RU2630001C1 - Method for oil formation development - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method involves descending into the tubing casing with a packer separating the upper and lower zones of one formation, perforating the above mentioned zones. Then, a substance that reduces viscosity of oil is injected into the upper zone of the formation along the annular space between the casing and the tubing and a mixture of oil and a substance that reduces viscosity of oil is withdrawn through the tubing string. According to the invention, the perforation of the upper zone is carried out at a distance of 0.5-1m below the formation, cap and perforating the lower zone at a distance of 0.5-1m above the formation bottom. At that before the separation of the upper and lower zones in each of them horizontal cavities are formed by creating hydraulic fractures of the formation.

EFFECT: increasing efficiency of oil formation development containing high viscosity oil by increasing the coverage of the formation while simplifying the method.

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Description

The invention relates to the oil industry and can be used to develop a shallow-lying oil reservoir containing highly viscous oil.

There are shallow (up to 300 m) occurring deposits of super-viscous oil. Such deposits with potential reserves of more than 500 million tons were discovered in the Samara region. Theoretically, oil production from these fields could be more than 1 million tons per year. However, this is hindered by the superviscosity, “non-fluidity” of this oil, therefore various methods of heating the oil and the use of solvents are proposed.

The prior art method for the development of deposits of highly viscous oils and bitumen (see RU 2455473 C2, publ. 07/10/2012), including opening the upper and lower intervals of the well within the reservoir, separating the well between the opening intervals, cyclic injection of the working agent in the form of steam in the formation through the upper opening interval and the selection of the production of the formation through the lower interval of opening, the distance between the opening intervals of at least 5 m, and the selection of production of the formation is constant, in addition, the injection of the working agent is stopped when increasing the temperature of the formation products taken from the lower interval to a temperature equal to 70-90% of the breakthrough temperature of the working agent, and the injection of the working agent is resumed when the temperature of the formation products taken from the lower interval is reduced to a temperature equal to 50-70% of the breakthrough temperature the working agent, determined from the physical properties of the formation and the distance between the opening intervals, after the formation of the steam chamber within the upper opening interval, the well is transferred to the injection.

The disadvantage of this method is the small coverage of the reservoir, which leads to low production of the oil reservoir and the economic inexpediency of such a development.

Also known from the prior art is a method for increasing the permeability of a formation during the production of highly viscous oil (see RU 2418162 C1, publ. 05/10/2011), including drilling a vertical well, lowering and cementing a production string followed by perforation, lowering tubing (tubing) and pump, sealing the annulus above the level of oil withdrawal by the packer, pumping the coolant above the oil-water contact (WOC) into the well, which is carried out through the annulus of the tubing, and taking oil through the tubing, while before sealing the shutter the dead space in the interval below the extraction level in the production casing, a removable blank packer is installed, on which a sand bridge is installed, then hydraulic fracturing (hydraulic fracturing) is performed in the near-side part of the formation, then the sand bridge is washed and the dead packer is removed from the production casing, then lower into the production casing and set between the level of selection and the level of hydraulic fracturing, a packer with a passage channel, and above the level of hydraulic fracturing, an additional packer with a technological column is installed tubing, inside which the tubing string is lowered to hermetically interact with the packer passage channel.

The disadvantage of this method is the small coverage of the reservoir and the complexity of the implementation, which leads to low production of the oil reservoir and the economic inexpediency of such a development.

The closest, taken by the authors as a prototype, is a method of developing an oil reservoir, including interval perforation of a productive section, installing packers in the well and creating an impermeable septum in the reservoir between perforated intervals, injecting a displacing agent into one of the intervals and selecting products from another interval, when this in order to increase the efficiency of the method by increasing the coverage of the formation by displacement with an increase in the rate of oil recovery, an impermeable septum in the reservoir of elastic fluid or highly viscous in reservoir conditions, the fluid is created simultaneously with the injection of the displacing agent, and the rate of injection of elastic or highly viscous in reservoir conditions of the fluid is increased with a decrease in the content of reservoir oil in the selected product or the rate of injection of elastic or highly viscous in reservoir conditions, the fluid is reduced with an increase in the content of reservoir oil in selected products (see SU 1677273, publ. 09/15/2016).

The disadvantage of this method is the complexity and high cost of implementation, because the method involves the presence of a second packer and an additional pipe string for injecting an elastic impermeable partition between the upper and lower zones, which leads to the economic inexpediency of such a development.

The objective of the invention is to provide a method of developing an oil field containing highly viscous oil, which will be easy to implement, will allow for greater coverage of the reservoir and will be economically feasible.

The technical result consists in increasing the efficiency of developing an oil reservoir containing highly viscous oil by increasing the coverage of the reservoir while simplifying the method.

The method relates to a shallow (up to 300-400 m) occurring layers of highly viscous oil. The well-known property of hydraulic fractures is used, namely: at a shallow depth, in contrast to deep-seated rocks, during hydraulic fracturing, cracks form in the horizontal rather than the vertical plane.

