RU2175384C1 - Method of development of water-encroached nonuniform oil formations (versions) - Google Patents

Abstract

FIELD: oil producing industry, particularly, methods of development of water-encroached nonuniform in geological structure fractured-porous formations of terrigenous and carbonate deposits by water-flooding. SUBSTANCE: method includes injection of aqueous suspension of wood flour through injection well and product withdrawal from producing well. In so doing, additionally injected is aqueous suspension of wood dust - waste of plywood polishing. Aqueous suspensions of wood flour and wood dust are injected successively or simultaneously. Method includes successive-alternating injection through injection well of aqueous suspension of wood flour and clay suspension and withdrawal of product from producing well. EFFECT: highly efficiency of method due to active development of slightly-drained low-permeability zone of formation by closing fractures and high permeability zones of formation to facilitate increasing of recovery of oil reserves from pool. 4 cl, 1 tbl, 7 ex

Description

 The invention relates to the oil industry, in particular to methods for developing an irrigated heterogeneous oil reservoir by flooding of terrigenous and carbonate deposits that are heterogeneous in the geological structure of fractured-pore formations.

 A known method of isolating absorption zones in an injection well, including pumping through an injection well an aqueous suspension of wood flour 0.15-0.35% concentration during the swelling time of wood flour in water under formation conditions (see RF patent N 2089716, MKI E 21 V 38/138, publ. 1997).

 This method is not effective enough in fractured-pore reservoirs due to the high consumption of reagent for creating a water-insulating screen and its rapid erosion by pumped water.

 A known method for the development of heterogeneous flooded oil reservoirs, involving the injection into the reservoir of an aqueous suspension of a filler of a plastic and clay suspension (see RF patent N 2143548, MKI E 21 B 43/32, publ. 1999).

 The disadvantage of this method is its lack of effectiveness in fractured-pore-cavernous reservoirs due to erosion of the resulting insulating material by injected water.

 The closest in technical essence and the achieved effect is a method of developing an irrigated heterogeneous oil reservoir, including the injection of aqueous suspensions of wood flour and clay sequentially or simultaneously, or the injection of an aqueous suspension of wood flour and clay (see RF patent N 2116439, MKI E 21 B 43/22 publ. 1998).

 However, the known method has low efficiency due to the impossibility of completely blocking the water-washed cracks and super-permeable zones of the formation.

 The basis of the present invention is the task: to create a highly efficient method for developing an irrigated heterogeneous oil reservoir, which allows, through overlapping fractures and highly permeable zones of the reservoir, to include in the active development weakly drained low-permeability zones of the reservoir, contributing to an increase in the extraction of oil reserves from the reservoir.

 The problem is solved by creating a method for developing an irrigated heterogeneous oil reservoir, including injecting an aqueous suspension of wood flour into the reservoir through an injection well and extracting products from a producing well, and additionally injecting an aqueous suspension of wood dust - a waste of the plywood grinding process, also by creating a method for developing an irrigated inhomogeneous wood oil reservoir, including sequentially alternating injection into the reservoir through the injection well of an aqueous suspension of wood meat flour and clay slurry, the selection of products from the production well, wherein the aqueous suspension additionally pumped wood dust - waste veneer grinding process.

 In preferred embodiments of the methods, aqueous suspensions of wood flour and wood dust are pumped sequentially or simultaneously.

 Wood dust - a waste of the plywood grinding process is a product of mechanical wood chopping and is a polydisperse material of the fibrous structure TU 2458-001-12972180-99. The presence in a given quantity of almost all fractions in the waste from the smallest to the largest and comparable to the pore and crack sizes of the oil reservoir, their ability to disperse in water and filter at certain speeds in the form of a stream with longitudinally oriented particles allows the use of wood dust as a reagent for enhanced oil recovery. When water suspension of wood dust is injected into the formation through injection wells, it enters into cracks and, moving along it, wood dust particles swell and increase in volume. As a result of this and due to the forces of physical interaction with each other due to the fibrous structure of wood dust particles with the surface of the cracks in the formation, the cracks and highly permeable zones of the formation gradually overlap. As a result, the flow of water into these fractures and highly permeable zones of the formation is reduced or completely stopped.

 When an aqueous suspension of wood dust is injected together or separately with an aqueous suspension of wood flour, as well as with a clay suspension due to the additional interaction of particles of wood flour, particles of wood dust and clay particles with the surface of pores and cracks in the formation, an insulating system that is more resistant to erosion is formed, sharply increasing filtration resistance of highly permeable intervals and leading to the distribution of filtration flows with the inclusion in the active development of weakly drained and not covered Corollary formation zones.

 To implement the claimed method take wood flour - a product of dry wood chopping according to GOST 16381-87, clay powder according to OST 39-202-86, TU 39-043-74.

 Due to the long time that wood dust and wood flour swell in water (14-16 hours), it is possible to predict a system that is resistant to erosion with high structural, mechanical and filtration characteristics in any zone of the formation.

 Wood dust does not undergo degradation, does not have biocidal properties, is environmentally friendly and its production is based on the use of resource-provided material. The technology of using wood dust is effective at any mineralization and temperature of formation water.

 A new set of claimed essential features allows to obtain a new technical result, namely to create an effective way to develop a water-filled heterogeneous oil reservoir.

 An analysis of the known solutions selected in the search process showed that in science and technology there is no object that has the claimed combination of features, which allows us to conclude that the claimed object meets the criteria of "novelty" and "inventive step".

 A method for developing an irrigated heterogeneous oil reservoir using wood dust, wood flour and clay powder under commercial conditions is as follows.

