RU2418157C1 - Development method of oil deposit with horizontal wells - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method involves drilling in the well of the main transport horizontal shaft in productive formation; drilling from the main transport horizontal shaft of additional branched uprising shafts to working sections of formation and operation of well during oil extraction. According to invention, the main transport horizontal shaft is drilled above oil-water contact - OWC. Prior to drilling of uprising shafts which are drilled in roof of productive formation, to the main transport horizontal shaft there pumped is water isolating compound in the volume allowing to obtain water-isolating shield around the main horizontal shaft with diametre of not less than 0.5 m. At that, as water-isolating compound there pumped is water suspension of polyacrylamide cement solution or consisting of bridging composition consisting of water solution of biopolymer and reagent including sodium silicate. At that, bridging composition and chemical structuring initiator additionally pumped after it and representing 20-35% water solution of calcium chloride is pumped depending on the formation intake rate in several alternating portions 2-10 m³ each, which are separated with water buffer in the volume which excludes mixing of portions during pumping process. At that, as sodium silicate in bridging composition there used is sodium liquid glass mixed with water solution of biopolymer, consisting of 0.2-0.5 wt % xanthane biopolymer and 0.03-0.3 wt % bactericide in the ratio of 0.8:1 to 1.4:1.

EFFECT: method is simplified and its efficiency is improved at the same time owing to reducing water blockage of extracted products.

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Description

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

A known method of developing an oil field (patent RU No. 1623276, IPC 8 EV 43/00, published in Bulletin No. 33 of 11/27/1999), including drilling a field with a horizontal wellbore system, injecting a displacing agent through injection wells and production oil through production wells. Additionally, drainage wells with horizontal shafts are carried out, they are placed at the bottom of the gas-pressure field or in the roof of the field with a water-pressure mode, while the horizontal well system has intersecting or intersecting trunks in plan view, and production wells are hydrodynamically connected to the intersection of horizontal drainage well shafts, injection of the displacing agent is carried out in the roof of the field in gas pressure mode or in the bottom of the field in water pressure mode.

The disadvantage of this method is that it does not allow to develop an oil reservoir with high oil recovery due to the rapid flooding of the produced products with rising cones of flooding.

The closest in technical essence and the achieved result is a method of developing an oil field by horizontal wells (patent RU No. 2274738, IPC 8 ЕВВ 43/20, published in Bulletin No. 11 of 04/20/2006), including the main horizontal transport in the well borehole, drilling from the main transport horizontal wellbore of additional branched trunks to the working sections of the formation and the inclusion of the well in the oil production work, while the main transportable horizontal well is drilled obliquely through the thickness of the formation in water-oil contact, additional branched trunks are drilled ascending, bottom marks of additional ascending branched trunks are drilled with lowering marks of their bottoms to the end of the main transport horizontal trunk, the bottom mark of the last additional branched ascending trunk is determined based on the ratio of the vertical distance from the bottom of the main horizontal transport trunk , which is simultaneously a mark of the mouth of the last additional branched ascending trunk a, to the oil-water contact to the distance from the bottom of the last additional branch 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 equal to 0.6-0.8, the mark of the bottom of the additional branch the descending trunk in the interval between the first and last additional branched ascending trunk is assigned based on the ratio of the vertical distance from the mouth of the corresponding additional branched ascending trunk to the oil-water contact to the distance from the bottom of the same additional branched ascending trunk to the oil-water contact, equal to 0.3-0, 8, the main horizontal transport trunk is provided with a tubing string with placement of the bottom of the tubing string at a lower point ke of the main transport horizontal wellbore, and the selection of oil is carried out through additional branched ascending trunks.

The disadvantages of this method are:

- firstly, oil recovery remains low due to the premature rise of bottom water cones in the main horizontal transport trunk and to the faces of the additional ascending trunks, since waterproofing of the main transport trunk is not provided;

- secondly, the complexity of the implementation of the method, since the drilling of the ascending additional trunks is carried out according to marks, which can lead to erroneous calculations.

The objective of the invention is to simplify the implementation of the method and at the same time increase the efficiency of the development of oil deposits by horizontal wells by reducing the water cut of the produced products by posting the main transport horizontal trunk above the level of the oil and gas complex and creating a water insulating screen around the main horizontal transport trunk.

The problem is solved by the method of developing an oil field by horizontal wells, including wiring in the well of the main horizontal transport well in the reservoir, drilling from the main horizontal horizontal well of additional branched ascending trunks into the working sections of the reservoir and including the well in oil production.