To achieve the technical result, a method for developing an oil reservoir includes lowering the tubing string with a packer into the casing, uncoupling the upper and lower zones of one reservoir, perforating the upper and lower zones of the reservoir, injecting a substance that reduces the viscosity of oil into the upper zone of the reservoir along the annulus between the casing pipe and tubing and the selection of a mixture of oil and a substance that reduces the viscosity of the oil along the tubing string, while according to the invention, the perforation of the upper zone is carried out at a distance of 0.5-1 m below the roof aasta, and perforation of the lower zone - at a distance of 0.5-1 m above the bottom of the formation, while before separating the upper and lower zones in each of them form horizontal cavities by performing hydraulic fracturing of the formation.

The proposed method is as follows.

A perforator is lowered into the well cased by casing and fixed by cementing. The hammer can be of any type, for example cumulative, or sandblasting, but not limited to these examples. Perforation of the oil reservoir is carried out in the upper zone at a distance of 0.5-1 m below the roof of the reservoir and in the lower zone at a distance of 0.5-1 m above the bottom of the reservoir. Perforation equipment is removed from the well and hydraulic fracturing equipment is lowered. Gradually, in each perforated zone of the formation, hydraulic fracturing of the formation is carried out with the formation of horizontal cavities. The hydraulic fracturing equipment is removed from the well and a tubing string with a packer is lowered into the well, the upper and lower zones of the formation are disconnected. Then, a substance reducing the viscosity of the oil is injected into the upper zone of the formation (for example, steam, or produced water, or a hot coolant, or a solvent, but not limited to the above examples), through the annulus between the casing and tubing and a mixture of oil and a substance reducing oil viscosity, tubing string. The selection of oil is carried out by a mechanized method, for example, a sucker rod pump or electric submersible, but not limited to these examples. The formation of cavities in the upper and lower zones of the formation allows to increase the coverage of the formation with a substance that reduces the viscosity of oil. The selected distance of perforation from the roof and the bottom of the formation is the most optimal, since it allows to perform hydraulic fracturing and form cavities, covering the entire thickness of the formation.

Examples of the proposed method.

Example 1. A cumulative hammer drill is lowered into a well cased with casing and fixed by cementing. Perforation of the oil reservoir is carried out in the upper zone at a distance of 0.5 m below the roof of the reservoir and in the lower zone at a distance of 0.5 m above the bottom of the reservoir. Perforation equipment is removed from the well and hydraulic fracturing equipment is lowered. In each perforated zone of the formation, hydraulic fracturing of the formation is carried out step by step with the formation of horizontal cavities. The hydraulic fracturing equipment is removed from the well and a tubing string with a packer is lowered into the well, the upper and lower zones of the formation are disconnected. Then steam is injected into the upper zone of the formation along the annulus between the casing and the tubing and a mixture of oil and a substance that reduces the viscosity of the oil is selected through the tubing string. The selection of oil is carried out by a rod pump.

Example 2. In a well cased with casing and fixed by cementing, lower the sandblasting hammer. Perforation of the oil reservoir is carried out in the upper zone at a distance of 0.75 m below the roof of the reservoir and in the lower zone at a distance of 0.5 m above the bottom of the reservoir. Perforation equipment is removed from the well and hydraulic fracturing equipment is lowered. In each perforated zone of the formation, hydraulic fracturing of the formation is carried out step by step with the formation of horizontal cavities. The hydraulic fracturing equipment is removed from the well and a tubing string with a packer is lowered into the well, the upper and lower zones of the formation are disconnected. Then heated formation water is injected into the upper zone of the formation through the annulus between the casing and the tubing and a mixture of oil and a substance that reduces the viscosity of the oil is selected through the tubing string. The selection of oil is carried out by an electric submersible pump.

Example 3. In a well cased with casing and fixed by cementing, a bullet puncher is lowered. Perforation of the oil reservoir is carried out in the upper zone at a distance of 1 m below the top of the reservoir and in the lower zone at a distance of 0.5 m above the bottom of the reservoir. Perforation equipment is removed from the well and hydraulic fracturing equipment is lowered. In each perforated zone of the formation, hydraulic fracturing of the formation is carried out step by step with the formation of horizontal cavities. The hydraulic fracturing equipment is removed from the well and a tubing string with a packer is lowered into the well, the upper and lower zones of the formation are disconnected. Then hot coolant is pumped into the upper zone of the formation along the annulus between the casing and tubing and a mixture of oil and a substance that reduces the viscosity of the oil is selected through the tubing string. The selection of oil is carried out by a screw pump.

The proposed method will improve the efficiency of the development of an oil reservoir containing highly viscous oil, by increasing the coverage of the reservoir by displacement while simplifying the method.

Claims (1)

A method of producing highly viscous oil from shallow formations, which consists in lowering the tubing string with a packer into the casing, uncoupling the upper and lower zones of one formation, perforating the upper and lower zones of one formation, injecting into the upper zone of the formation a substance that reduces the viscosity of oil through the annulus between the casing string and tubing string and the selection of a mixture of oil and a substance that reduces the viscosity of the oil through the tubing string, characterized in that the perforation of the upper zone is carried out at a distance of 0.5-1 m below the top of the reservoir and perforation of the lower zone - at a distance of 0.5-1 m above the bottom of the formation, while before uncoupling the upper and lower zones in each of them form horizontal cavities by performing hydraulic fracturing of the formation.