RU2579093C1 - Method for repeated hydraulic fracturing - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to oil industry and can be used in developing oil deposit. Method of repeated hydraulic fracturing is characterized by the fact that pumping of fracturing fluid at technology and conditions according to the first hydraulic fracturing of formation in it at the stage of adding cross-linking agent is added in amount of 1-2 l per 1 m³ of fracturing fluid mixture containing, vol%: 10-27 % hydrochloric acid 15-25, methylene-phosphoric acid 55-65, water 15-25.

EFFECT: technical result is increased efficiency.

1 cl, 5 ex

Description

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

A known method of improving the hydrodynamic connection of a well with a reservoir, including acid hydraulic fracturing (or hydraulic fracturing) by installing a packer over the roof of a perforated reservoir, injecting frac fluid into the sub-packer zone, creating hydraulic fracture pressure in the sub-packer zone and squeezing fluid into the resulting fluid fracture hydraulic fracturing. After acid fracturing, repeated fracturing is performed in two stages. At the first stage, the crack formed as a result of acid fracturing is fixed by injection of hydraulic fracturing fluid with proppant in an estimated amount sufficient to change the horizontal stresses in the carbonate formation and to ensure the perpendicular direction of the second fracture formed during the second stage of acid fracturing relative to the first fracture. After the first stage of repeated hydraulic fracturing, the well is poured into the spout through the fittings in an increasing sequence of their diameters. At the first stage of hydraulic fracturing, a gel is used as a hydraulic fracturing fluid, and at the second stage, an acid composition is used (RF patent No. 2462590, publ. 09/27/2012).

Closest to the proposed invention in technical essence is a method of developing an oil and gas reservoir using hydraulic fracturing, which includes conducting the first stage of hydraulic fracturing in all production wells. At the same time, using geophysical methods based on registration of microseismic vibrations, as well as on registration by downhole dipsticks, changes in the dip angle of the formations that occur during hydraulic fracturing, determine the direction of the development of hydraulic fractures in azimuth. When production wells decrease below 10% of the initial values, hydraulic fracturing is carried out in all injection wells, and immediately after hydraulic fracturing in injection wells, the formation is treated with high pressure to increase injectivity. If the production rates of production wells fall by more than 50% from the initial values, they perform repeated hydraulic fracturing (RF patent No. 2496001, publ. 10/20/2013 - prototype).

A common disadvantage of the known methods is the low efficiency of repeated (secondary) hydraulic fracturing.

The proposed invention solves the problem of increasing the effectiveness of repeated hydraulic fracturing.

The problem is solved in that in the method of re-fracture when pumping the fracturing fluid technology and modes according to the first hydraulic fracturing it on the step of adding crosslinker is added in an amount of 1-2 l per 1 m ³ of the fracturing fluid mixture containing about. %: 10-27% hydrochloric acid 15-25, methylene phosphoric acid 55-65, water 15-25.

SUMMARY OF THE INVENTION

When developing an oil field, the production rate and injectivity of wells are inevitably reduced. One of the most effective ways to increase well productivity is hydraulic fracturing. However, even after hydraulic fracturing, the decline in well productivity continues. One of the reasons for the decline in well productivity is the salts formed during operation, which clog the fracture. With a decrease in productivity, repeated hydraulic fracturing is carried out in the same wells and in the same intervals of the productive formations. However, the effectiveness of repeated hydraulic fracturing is not high due to the intense mud formation by salts. The proposed invention solves the problem of increasing the efficiency of repeated hydraulic fracturing by slowing down the process of scaling in the fracture. The problem is solved as follows.

During repeated hydraulic fracturing, the fracturing fluid is injected with the addition of a scale inhibitor predominantly at the stage of adding the crosslinker, as a mixture of a 10-27% solution of hydrochloric acid (by volume), methylene phosphoric acid and water at a ratio of 20:60 : 20% (by volume), respectively. The mixture is injected at a concentration of 1-2 l per 1 m ^{3 of} fracturing fluid.

All these solutions slow down the process of salt formation and cracking, which ultimately increases the duration of the treatment effect.

Concrete example

Example 1 (prototype). An oil reservoir with a producing reservoir Do is being developed in the range of 1663.5-1672.5 m.

Selected reservoir products are taken through production wells and a working agent is pumped - waste and fresh water through various injection wells.

Intensify the operation of an oil well. The well was put into operation with an initial flow rate of 7 m ³ / day. and a water cut of 60%. Lithology of objects: D1o layer - sandstone (absolute permeability 340 mD, porosity 18.6%, clay 1.0%).