A complex of geophysical surveys is carried out at a selected site of a reservoir heterogeneous in permeability, having injection and production wells hydrodynamically interconnected. The water cut of producing wells is 81-99%. In the injection wells, water suspensions of wood dust and wood flour are sequentially or simultaneously injected, and then, in embodiments of the method, a clay suspension is also pumped. The injection of aqueous suspensions of wood dust and wood flour is carried out at a mass ratio of wood dust and wood flour (1-10): (10-1). The amount and concentration of injected reagents is calculated based on the injectivity of the formation. Produce 1-6 cycles of injection of reagents. After pumping aqueous suspensions, water is injected in a volume of 3-10 m ³ . An aqueous suspension of wood dust is prepared in 0.1-1.2% concentration, wood flour in 0.2-1.0% concentration, and clay in 3.0-8.0% concentration.

 We give an example of the application of the claimed invention in a particular area represented by one injection well and five producing wells with an oil production rate of 0.1-4.9 tons / day and a water cut of over 70%.

500 m ^{3 of a} 0.4% aqueous suspension of wood dust and 300 m ^{3 of a} 0.5% aqueous suspension of wood flour were sequentially pumped into the injection well. The injectivity of the well was 334 m ³ / day at a pressure of 95 atm before treatment, and 250 m ³ / day at a pressure of 125 atm after treatment. After 4 months, an additional 286 tons of oil were produced. The effect continues.

 To prove the conformity of the claimed inventions to the criterion of "industrial use", we give specific examples to determine the effectiveness of the use of wood dust, wood flour and clay in methods for developing an irrigated heterogeneous oil reservoir.

The effectiveness of the use of aqueous suspensions is determined by the residual resistance factor created by the injection of aqueous suspensions into the reservoir model. The model is a glass tube with a surface section of 5.7 cm ² filled with quartz sand with a fractional composition of 1.8 mm. During the experiments, the volumetric velocity is first determined, then the linear filtration rate and the permeability of the reservoir model by water are calculated before treatment.

Проницаемость модели определяют сразу после начала закачки воды и после набухания древесной пыли, древесной муки и глинопорошка. Рассчитывают остаточный фактор сопротивления. Результаты исследований приведены в таблице.K _H and after treatment with reagents of various concentrations - K _k , as well as the residual resistance factor according to the formula

The permeability of the model is determined immediately after the start of water injection and after the swelling of wood dust, wood flour and clay powder. The residual resistance factor is calculated. The research results are shown in the table.

 Example 1

A 0.5% aqueous suspension of wood flour and a 0.2% aqueous suspension of wood dust are simultaneously pumped into the reservoir model. As a result of injection of aqueous suspensions, the permeability of the reservoir model decreased from 18.0 μm ² to 5.1 μm ² . The residual resistance factor was 3.50 (see table, example 1).

 Example 2

A 0.2% aqueous suspension of wood flour and a 0.4% aqueous suspension of wood dust are sequentially pumped into the formation model. As a result of the injection of suspensions, the permeability of the reservoir model decreased from 17.3 μm ² to 4.6 μm ² . The residual resistance factor was 3.75 (see table, example 2).

 Example 3 is performed analogously to example 2.

 Example 4

 A 0.2% aqueous suspension of wood dust and a 0.3% aqueous suspension of wood flour are subsequently pumped into the formation model, followed by a 5.0% clay suspension. As a result of the injection of aqueous suspensions, the permeability of the reservoir model decreased from 22.5 μm to 5.5 μm. The residual resistance factor was 4.12 (see table, example 4).

 Example 5

A 0.4% aqueous suspension of wood flour and a 0.5% aqueous suspension of wood dust are simultaneously pumped into the reservoir model, followed by a 3.0% clay suspension. The specified cycle is repeated 5 times. As a result of the injection of reagents, the permeability of the reservoir model decreased from 21.8 μm ² to 4.8 μm ² . The residual resistance factor was 4.56 (see table, example 5).

 Example 6

At the same time, a 0.4% aqueous suspension of wood flour is pumped into the reservoir model. The permeability of the reservoir model decreased from 6.3 μm ² to 6.0 μm ² . The residual resistance factor was 1.05 (see table, example 6).

 Example 7

At the same time, a 0.2% aqueous suspension of wood flour and a 4.0% clay suspension are pumped into the reservoir model. The permeability of the reservoir model decreased from 7.5 μm ² to 7.4 μm ² . The residual resistance factor was 1.0 (see table., Example 7).

 According to the table, it can be seen that the injection of an aqueous suspension of wood dust separately, sequentially or simultaneously with an aqueous suspension of wood flour and with a clay suspension into fractured-pore collectors leads to the formation of a clogging flow-deflecting system in them, which makes it possible to limit the filterability of the injected water.

The present invention has the following technical and economic advantages:
- increases efficiency by reducing the injectivity of highly permeable zones of the reservoir;
- reduced water cut of extracted products;
- expanding the scope due to the possibility of using the invention in collectors with a temperature of more than 90 ^o C and for any mineralization;
- due to the use of natural materials, there is no harmful effect on the environmental situation in the area of use.

Claims (4)

 1. A method of developing an irrigated heterogeneous oil reservoir, comprising injecting an aqueous suspension of wood flour into the formation through an injection well and extracting products from the producing well, characterized in that the aqueous suspension of wood dust is further pumped out of the process of grinding plywood.  2. The method according to claim 1, characterized in that the aqueous suspension of wood flour and wood dust is pumped sequentially or simultaneously.  3. A method of developing a water-flooded multiple oil reservoir, including sequentially alternating injection of an aqueous suspension of wood flour and clay slurry through an injection well, the selection of products from a production well, characterized in that the aqueous suspension of wood dust is further pumped out of the process of grinding plywood.  4. The method according to claim 3, characterized in that the aqueous suspension of wood flour and wood dust is pumped sequentially or simultaneously.

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