RU2506419C1 - Oil deposit development method - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to the oil and gas industry, it can be used for development of oil deposits confined to the dome-shaped highs and at the final stage of deposits development. The concept of the invention is as follows: the method includes drilling of injection and producing wells, oil extraction through producing wells, surveying and determination of sections with dome-shaped highs exceeding actual elevations of the stratum, pumping of waterproofing sealant to wells, use of remaining wells located in direct vicinity from dome-shaped highs related hydrodynamically to producing wells within limits of this producing stratum and flooded completely in production process and used as injection wells to which operating fluid is pumped. According to the invention surveying and determination of sections with dome-shaped highs is made by temperature logging and determination of closed areas with temperature of 30-38°C corresponding to dome-shaped highs. Pumping of waterproofing sealant is made to wells located in cavities and completely flooded wells by suppression of the stratum in order to isolate water influx partially to dome-shaped highs from flooded areas. Branch or horizontal holes are made from these wells to penetrate stratum in the area of dome-shaped highs with further use of such holes as producers.EFFECT: reducing material costs and increasing oil recovery factor due to water influx isolation from flooded areas of stratum, simplifying determination of dome-shaped high areas.1 dwg, 2 ex

Description

The invention relates to the oil and gas industry, to the field of development of oil fields confined to dome-shaped uplifts, and can be used in the final stage of field operation.

A known method for the development of an oil field (patent RU No. 2254457, IPC EV 43/20, 43/30, publ. Bull. No. 17 dated 06/20/2005), including drilling injection and production wells, pumping a working agent through injection wells, oil production through producing wells, the allocation of areas of dome-shaped elevations exceeding the absolute elevations of the formation, the placement of additional wells in these areas. Designing the placement of wells on the tops of dome-shaped elevations even with a violation of the uniformity of the design grid of wells, and after complete drilling of the grid of wells and if the location of the vertices of dome-shaped elevations are drilled from the nearest wells according to the data of the drilled wells, lateral trunks towards the specified vertices of the dome-shaped elevations that control the field, in the nearest wells and sidetracks located on the tops of dome-shaped elevations, when the absolute mark of the roof of the productive After the closest wells below the level of the bottom of the reservoir in the sidetracks, the entire reservoir is opened.

The disadvantages of this method are the difficulty of determining the geophysical methods of dome-shaped elevations, the selection and injection during production of products from dome-shaped elevations are not controlled, which reduces the efficiency of selection and increases the water cut of the produced products.

The closest in technical essence and the achieved result is a method of developing an oil field (patent RU No. 2330944, IPC ЕВВ 43/16, publ. Bull. No. 8 of 03.20.2008), including drilling injection and producing wells, pumping a working agent through injection wells , oil production through production wells, the allocation of areas of dome-shaped elevations exceeding the absolute elevations of the reservoir. In wells located at the tops of dome-shaped elevations, the entire opened reservoir is isolated with chemicals and / or grout, which is allowed to solidify, the grout is drilled below the top of the reservoir, after which the reservoir is opened in the immediate vicinity of the top of the reservoir and these wells are used as producing, the remaining wells are hydrodynamically associated with these wells within a given reservoir and completely flooded I, transferred to the injection, in which the working agent is pumped.

The disadvantages of this method are the difficulty in determining geophysical methods for dome-shaped elevations, the lack of partial isolation of water inflows from watered zones of the reservoir and the inefficient use of watered wells, which leads to additional material costs and premature watering of the product, which reduces the oil recovery coefficient (CIN).

The technical objectives are to reduce material costs and increase oil recovery factor by increasing the time of flooding of products with partial isolation of water inflows from waterlogged sections of the reservoir and simplifying the allocation of areas of dome-shaped elevations according to thermometry.

The technical problem is solved by a method of developing an oil field, including drilling injection and production wells, oil production through production wells, exploration and identification of areas of dome-shaped uplifts exceeding absolute elevations of the formation, injection of a water-insulating composition into wells, use of other wells located in the immediate vicinity of the dome-shaped uplift associated hydrodynamically with producing wells within a given reservoir and completely flooded I in the extraction process, as injection, in which pump working agent.

New is that the study and the allocation of areas is carried out using thermometry and determination of closed zones with a maximum temperature of 30-38 ° C, corresponding to dome-shaped uplifts, and the water-insulating composition is injected into wells located in hollows and completely flooded, crushing into the reservoir for partial isolating water inflow into dome-shaped uplifts from watered zones of the formation; lateral or horizontal trunks are made from these wells to open the formation in the zone of dome-shaped elevations, followed by Using the wells with these trunks like mining.

SUMMARY OF THE INVENTION

The development of oil fields confined to dome-shaped uplifts, especially in the final stage, is characterized by low oil recovery. The proposed method solves the problem of reducing drilling costs and increasing oil recovery factor by increasing the time of flooding of products with partial isolation of water inflows from flooded sections of the reservoir, simplifying the allocation of areas of dome-shaped elevations according to thermometry.