Well and running equipment design: production string with a diameter of 146 mm is tight.

Primary fracturing.

The fluid flow rate to hydraulic fracturing is 7 m ³ / day. The oil flow rate is 2.4 tons / day. The hydraulic fracturing was carried out with the injection of 11000 kg of proppant (20/40 mesh fraction - 3000 kg, 16/30 mesh - 5000 kg, 12/18 mesh fraction - 3000 kg), fracturing fluids 77 m ³ , final concentration 700 kg / m ³ .

According to the results of processing the results of recording the wellhead pressures of the hydraulic fracturing, the following data were obtained: fixed crack length (one wing) - 84.8 m; the height of the crack created - 11.08 m, fixed - 7.3 m. The width of the crack after relieving pressure in the reservoir is 1.9 mm, the maximum crack width at the perforation intervals of 6.8 mm; crack conductivity 568.5 mD / m. According to the results of hydraulic fracturing, an average daily increase in oil of 9 tons / day was obtained.

During operation, after the first hydraulic fracturing, a sharp decrease in flow rate occurred within 1 year. Oil production rate decreased from 9 tons / day. (after the first hydraulic fracturing) up to 0.5 t / day.

Repeated hydraulic fracturing according to technology and modes in accordance with the first hydraulic fracturing. After repeated hydraulic fracturing, the well flow rate was restored, but after 10 months it decreased from 9 t / day. up to 0.6 t / day.

Example 2. Perform as example 1.

Perform primary fracturing. After reducing the flow rate to 0.5 t / day. operate repeated fracturing, wherein when pumping fracturing fluids at the step of adding a crosslinker to the fluid gap in its volume of 70 m ³ is added in a proportion of 1 m at its ³ 1 liter (i.e., in the volume of 0.07 m ³⁾ of a mixture comprising about . %: 27% hydrochloric acid 15, methylene phosphoric acid 60 and water 25.

Example 3. Perform as example 2.

Perform primary fracturing. After reducing the flow rate to 0.5 t / day. perform repeated hydraulic fracturing. When the re-fracturing when pumping fracturing fluids at the addition step stapler therein with its volume of 70 m ³ is added in a proportion of 1 m at its ³ 1.5 l (i.e. in the volume 0.105 m ³⁾ mixture containing about. %: 10% hydrochloric acid 25, methylene phosphoric acid 60 and water 15.

Example 4. Perform as example 2.

Perform primary fracturing. After reducing the flow rate to 0.5 t / day. perform repeated hydraulic fracturing. When the re-pumping fracturing fluids at the gap in the step of adding to it the stapler in its volume of 70 m ³ is added in a proportion of 1 m at its ³ 1 liter (i.e., in the volume of 0.07 m ³⁾ mixture containing about. %: 10% hydrochloric acid 25, methylene phosphoric acid 55 and water 20.

Example 5. Perform as example 2.

Perform primary fracturing. After reducing the flow rate to 0.5 t / day. perform repeated hydraulic fracturing. When the re-fracturing when pumping fracturing fluids at the step of adding a crosslinker to it during its volume of 80 m ³ is added in a proportion of 1 m at its ³ 2 L (i.e., volume 0.160 m ³⁾ mixture containing about. %: 25% hydrochloric acid 20, methylene phosphoric acid 65 and water 15.

In examples 2-5, the oil production rate after repeated hydraulic fracturing was 9 tons / day. and remains at this level for 3 years.

In all examples, a polysaccharide according to TU 2499-072-17197708-2003-PPG-3, the manufacturer of Petrokhim CJSC, was used as a gelling agent, and a borate stapler BS-1 TU 2499-069-17197708-2003, manufactured by CJSC Petrokhim, was used as a gelling agent .

The claimed method ensures the preservation of the flow rate of the well for 3 years, while in the well of the prototype the flow rate after 1 year is reduced by 50% due to the mudding of hydraulic fractures by scaling.

Thus, the proposed method allows to increase the efficiency of hydraulic fracturing.

Claims (1)

A method of repeated hydraulic fracturing, characterized in that when pumping the fracturing fluid according to the technology and modes in accordance with the first hydraulic fracturing of the reservoir, a mixture containing, vol.%, Is added in an amount of 1-2 l per 1 m ^{3 of} fracturing fluid at the stage of adding the crosslinker : 10-27% hydrochloric acid 15-25, methylene phosphoric acid 55-65, water 15-25.