RU2199654C2 - Process of development of flooded inhomogeneous oil pool versions) - Google Patents

Abstract

FIELD: oil production. SUBSTANCE: process specifically refers to methods of development of flooded inhomogeneous oil pool by water flooding from fractured-porous terrigenous and carbonate deposits, non-uniform by geological feature. Technical result of invention lies in establishment of high- efficiency, ecologically clean processes of development of flooded oil pool making it feasible to employ in active development poorly drained, low penetrable zones of pool thanks to overlap of fractures and highly penetrable zones of pool to facilitate increase of recovery of reservoir oil from pool. Process of development of flooded inhomogeneous oil pool includes successive pumping into pool through injection well of insulating agent and water fringe. Water slurry of wood dust-waste of process of veneer polishing is used as insulating agent. Water slurry of wood dust is pumped in portions, each portion of insulating agent is forced by water fringe. Ratio of volumes of insulating agent and water fringe is 1250 (dry):(8-12). According to another variant process of development of flooded inhomogeneous oil pool includes alternating pumping of water suspension of dispersive particles and clay suspension through injection well, recovery of product from production well. Wood dust-waste of process of veneer polishing is used in the capacity of dispersive particles. EFFECT: establishment of high-efficiency, ecologically clean process of development of flooded inhomogeneous oil pool. 2 cl, 1 tbl

Description

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

 A known method of isolating absorption in an injection well, including the injection through an injection well of an aqueous suspension of wood flour 0.15-0.35% concentration during the swelling time of wood flour in water under reservoir conditions (see RF patent 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.

 There is a method of developing a watered heterogeneous oil reservoir, including the injection into the reservoir of an aqueous suspension of wood flour (see RF patent 2043494, MKI E 21 V 43/32, 1995) - a prototype for the first embodiment.

 The use of an aqueous suspension of wood flour is not effective enough, has low success and requires large injection volumes in the development of pore-fractured-cavernous reservoirs. The prototype for the second option is a method of developing a watered heterogeneous oil reservoir, including the injection of aqueous suspensions of insulating agents of wood flour and clay sequentially or simultaneously or the injection of an aqueous suspension of wood flour and clay (see RF patent 2116439, MKI E 21 V 43/22, publ. 1998).

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

 The present invention is based on the task of creating highly efficient environmentally friendly methods for developing an irrigated heterogeneous oil reservoir, which, due to overlapping fractures and highly permeable zones of the reservoir, enable low draining low-permeability zones of the reservoir to be actively developed, contributing to an increase in the extraction of oil reserves from the reservoir.

 The problem posed by the invention is solved in such a way that in the method of developing an irrigated heterogeneous oil reservoir, which includes sequential injection of an insulating agent (IA) and an aqueous rim (BO) through an injection well, an aqueous suspension of wood dust is used as an insulating agent, a waste of the process of grinding plywood, moreover, the injection of an aqueous suspension of wood dust is carried out in portions, pushing each portion of the insulating agent with a water rim, while the ratio of the volumes used and the gelling agent and the water rim is 1250 (dry): (8-12), respectively, and in the second variant of the problem to be solved, in a method for developing an irrigated heterogeneous oil formation, which includes sequentially alternating injection of an aqueous suspension of dispersed particles and a clay suspension into the formation through an injection well and selection of products through production wells, wood dust is used as dispersed particles - a waste of the process of grinding plywood.

 Wood dust - a waste of the process of grinding plywood has not been used previously in oil production processes and is a polydisperse material of a fibrous structure (TU 2458-001-12972180-99). The presence in a given quantity of almost all fractions in the waste from the smallest to 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 to increase oil recovery layers. When waterborne suspension of wood dust is injected into the formation through injection wells, it enters the cracks and highly permeable flooded zones of the formation, and, moving along it, the particles of wood dust gradually overlap the cracks and highly permeable zones of the formation. 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, wood dust and clay particles is injected due to the additional interaction of wood dust particles, clay particles with the surface of pores and cracks, an insulating system more resistant to erosion is formed, which sharply increases the filtration resistance of highly permeable intervals and leads to a redistribution of filtration flows with connection to active development of weakly drained and not affected by the zones of the reservoir.

 To implement the claimed method take clay powder according to OST 39-202-86, TU 39-043-74.

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

 A new set of claimed essential features allows to obtain a new technical result, namely to create a highly efficient method using a cheap environmentally friendly reagent - production waste.

 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 of developing a water-flooded heterogeneous oil formation using wood dust, wood dust and clay powder under field conditions is as follows.

