RU2473794C1 - Oil deposit development method - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: according to the method, when oil deposit is being developed, working fluid is pumped through injection wells and product is extracted through vertical and horizontal production wells with an uprising shaft. Horizontal wells with the uprising shaft are made of one cluster in the form of a fan; lower part of each well is arranged at the distance of 7-10 m above the boundary between oil saturation zone and residual oil saturation; wells are made with an open shaft in productive formation zone.

EFFECT: increasing oil recovery of deposit.

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Description

The invention relates to the oil industry and may find application in the development of oil deposits.

A known method of developing an oil reservoir by horizontal wells, in which the main transport horizontal well is drilled obliquely through the formation in the direction of the oil-water contact. Additional branched trunks are drilled upward. The bottom marks of the additional ascending branch trunks are drilled with a decrease in the marks of their bottoms towards the end of the main horizontal transport trunk. The bottom mark of the last additional branched ascending trunk is assigned based on the ratio of the vertical distance from the bottom point of the main horizontal transport trunk, which is also the mark of the mouth of the last additional branched ascending trunk to the oil-water contact to the distance from the bottom of the last additional branched ascending trunk to the oil-water contact of 0 , 3-0.5. The bottom mark of the first additional branch ascending trunk is determined based on the ratio of the vertical distance from the mouth of the first additional branch ascending trunk to the oil-water contact to the distance from the bottom of the first additional branch ascending trunk to the oil-water contact of 0.6-0.8. The bottom mark of the additional branch ascending trunk in the interval between the first and last additional branch ascending trunk is determined based on the ratio of the vertical distance from the mouth of the corresponding additional branch ascending trunk to the oil-water contact to the distance from the bottom of the same additional branch ascending trunk to the oil-water contact of 0, 3-0.8. The main transport horizontal barrel is provided with a tubing string with the bottom of the tubing string at the bottom of the main transport horizontal trunk. The selection of oil is carried out through additional branched ascending trunks (RF patent No. 2274738, publ. 04/20/2006).

Closest to the proposed invention in technical essence is a method of developing an oil reservoir by horizontal wells, including posting in the well of the main transport horizontal wellbore in the reservoir, drilling from the main transport horizontal well of additional branched ascending trunks in the working sections of the reservoir and incorporating the well into oil production . The main transport horizontal trunk is held above the level of the oil-water contact - VNK. Before drilling ascending shafts, which are drilled to the roof of the reservoir, a water insulating composition is pumped into the main horizontal horizontal trunk in a volume that makes it possible to obtain a water insulating screen around the main horizontal shaft with a diameter of at least 0.5 m.In this case, an aqueous suspension of polyacrylamide is pumped as a water insulating composition, cement mortar or plugging composition consisting of an aqueous solution of a biopolymer and a reagent comprising sodium silicate. In this case, the plugging composition and the additional chemical structuring initiator injected after it, which is a 20-35% aqueous solution of calcium chloride, are pumped, depending on the injectivity of the formation, in several alternating portions of 2-10 m ³ , separated by an aqueous buffer in a volume that excludes mixing of the portions in the process of uploading. In this case, as sodium silicate in the plug composition, liquid sodium glass is used, mixed with an aqueous solution of a biopolymer consisting of 0.2-0.5 wt.% Xanthan biopolymer and 0.03-0.3 wt.% Bactericide, in the proportion of 0.8: 1 to 1.4: 1 (RF patent No. 2418157, publ. 05/10/2011, - prototype).

Common disadvantages of the known methods are the rapid flooding of a well with a horizontal wellbore due to the proximity of the wellbore to the oil-water contact or the high cost and low coverage of the reservoir due to unreasonable removal from the oil-water contact. In both cases, the oil recovery is reduced.

The proposed invention solves the problem of increasing oil recovery deposits.

The problem is solved in that in the method of developing an oil reservoir, which includes injecting a working agent through injection wells and selecting products through producing vertical and horizontal wells with an ascending well, according to the invention, horizontal wells with an ascending well are performed fan-shaped from one well, the lower part of each well is placed higher at 7-10 m of the boundary between the zone of oil saturation and residual oil saturation, wells are performed with an open wellbore in the zone of the reservoir.

