RU2195546C1 - Method of isolating flushed zones in oil formation - Google Patents

Abstract

FIELD: oil-gas producing industry, particularly, methods of isolation of high-permeability water-saturated interlayers in oil formation; applicable in producing and injection wells in workover. SUBSTANCE: method includes injection into well of preventing fluid, cross-linking agent and water inflow shutoff. Preventing fluid is used in the form of mixture of oil with emultal. Cross-linking agent used in the form of solution of oil with polyacrylamide. Water inflow is shutoff by successive injection of oil-cement slurry and water-swelling polymer. After holding for allowing cement setting, excessive pressure is built-up in well. EFFECT: increased oil production and formation oil recovery due to higher quality and efficiency of water shutoff jobs. 1 tbl, 1 ex

Description

 The invention relates to the oil and gas industry, in particular to methods for isolating highly permeable water-saturated interlayers in the oil reservoir, and can be used in production and injection wells for overhaul.

 A known method of isolating the influx of water into the well (A. p. 1506076, class E 21 B 33/13, 1989), which provides for the sequential shutdown of the oil-saturated part of the formation by injecting concentrated sulfuric acid into the formation, determining the profile of water inflow, injecting insulating material into the formation and perforating casing in the zone of lack of water inflow after curing of the insulating material.

 The main disadvantages of the method include the low efficiency of disconnecting the oil-saturated part of the formation from the water-saturated due to the uncontrolled flow of a larger volume of sulfuric acid into the water-saturated part of the formation and its dilution by the supply of produced water. This will weaken the interaction of dilute sulfuric acid with oil and the effectiveness of blocking the oil-saturated part of the reservoir with tar.

 Another well-known method (A.S. 1728469, E 21 B 33/13, 1992) for the selective isolation of highly permeable formation intervals involves injecting a suspension of a water-soluble polymer in an inert hydrocarbon fluid into the well and pumping it into the formation. Moreover, a cross-linking agent is additionally introduced into the suspension in granular or powder form, and the displacement is carried out with water in a volume of 40-100% of the initial volume of an inert hydrocarbon liquid.

 The main disadvantages of the method include the uncontrollability of the physicochemical processes of forming a clogging screen — dissolution of the crosslinking agent and swelling of the polymer particles in the first stage by crosslinking them into a strong, highly concentrated gel in the future. As a result, the quality and efficiency of the selective isolation of highly permeable intervals are reduced.

 The closest in technical essence and the achieved result to the proposed method of washed zones in the oil reservoir (A.S. 1657609, class E 21 B 33/13, 1991), which provides for the injection into the well of a preservative fluid, a structurant and isolation of water inflow.

 The main disadvantages of the method include the low efficiency of protecting the oil-saturated zone of the formation from contamination with a buffer hydrophilic oil-emulsion composition due to the significant variability of the reservoir properties of the oil and water-saturated parts of the reservoir and the uncontrolled processes of the physicochemical selective insulating effect on permeable media in unsteady hydrodynamic conditions of the well system - n layers. "

 The aim of the invention is to increase oil production and oil recovery by improving the quality and effectiveness of waterproofing works.

 A positive technical effect in the method of isolating washed zones in an oil reservoir, including injecting a preservative fluid into the well, a structuring agent and isolating water inflow, a mixture of oil with emulsion is used as a preserving fluid, an oil solution with polyacrylamide (PAA) is used as a structuring agent, and the inflow is insulated sequential injection of oil-cement mortar and water-swelling polymer, and after waiting for the hardening of the cement in the well create excessive pressure.

When sequentially injected into the isolated interval of a productive formation, it prevents pollution of the oil-saturated part of the oil in a mixture with 1% enamel, which leads to temporary blockage due to the increase in viscosity in permeable channels, then mixed with PAA oil at a rate of 100-200 kg / m ³ . This mixture, entering the system of permeable channels, forms a gel and increases the hydraulic resistance when moving liquids in them. After injecting the separation buffer from the oil, the oil-cement solution is pumped into the washed area to form a hardening impermeable screen in the remote zone of the washed and large medium open channels, and a water-swelling polymer (GNP) is pumped into the bottomhole zone at a rate of 100-200 kg / m ³ to form gel and again pump the buffer separator from the oil.

 After completion of the technological shutdown for 72 hours, for the isolation systems to react under reservoir conditions and the oil cement cement hardening, GNP under an overpressure of 4-10 MPa is forced from the bottomhole zone to the remote one to block the washed channels that are not filled with cement.

 An example of a specific application of the method for injection wells. 29332 Zelenogorsk area NGDU "Aznakaevskneft" JSC "Tatneft".

The washed zone of the oil-saturated horizon D1 in the interval 1750-1760 m was subjected to waterproofing after preparatory work to clean and wash the perforation interval. When implementing the method, the following are pumped into the reservoir:
1 serving
Buffer separator
Composition: oil, volume 2 m ³
2 serving
Emulsified oil
Composition: oil with an emulsion of 1 vol.%, Volume 3.5 m ³
3 serving
PAA polymer oil
Composition: oil with dissolved PAA at the rate of 100-200 kg / m ³ , volume 3 m ³
4 serving
Buffer separator
Composition: oil, volume 1 m ³
5 serving
Oil cement mortar
Composition: Portland cement grouted with oil at a density of 1780 kg / m ³ , volume 4.5 m ³ .

6 serving
Water swellable polymer (GNP)
Composition: granular polymer at the rate of 100-200 kg / m ² . Volume 3 m ³ .

7 serving
Buffer separator
Composition: oil, volume 1 m ³ .

 After squeezing out the water-insulating and buffer solutions, the well in a sealed state is left for a technological sludge for 72 hours. Then, the GNP that has reacted in the well is pushed from the bottomhole into the remote zone of the water-saturated formation to block the filtration channels of uninsulated cement with an excess pressure of 9.0 MPa.

As the results of the insulating work showed, the initial injectivity of the washed zone was reduced from 1.74 to 0.55 • 10 ^-2 m ³ / s MPa, i.e. 3.6 times, which indicates the effective alignment of the profile of the inflow of the producing well.

 Technical appraisal and economic advantages of the proposed method consist in increasing the efficiency of indicators of water insulation works by two times or more with a simultaneous reduction in their production costs of material, technical, financial means and time.

 The table shows the indicators of commercial application of the technology of waterproofing the washed areas.

 From the data in the table it follows that, in comparison with the serial (traditionally used) technology, the new one provides an increase in oil production by 1.55 times, specific efficiency of capital investments by 1.93 times, while reducing material consumption by 2.5-5.0 times, costs time of 2 times or more, a decrease in the water cut of the extracted products by 7-15% and the duration of the effect achieved for 1.5-3.0 years.

 According to the proposed technology, waterproofing works of the washed zones in production wells can be carried out. The greatest technical and economic effect is achieved when this technology implements waterproofing in injection and producing wells that react with it.

Claims (1)

 A method of isolating washed zones in an oil reservoir, including injecting a preservative fluid into the well, a structuring agent and isolating water inflow, characterized in that a mixture of oil with emulsifier is used as a preserving fluid, an oil solution with polyacrylamide (PAA) is used as a structuring agent, and the inflow is insulated sequential injection of oil-cement mortar and water-swelling polymer, and after waiting for the hardening of the cement in the well create excessive pressure.

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