RU2339806C1 - Method for extraction of heavy and high viscous hydrocarbons from undeground deposits - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention refers to method of extraction of tar sand or of heavy oil with high viscosity from underground deposit. The essence of the invention is as follows: the method includes boring and preparing to operation of a pressure well which is finished with a horizontal section in a deposit and of a producing well a horizontal section of which is finished in the deposit below the level of the pressure well, then the method includes formation of a permeable zone between the pressure and producing wells of heat carrier into the pressure well and simultaneous withdrawal of hydrocarbons from the producing well. According to the invention a horizontal section of a pressure well is oriented to the side of a producing well at length of 95-99% of distance between the wells. A horizontal section of the producing well is oriented to the side of the pressure well at length of 95-99% of distance between the wells. At that an additional horizontal section in the pressure well is made towards the producing well of length consisting 10-15% of distance between the wells. Also an additional horizontal section in the producing well is made towards the pressure well of length consisting 10-15% of distance between the wells. A permeable zone is formed between horizontal sections of pressure and producing wells. For that, before operating, hydro breaks are performed successively for each row of wells with pumping a horizontal layer of proplant.

EFFECT: increased efficiency of deposit development.

2 dwg

Description

The invention relates to a method for producing hydrocarbons from an underground tar sand deposit or a heavy oil reservoir having a high viscosity. To obtain hydrocarbons from such deposits, their heating is necessary.

A known method of developing an oil field (patent RU No. 22113857, IPC 7 ЕВВ 43/24, published in Bulletin No. 28 of 10.10.2003), including drilling vertical wells with sidetracks, pumping coolant into the reservoir through sidetracks and selection oil through them, and vertical wells are drilled to the bottom of the lower object with their placement in one of the areal systems, while before the start of areal injection of a working agent, for example, water, sidetracks are drilled into the formation in each vertical well in each production facility of the formation, then by sequential treatment sidetracks by feeding them to subsequent selection of coolant through the lateral holes of oil well production to reduce to a minimum viable level, the injection of steam and selection cycles oil repeated until the maximum allowable water cut oil.

The disadvantage of this method is that the selection of products from the well is carried out cyclically, combining it with steam injection to the maximum allowable water cut of the produced product, which reduces the amount of oil produced and leads to significant heat energy costs for heating the formation.

There is also known a method of producing hydrocarbons from underground tar sand or heavy oil deposits (patent RU No. 2098613 MKI 6 ЕВВ 43/24, published in bulletin No. 34 dated 12/10/1997), containing drilling and preparation for operation of an injection well, which ends in the reservoir and production well, which ends in the reservoir below the level of the injection well, creating a permeable zone between the injection and production wells, while drilling and preparation for operation is carried out by at least two pairs of wells, where each RA includes an injection well ending in the reservoir and a producing well ending in the reservoir below the level of the injection well, the second pair of wells facing the first pair of wells, creating a permeable zone between the injection well and the producing well of each pair of wells, water injection is carried out by injection wells, the simultaneous extraction of hydrocarbons is carried out by producing wells, while the injection pressure in the injection well of the first pair exceeds the pressure e injection in the injection well of the second pair of wells, each injection and production wells have horizontal end sections passing inside the reservoir.

The closest in technical essence is the method of developing high-viscosity oil and bitumen deposits with horizontal wells (patent RU No. 2237804, IPC 7 ЕВВ 43/24, published in bulletin No. 28 dated 10.10.2004), including drilling wells for a specific the grid, injection of the displacing agent through the injection wells and selection of formation fluids through the production wells, while the wells are drilled along a radial grid so that the injection wells are located on the reservoir closer to the upper boundary of the formation at the most pronounced interlayers, and production - closer to the lower boundary of the reservoir, and at the initial stage of development in all wells, thermocyclic treatment of the formation with steam stimulation is carried out with the subsequent transition to the selection of formation fluids through production wells with areal exposure to the formation through injection wells.

Both analogues and prototypes to one degree or another have common disadvantages:

firstly, the complex process of the method;

secondly, the small area covered by horizontal deposits and, as a consequence, the low efficiency of the development of deposits;

thirdly, the difficulty of orienting horizontal sections of injection and production wells in the reservoir.