SUMMARY OF THE INVENTION

When developing an oil reservoir with underlying water, they try to draw horizontal trunks of production wells so that there is no quick watering of the production of the well by pulling water from the underlying aquifer. At the same time, while ensuring the absence of watering due to the removal of the horizontal wellbore from the oil-water contact, there are high costs and low coverage of the reservoir by impact. In both cases, the oil recovery is reduced. The proposed invention solves the problem of increasing oil recovery by arranging horizontal shafts of production wells at an optimal distance from the oil-water contact. The problem is solved as follows.

When developing an oil reservoir, the working agent is injected through injection wells and products are selected through producing vertical and horizontal wells with an upward bore. The profile (section) of the reservoir is built and the intervals of oil saturation and residual oil saturation are distinguished in it. The oil saturation interval is the intercalation of porous-permeable limestones with compacted dolomites. Oil saturation is 75%, porosity is 15%. The total thickness of the deposits is 40-42 m, including oil saturated 25-30 m. The interval of residual oil saturation is a compacted section of carbonate deposits up to 7-8 meters thick, with oil saturation of 45-55% and porosity of 9-12%.

Figure 1 shows the plan of the reservoir, where 1 - injection wells, 2 - vertical production wells, 3 - well, 4 - horizontal wells made from one bush fan-shaped.

Figure 2 shows the profile of the reservoir, in which 1 - injection wells, 2 - vertical production wells, 4 - horizontal production well, 5 - upstream, 6 - oil-water contact, 7 - interval of oil saturation of the reservoir, 8 - interval of residual oil saturation , 9 - the boundary between the zone of oil saturation and residual oil saturation.

The lower part of each well is placed higher by an amount A equal to 7-10 m of the boundary between the zone of oil saturation and residual oil saturation, which is the most rational in terms of vertical coverage and distance from water-oil contact. To increase the flow rate of wells they are performed with an open wellbore in the zone of the reservoir.

Case Study

An oil reservoir is developed with the following characteristics: water-oil contact depth - 945 m, reservoir thickness - 41 m, oil saturation zone thickness - 30 m, residual oil saturation zone thickness - 5-8 m, reservoir pressure - 8.7 MPa, reservoir temperature - 22 ° C, porosity - 15%, permeability - 0.311 μm ² , oil saturation - 75%, oil viscosity - 242 MPa · s, oil density - 0.937 g / cm ³ . The deposit is being developed by flooding. A working agent — produced water — is pumped through injection wells and products are taken through vertical production wells.

A profile of the reservoir is built and the intervals of oil saturation and residual oil saturation are distinguished in it. From the bush they drill fan-shaped horizontal production wells with an ascending trunk. The number of wells is from 2 to 10. The lower part of each well is placed 7-10 m higher than the boundary between the zone of oil saturation and residual oil saturation. Wells are performed with an open hole in the zone of the reservoir. Wells are supplied with tubing columns, the bottom of which is placed at the bottom of the horizontal wellbore, and downhole pumping equipment. Selected reservoir products (oil) through horizontal wells.

When operating horizontal wells, the anhydrous period is maintained for 2 years. Subsequently, a smooth increase in water cut occurs in accordance with the general increase in the oil-water contact. The application of the technical solution of the prototype leads to the flooding of products after 1 year of operation and the burial of significant amounts of oil in the deposits.

As a result, oil recovery increased by 4% and amounted to 40%.

The application of the proposed method will improve oil recovery deposits.

Claims (1)

A method of developing an oil deposit, including pumping a working agent through injection wells and selecting products through producing vertical and horizontal wells with an upward shaft, characterized in that horizontal wells with an upward shaft are fan-shaped from one well, the lower part of each well is placed 7-10 higher m of the border between the zone of oil saturation and residual oil saturation, wells are performed with an open hole in the zone of the reservoir.

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