RU2442886C1 - Method for intensifying hydrocarbon flow - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: The invention relates to oil and gas industry and can be used at incompetent beds, prone to caving, to intensify the gas and oil flow and to increase their production in horizontal bores. The method includes drilling of the horizontal well, installation of the shank into the said well, perforation and formation of cracks with hydraulic fracturing of the formation. A discharging test is carried out before the hydraulic fracturing of the formation. After the test temperature logging is carried out and its results are used to detect points of formation fracturing. Then the shank is perforated in the said points. After that the hydraulic fracturing of the formation is performed, whereas the non-cemented shank, positioned in the horizontal well section, is covered with a filter screen.

EFFECT: increased oil and gas production factor.

2 cl

Description

The invention relates to the field of oil and gas industry and can be used in unstable formations, prone to shedding, to intensify the influx of oil and gas and increase their production in horizontal wells.

A known method of intensifying the influx of deep hydrocarbon fluids (patent RU 2278955, Cl. ЕВВ 43/00, ЕВВ 43/16, Е21В 43/27, 2006), including perforation, formation of cracks using hydraulic fracturing, laying horizontal wells. In the known method, the production of oil or gas from the field is carried out on the basis of production and injection wells, and work is provided to increase productivity, including hydraulic fracturing. The use of hydraulic fracturing makes it possible to intensify the inflow and to obtain sufficiently large oil and gas production rates.

The disadvantage of this method is the creation of a large interval of perforation, the upper mark of which is determined using optimization calculations. In unstable formations prone to shedding, shedding of rock in such a perforation interval leads to a decrease in well productivity.

The closest in technical essence and the achieved effect to the claimed is a method of operating a hydrocarbon reservoir (patent RU No. 2366805, CL. ЕВВ 43/16, Е21В 43/26, 2009), including laying a horizontal well, placing a liner in it, perforation, formation of cracks using hydraulic fracturing. The use of cracks in a horizontal well makes it possible to reach the oil-gas-saturated part of rocks and to obtain high oil and gas rates.

The known method is ineffective when used in unstable formations, prone to shedding. So, hydraulic fracturing occurs in one or several places along the horizontal part of the well, where the stress in the rock is minimal, since pressure is applied throughout the entire horizontal part of the wellbore. This necessitates perforation of the entire length of the horizontal part of the well. When using the known method in unstable formations, prone to shedding, in places of multiple perforation, shedding of rock in the shank occurs, which leads to a decrease in well productivity.

The objective of the invention is to provide increased oil and gas recovery from unstable reservoirs, prone to shedding.

The solution to this problem is achieved by the fact that in the method of intensifying the influx of hydrocarbons, including laying a horizontal well, placing a liner in it, perforating, forming cracks using hydraulic fracturing, an injection test is carried out before hydraulic fracturing, after which thermometry is carried out and according to its results fracture points are determined, then a shank is perforated at these points, after which hydraulic fracturing is performed. At the same time, the cementless liner located in the horizontal part of the well is covered with a mesh filter.

The method is implemented as follows.

After drilling is completed, a cementless liner coated with a strainer is placed in a horizontal section of the well. If necessary, stimulate the well into the well lower the tubing with a packer. In this case, the packer is installed in a vertical section of the well. After that, the temperature sensor is placed on the hard cable in the well and the background thermal logging is recorded throughout the horizontal part of the well. Then carry out an injection test (mini-hydraulic fracturing) in a volume equal to the volume of the column, with a liquid whose temperature is lower than the temperature of the formation, and with a pressure exceeding the pressure of the fracturing. Then again conduct thermometry along the entire horizontal part of the well. According to the results of thermometry, the results of background thermal logging and thermal logging after injection test are compared and the places of formation fracturing and formation of a hydraulic crack are determined by the points of lowering the temperature compared to the background one. After that, the tubing with the packer is lifted and the perforation charges are lowered into the horizontal part of the well. In the identified places of formation of hydraulic fractures, a mesh filter is perforated. Then again lower the tubing with the packer. In this case, the packer is installed in the vertical section of the well. After that, the operation of hydraulic fracturing. Then proppant residues that are not included in the fracture after completion of hydraulic fracturing are washed out.

When carrying out work in this sequence, perforation channels in the filter mesh are formed only in the places of hydraulic fracturing, which allows the proppant to freely penetrate into the reservoir. In this case, the rest of the horizontal wellbore remains non-perforated, which prevents sand from shedding in the horizontal part of the well.

This method of intensifying the flow of hydrocarbons allows the well to operate without additional perforation and without hydraulic fracturing until the oil production rate for the well is economically viable, and stimulation of the well can be carried out with a decrease in production rate. Moreover, when implementing the inventive method, the inflow after hydraulic fracturing will be carried out both from fractures and from the rest of the horizontal part of the well, which will increase oil and gas production rates.

Thus, the claimed method of intensifying the influx of hydrocarbons provides an increase in the current oil recovery and high oil and gas production rates in unstable formations, prone to shedding, at low labor costs and cost of work.

Claims (2)

1. A method of intensifying the flow of hydrocarbons, including laying a horizontal well, placing a liner in it, perforating, forming cracks using hydraulic fracturing, characterized in that an injection test is carried out before hydraulic fracturing, after which thermometry is carried out and the points are determined by its results fracturing, then at these points the shank is perforated, after which hydraulic fracturing is performed. 2. The method according to claim 1, characterized in that the cemented liner located in the horizontal part of the well is covered with a mesh filter.