks relative to the underlying trunks for the selection of oil, due to which the vertical projection of each barrel for pumping the displacing agent onto the plane with the trunks for the selection of oil will be at an equal distance from the trunks for the selection of oil.

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