An aqueous suspension of wood dust is pumped into an injection well or a sequentially alternating injection of an aqueous suspension of wood dust and clay suspension is performed. The amount and concentration of injected reagents are calculated based on the injectivity of the well and the thickness of the formation. Depending on the reaction of the well, 1-6 cycles of reagent injection are performed. After injection of aqueous suspensions of the reagents, water is injected in a volume of 8-12 m ³ - water rim. An aqueous suspension of wood dust use 0.1-1.2% concentration, and clay - 3.0-8.0% concentration. When implementing the method according to p. 1, an insulating agent and a water rim are used, the total volume of which is taken in an amount and ratio equal to 1250 (dry) :( 8-12), respectively. Depending on the reaction of the well, the number of agent injection cycles is determined and the injected agent volumes are distributed according to the number of cycles. We give an example of the implementation of the claimed invention in a particular area, represented by one injection well and five producing wells with different water cuts from 81 to 99% and oil production up to 4 tons / day.

In the injection well, one portion of a 0.2% suspension of wood dust was pumped in an amount of 1.25 tons (in terms of dry weight), which will require the use of a water rim in an amount of 12 m ³ , and the ratio to the insulating agent will be 625: 12. The injectivity of the well was 540 m ³ / day before treatment, and 288 m ³ / day after treatment. At a pressure of 120 atm, thus the pick-up coefficient decreased by 80%. An additional 3195 tons of oil were produced.

Проницаемость модели определяют сразу после начала закачки воды и через 24 часа после набухания древесной пыли и глинопорошка. Рассчитывают остаточный сопротивления.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 15 cm long 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 rate is first determined, then the linear filtration rate and the permeability of the reservoir model by water are calculated before treatment, Kn and after treatment with reagents of various concentrations, Kk, and also the residual resistance factor by the formula

The permeability of the model is determined immediately after the start of water injection and 24 hours after the swelling of wood dust and clay powder. Residual resistance is calculated.

 Example 1

A 0.1% aqueous suspension of wood dust and water rim in an amount of 8 m ^{3 is} sequentially injected into the reservoir model in one cycle at a ratio of IA and BO of 104: 8, respectively. As a result of the injection of an aqueous suspension of wood dust, the permeability of the model will be 1.12.

 Examples 2-5 are carried out analogously to example 1, determining by the reaction of the well the required number of sequential injection cycles in the claimed ratio of IA and BO.

 Example 6

A 0.3% aqueous suspension of wood dust is subsequently pumped into the reservoir model, followed by an 8.0% clay suspension. The permeability of the reservoir model decreased from 6.4 μm ² to 1.75 μm ² . The residual resistance factor was 3.65.

 Example 7

A 0.5% aqueous suspension of wood dust and a 3% clay suspension are sequentially pumped into the formation model. The specified cycle is repeated 5 times. As a result of the injection of reagents, the permeability of the model decreased from 7.2 μm ² to 1.8 μm ² . The residual resistance factor was 3.93.

 Example 8

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.

 Example 9 (prototype).

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 1.01.

 The test results are shown in the table.

 According to the table, it can be seen that the sequential injection of an aqueous suspension of wood dust and water rim or after the injection of an aqueous suspension of wood dust of a clay suspension into fractured-pore reservoirs leads to the formation of a clogging flow-deflecting system in them, which makes it possible to limit the filterability of water during the development of an oil deposit.

The present invention has the following technical and economic advantages:
- increased efficiency due to the permeability of highly watered zones of the reservoir,
- reduced water content of the extracted products,
- expanding the scope due to the possibility of using the present invention in reservoirs with a temperature of more than 90 ^o With any mineralization of formation water,
- due to the use of natural materials, there is no harmful effect on the environmental situation in the area of use,
- the developed technology allows you to utilize large-tonnage production waste.

Claims (2)

 1. A method of developing a flooded heterogeneous oil reservoir, comprising sequentially injecting an insulating agent and a water rim into the reservoir through an injection well, characterized in that an aqueous suspension of wood dust is used as an insulating agent, a waste from the process of grinding plywood, and the aqueous suspension of wood dust is pumped in portions pushing each portion of the insulating agent with a water rim, wherein the ratio of the volumes of the insulating agent used and the water rim with leaves 1250 (dry) :( 8-12), respectively.  2. A method of developing an irrigated heterogeneous oil reservoir, including sequentially alternating injection of an aqueous suspension of dispersed particles and a clay suspension through an injection well, the selection of products from a production well, characterized in that wood dust is used as dispersed particles - a waste of the process of grinding plywood.

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