What is new is that the main horizontal transport trunk is held above the level of the water-oil contact (OWC), before drilling the ascending trunks that are drilled to the top of the reservoir, the waterproofing composition is pumped into the main horizontal transport trunk in a volume that makes it possible to obtain a waterproofing screen around the main horizontal trunk with a diameter at least 0.5 m, while an aqueous suspension of polyacrylamide, cement mortar or tampon composition is pumped as a water-insulating composition, consisting mixture consisting of an aqueous solution of the biopolymer and a reagent comprising sodium silicate, the plugging arrangement and further injected after the chemical initiator structuring representing 20-35% aqueous calcium chloride solution is pumped into the reservoir, depending on the several pick-up by alternating portions of 2-10 m ³ , separated by an aqueous buffer in a volume that excludes mixing of the portions during the pumping process, while glass of sodium liquid is used as sodium silicate in the plugging composition e, miscible with an aqueous solution of a biopolymer consisting of 0.2-0.5 wt.% xanthan biopolymer and 0.03-0.3 wt.% bactericide, in a ratio of from 0.8: 1 to 1.4: 1.

The drawing schematically shows the proposed method.

The proposed method is as follows.

A method for developing an oil reservoir by horizontal wells includes conducting a main horizontal transport well 1 in a well 2 in a well, the main horizontal horizontal well 1 being carried above the oil-water contact (WOC) 3, as determined by hydrodynamic studies. Before drilling additional ascending shafts 4; four'; 4 ".... 4 ⁿ from the main transport horizontal trunk 1 into the main transport horizontal trunk 1 pump the insulating composition in a volume that allows to obtain a water insulating screen 5 around the main horizontal trunk 1 with a diameter of at least 0.5 meters, and is determined in practice.

Depending on the permeability of the reservoir, reservoir pressure and the expected oil production rate, the waterproofing composition is determined.

With high permeability of the productive formation 2 (for example, from 0.3 μm ² or more) and a small reservoir pressure of oil, water is accelerated to draw faster from the BHC boundary 3 into the main horizontal transport trunk 1, therefore, an aqueous suspension of polyacrylamide is pumped as a water-insulating composition, which does not leads to a change in the permeability of the rock for hydrocarbons, while it is not a physical block and delays or blocks only the flow of water in the matrix of the reservoir 2, without interfering with the influx of oil into the main trans ortny horizontal wellbore 1.

With small reservoir pressures and a large thickness of the reservoir 2 there is a large pressure drop in the additional ascending shafts 4; four'; 4 "... 4 ⁿ relative to the main horizontal transport trunk 1, while the oil from the main horizontal transport trunk 1 moves to the bottom of the reservoir 2, i.e., to the boundary of the KSS 3, and therefore the volume of oil withdrawal is reduced, therefore, as a water-insulating of the composition is injected with cement mortar in order to completely clog the reservoir 2 around the main horizontal transport trunk 1

At high oil production rates for effective production of reservoir 2 and the most effective protection of the main horizontal transport trunk 1 from water suction, a tamping composition consisting of an aqueous solution of a biopolymer and a reagent including sodium silicate is pumped as a water-insulating composition. The plugging composition and the additional chemical structuring initiator injected after it is a 20-35% aqueous solution of calcium chloride, which is pumped depending on the injectivity of the formation in several alternating portions of 2-10 m ³ , separated by a water buffer in a volume that prevents mixing of the portions in the process uploading.

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 a proportion of 0, 8: 1 to 1.4: 1.

Drilling additional ascending shafts 4; four'; 4 "... 4 ⁿ , which are drilled to the roof of the reservoir 2, and the inclusion of wells in oil production.

The proposed method is simple to use and does not require additional ascending shafts to be marked according to the marks, while the efficiency of developing oil deposits by horizontal wells is increased by reducing the water cut of the produced products by posting the main horizontal transport trunk above the level of the oil and gas complex.

Claims (1)

A method for developing an oil reservoir by horizontal wells, including wiring in the well of a main horizontal transport well in the reservoir, drilling from the main horizontal transport trunk of additional branched ascending trunks into working sections of the reservoir, and incorporating the well into the oil production operation, characterized in that the main horizontal transport well carried out above the level of water-oil contact -VNK, before drilling ascending trunks that drill to the roof of a productive area That is, a water-insulating composition is pumped into the main horizontal transport trunk in a volume that makes it possible to obtain a water-insulating screen around the main horizontal trunk with a diameter of at least 0.5 m, while an aqueous suspension of polyacrylamide, cement mortar or tampon composition, consisting of an aqueous solution, is pumped a biopolymer and a reagent, including sodium silicate, while the plugging composition and an additional chemical structuring initiator injected after it, pre which is a 20-35% aqueous solution of calcium chloride, depending on the injectivity of the formation, it is injected in several alternating portions of 2-10 m ³ , separated by an aqueous buffer in a volume that excludes mixing of the portions during the injection process, while as sodium silicate in the tamponating composition using sodium liquid glass, miscible with an aqueous solution of a biopolymer consisting of 0.2-0.5 wt.% xanthan biopolymer and 0.03-0.3 wt.% bactericide, in a ratio of from 0.8: 1 to 1 4: 1.

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