Figure 1 presents a map of the temperature regime of the site of the oil field, where:

1 - section of the oil field; 2 - a section of dome-shaped elevation; 3 - producing wells; 4 - injection wells.

Figure 2 presents the implementation diagram of the proposed method for the development of an oil field, where:

1 - section of the oil field; 2 - a section of dome-shaped elevation; 3 - producing wells; 4 - injection wells; 5 - lateral or lateral horizontal trunks.

The method is carried out in the following sequence.

On the site of the oil field 1 design the placement of a grid of wells. The calculation of the residual reserves and the oil recovery coefficient are carried out on the basis of hydrodynamic modeling of the oil field 1. Next, vertical production 3 (Fig. 1) and injection wells 4 were drilled through the grid. A working agent is pumped through injection wells 4, and production is taken through production wells 3. Wells 3 and 4 are put into operation and field 1 is put into development.

Carry out the study and the allocation of areas of dome-shaped elevations 2, exceeding the absolute elevations of the reservoir, using thermometry and determination of closed zones with a maximum temperature of 30-38 ° C (figure 2). Several sections of dome-shaped elevations 2 were identified. Wells located in the immediate vicinity of dome-shaped elevations 2, connected hydrodynamically to production wells 3 within a given reservoir and completely watered during production, are transferred to injection 4. Next, the water-insulating composition is injected into the wells located in depressions and completely flooded, crushing into the reservoir in the amount necessary for partial isolation of water inflow into dome-shaped uplifts from flooded I seam zone is 0.5-1.5 m ^3. Next, from these wells (Fig.2) spend side or horizontal shafts 5 for opening the formation in the area of dome-shaped elevations 2, followed by the use of wells with these shafts as producing.

This development method takes into account the difference in the specific gravity of the injected water and oil, as a result of which oil reserves are not developed in the domed part of the reservoir. Clarification of areas of dome rises, drilling of lateral and lateral horizontal shafts, isolation of water inflows will make it possible to select these reserves and increase oil recovery.

An example of a specific implementation.

In the area of oil field 1, vertical production wells 3 (Fig. 1) and injection wells 4 were drilled along a square grid with a 400 m distance between the wells. A working agent was pumped through injection wells 4, and products were taken through production wells 3. Wells 3 and 4 are put into operation and field 1 is put into development.

Conducted research using thermometry, identified areas of dome-shaped elevations 2, exceeding the absolute elevations of the reservoir, identified closed zones with a maximum temperature of 36 ° C (figure 2). Two sections of dome-shaped elevations 2 were identified. Wells located in the immediate vicinity of dome-shaped elevations 2 and completely watered during production were transferred to injection 4. Then, a water-insulating composition (polyacrylamide) is injected into wells located in depressions and completely watered, crushing into the reservoir in the amount of 0.5-1.5 m ³ . Further, from these wells (Fig. 3), sidetracks 5 were cut to 250 meters long to open the formation in the zone of dome-shaped elevations 2, wells with these trunks were used as production wells.

Calculated geological and recoverable oil reserves in the area of the domed rise of 2-170 thousand tons and 80 thousand tons According to field data from the lateral and lateral horizontal shafts received an oil flow rate of 7 tons / day. Annual oil production amounted to 4.8 thousand tons. the coefficient of final oil recovery over the entire period will increase from 0.28 to 0.43. Capital investments for the implementation of activities and for drilling sidetracks by the proposed method amounted to 24 million rubles. instead of 50 million rubles. when drilling vertical wells. The payback period was 1 year.

The proposed method will reduce the cost of constructing additional wells and increase the oil recovery factor by increasing the time of flooding of products with partial isolation of water inflows from flooded sections of the reservoir and simplifying the allocation of areas of dome-shaped elevations according to thermometry.

Claims (1)

A method of developing an oil field, including drilling injection and production wells, oil production through production wells, exploration and allocation of areas of dome-shaped elevations exceeding the absolute elevations of the formation, injection of a water-insulating composition into wells, the use of other wells located in the immediate vicinity of the dome-shaped elevation, connected hydrodynamically with production wells within a given reservoir and completely watered during the production process, as injection, in which the working agent is pumped, characterized in that the study and identification of the sections is carried out using thermometry and determination of closed zones with a maximum temperature of 30-38 ° C, corresponding to dome-shaped elevations, and the water-insulating composition is injected into wells located in the hollows and completely flooded, squeezing into the reservoir for partial isolation of water inflow into dome-shaped uplifts from the flooded zones of the reservoir, lateral or horizontal trunks are opened from these wells fin in the zone dome elevations followed using wells with these trunks as the extractive.

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