SU1657615A1 - Compound for selective insulation of gas inflow - Google Patents

Abstract

The invention relates to the oil industry. The goal is to increase the gas insulating ability of the composition. It contains components in a ratio, wt.%: Water 99,0-99.75; Milonaph 0.25-1.00. The latter is dissolved in water, then the solution is pumped into the oil well. The permeability of the oil reservoir decreases in gas by 27.5 times. for oil by 16-18%, oil recovery increases and gas consumption decreases by 2.5-3.0 times. 2 tab.

Description

The invention relates to methods for selectively isolating gas inflows into oil wells and can be used in the oil industry.

The purpose of the invention is to increase the gas insulating ability of the composition.

The composition for selectively isolating the gas inflows contains water and the additive — myloneft in the following ratio, wt.%:

Voda99.0-99.75

Mylonoft 0.25-1.00

The effectiveness of the composition is determined under laboratory conditions by monitoring and comparing changes in the gas and oil permeability of artificial non-cemented models of quartz sand of fraction d 0.25 mm before and after treatment with their composition for selective isolation. Models have a porosity of 25%, length 106 cm, diameter 21 mm. The pore volume of the model is 105 cm3.

Filtration through a porous medium at a constant pressure drop (0.5 atm) of gas and oil determines its gas and oil permeability,

In the subsequent series of experiments, the compositions are pumped into the exit zone of the formation model for selective isolation in a volume of 0.1 pore volume. The system is then maintained for 18 hours and the gas and oil permeability of the porous medium is again determined.

Oil is used as the hydrocarbon fluid.

In assessing the gas permeability, a gas of the following composition is used, wt.%: Methane93

Ethane2,7

Propane0.9

Pentane0.8

Remaining2,8

Baseline data and the results of the experiments are given in table.1.

As can be seen from the data table. 1, after processing a porous medium with a solution of myelofta, its permeability to gas decreases in

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27.5 times. The most effective gas isolation is observed at a 0.5% concentration of myelofta in an aqueous solution. Under identical conditions, other compositions for selectively isolating gas inflows also reduce the permeability of the porous medium in gas, but to a lesser extent by 7.2 times (23% tar and 77% of reservoir oil) and 22.4 times (ionomer L -50 / 2.0).

The change in oil permeability is insignificant and does not exceed 16–18%.

A reduction in the content of the myolaph less than 0.25% is impractical, since in this case the ability of the composition to isolate gas inflows is small. An increase in the concentration above 1.00% is impractical from both an economic and technical point of view.

Thus, the composition for selective isolation creates a screen that is not permeable for gas in the wellbore zone of a production well, virtually preventing the formation oil from being filtered through it, which makes it possible to increase the rate of oil displacement from the formation due to the rational use of elastic energy of gas.

This has been tested in laboratory conditions — by displacing oil by gas from models of the described porous medium.

In experiments, the models are pre-saturated (95-100 cm3) with oil, which is replaced by natural gas. The displacement is carried out at a constant pressure differential between the inlet and outlet of the model of 0.5 atm until the exit model of the gas without oil.

The first experiment. Oil is displaced by gas without the use of gas inflows.

The second experiment. After gas breakthrough, its supply to the model input is stopped, an insulating solution of tar in oil is pumped into the output zone of the model in an amount equal to 0.1 of the pore volume of the model. The system is held for 18 hours and then the gas supply to the model input is resumed.

The third experiment. The process of the second experiment is repeated, with the difference that after a gas breakthrough into the exit zone

Ionomer-L is pumped into the model with a degree of hydrolysis of 50 and a number of budatientrol units of 2.0,

The fourth experiment. Gas inflow isolation is carried out with a 0.5% aqueous solution of myelofta.

These experiments were carried out on a porous medium with a permeability of 1.6 μm2.

Fifth experiment. The conditions of the first experiment are completely repeated, i.e. oil is pushed into the gas without creating a gas barrier.

The sixth experiment. The conditions of the fourth experiment are reproduced, i.e. oil is displaced by gas before it breaks through at the exit of the model. Then the gas supply is stopped. In the exit zone of the model, a 0.5% aqueous solution of myelofta is pumped in an amount of 0.1 of the pore volume of the model.

The fifth and sixth experiments were carried out on a porous medium with a much lower permeability of 0.55 μm2.

After the system has been shut down for 18 hours, the gas is resumed at the inlet of the model and the displacement is carried out until a model of gas without oil is obtained at the outlet.

The source data and the results of the experiments are given in table 2,

The use of the composition for the selective isolation of gas inflows allows the oil to be displaced by gas to 0.62 (in a porous medium with a permeability of 1.6 µm) and to 0.48 (and a porous medium with a permeability of 0.55 µm2).

Compared to the displacement of oil by gas without isolating gas inflows, the use of the proposed composition for selective isolation makes it possible to increase oil recovery by 21-34% (depending on the permeability of the porous medium) while reducing the gas flow by 2.5 - 3 times.

Claims (1)

Invention Formula A composition for selectively isolating gas inflows, including water and an additive, characterized in that, in order to increase the gas insulating capacity, it contains, as an additive, myelonft in the following ratio, wt.%: Mylonoft 0.25-1.00 Voda99,00-99.75 Table 1 table 2