An object of the invention is to simplify the process of implementing the method and increase the accuracy of orientation of horizontal sections of wells in the deposits, as well as increase the efficiency of development of deposits by increasing the coverage area of bitumen deposits in horizontal sections and reduce the thermal effect on the walls of the well during operation.

The stated technical problem is solved by a method of producing bitumen from an underground deposit, comprising drilling and preparing for operation an injection well, which is completed with a horizontal section in the reservoir, and a production well, the horizontal section of which is completed in the reservoir below the level of the injection well, creating a permeable zone between the injection and producing wells , pumping coolant into the injection well and simultaneously taking hydrocarbons from the producing well.

What is new is that the horizontal section of the injection well is oriented towards the producing well and performed with a length of 95-99% of the distance between the wells, the horizontal section of the production well is oriented towards the injection well and is made with a length of 95-99% of the distance between the wells, this in the injection well to the producing well made an additional horizontal section with a length of 10-15% of the distance between the wells, as in the producing well to the injection also made additional length of horizontal portion constituting 10-15% of the distance between the wells and the permeable zone pose between the horizontal portions of injection and production wells, which starts to operate in each of the horizontal sections sequentially produce fracturing with proppant injection layer.

The figure 1 in a longitudinal section schematically shows an image of an underground deposit of bitumen.

The figure 2 presents a diagram of the fracturing with the injection of a proppant layer.

The essence of the method is as follows.

A pair of wells is being constructed, consisting of injection 1 (see Fig. 1) and producing 2 wells, which are cased and cemented after drilling.

Next, the injection well 1 is equipped with a horizontal section 3 in the bitumen deposit 4 located at level 5 and oriented towards the producing well 2 with a length of 95-99% of the distance L between the wells.

Then, the producing well 2 is equipped with a horizontal section 6 in the bitumen deposit 4 located at level 7, but lower than level 5 of injection well 1 and oriented towards injection well 1 with a length of 95-99% of the distance L between the wells.

Further, in the injection well 1 towards the horizontal section 6 of the producing well 2, an additional horizontal section 8 with a length of 10-15% of the distance L between the wells is made, and in the producing well 2 towards the horizontal section 3 of the injection well 1 an additional horizontal section 9 with a length of 10 -15% of the distance L between the wells.

After that, that is, before the start of operation, in each of the horizontal sections 3 and 6 and in each of the additional horizontal sections 8 and 9 of the injection 1 and production 2 wells, respectively, hydraulic fractures are performed sequentially with injection of the proppant layer 10 (see Fig. 2 ), this creates a permeable zone between the horizontal end sections 3 and 6. Next, the injection 1 and production 2 wells are put into operation, while the coolant is injected into the injection well 1 and at the same time, selection is made hydrocarbons from the producing well 2.

The proposed method allows to increase the accuracy of the orientation of the horizontal sections of wells in the deposits, as well as the efficiency of the development of the deposits by increasing the coverage area of the bitumen deposits in horizontal sections by creating a permeable zone between the horizontal end sections by fracturing with the injection of a proppant layer, and the simplification of the process of the method allows to save material and financial costs.

Claims (1)

A method for producing heavy and highly viscous hydrocarbons from an underground deposit, comprising drilling and preparing for operation an injection well, which is completed with a horizontal section in the reservoir, and a production well, the horizontal section of which is completed in the reservoir below the level of the injection well, creating a permeable zone between the injection and producing wells, coolant injection into the injection well and simultaneous extraction of hydrocarbons from the producing well, characterized in that the horizontal section the injection well is oriented towards the producing well and performed with a length of 95-99% of the distance between the wells, the horizontal section of the producing well is oriented towards the injection well and is made with a length of 95-99% of the distance between the wells, while in the injection well to the producing well perform an additional horizontal section with a length of 10-15% of the distance between the wells, as in the production well to the injection also perform an additional horizontal first length portion constituting 10-15% of the distance between the wells and the permeable zone pose between the horizontal portions of injection and production wells, which prior to the operation in each of the horizontal sections sequentially produce fracturing with proppant injection horizontal layer.

Images