SU1654554A1 - Compound for increasing oil recovery - Google Patents

Abstract

The invention relates to the oil industry. The purpose of the invention is to increase the reservoir coverage by water flooding by reducing water permeability and an increase in oil. The composition contains the following components with their ratio, wt.%: Aluminum nitrate or aluminum chloride (in terms of anhydrous) 2.8-17.0; carbamide 5.0-30.0; water remaining Composition is prepared by dissolving the components in water in any sequence. The composition reduces the immobility of water in water- and oil-saturated zones by 4-35 times 2 tabl

Description

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The invention relates to the oil industry and can be used to enhance oil recovery by reservoir flooding during primary and secondary formation effects.

The aim of the invention is to increase the reservoir coverage by reducing water permeability and increasing oil permeability.

For this purpose, chloride or aluminum nitrate and, in addition, urea are added to the composition containing the aluminum salt and water as aluminum salts in the following ratio, wt.%:

Nitrate or aluminum chloride (in terms of anhydrous) 2.8-17.0 Urea5.0-30.0

WaterEverything

The formulation is prepared by dissolving the components in water in any order.

The essence of the method is the use of urea in combination with aluminum salts. Urea hydrolyzing in the reservoir, under the influence of the temperature of the reservoir, forms ammonia and carbon dioxide, thereby creating an alkaline environment, where aluminum salts form gels that reduce the mobility of the water and increase the mobility of the oil in the water and oil saturated areas of the reservoir.

The concentration of the aluminum and carbamide salts is in the range of 2.8-17.0 wt.%. With a concentration of more than 17 May. % does not completely dissolve the components (example 9). At concentrations less than 2.8 May. % reduction in water mobility and increase in oil mobility are at the level of a known composition (examples 1 and 8).

In the indicated composition range, the gel time is determined by the temperature indicated in Table. one

AT

hl

SP

.N

Since at a temperature below 60 ° C the gelation time is long, the composition should be used for formations with a temperature of more than 60 ° C.

Composition tested in laboratory conditions.

As a porous medium, cylindrical samples were used for imiktovskoy rocks collectors with a range of absolute permeability of 0.07 - 0.53 μm. Samples are extracted with an alcohol-benzene mixture in a Soxhlet apparatus, dried and saturated in vacuum with oil or formation water. The viscosity model of oil is used, consisting of degassed natural oil, in which 30% kerosene is added. The viscosity of the oil produced is 6.22 mPa-s.

The sample, saturated with oil or water, is placed in a centrifuge cup with a given composition and centrifuged at 90 ° C for 15 minutes. The control sample is centrifuged with formation water. Then, the test sample is placed in a tube with the given composition, the control sample is held with formation water and thermostatic at 90 ° C for 2 days, since under these conditions the gel is formed during the day. Then the samples are placed in the core holder of the filtration unit UIPK-1M, where, in the hydrodynamic mode, the mobility K /// for water and oil is determined. Filtration of liquids through the samples is carried out at a constant flow rate and at temperatures of 90 and 20 ° C. The fluid flow rate is measured for a certain time at a predetermined pressure drop L P.

The mobility is calculated by the formula

J-jn

where I is the length of the core sample, cm;

S is the area of the core section, cm;

1033 - conversion factor.

Example 1 (for known composition). 0.1 anhydrous aluminum sulphate is dissolved in 99.9 g of produced water, resulting in a composition containing 0.1% of 99.9% water. The resulting composition is tested on core material saturated with water.

Example 2 (for known composition). A formulation is prepared containing 0.1% anhydrous aluminum sulfate and 99.9% water. The obtained composition was tested on oil-saturated core material as in Example 1.

Example 3. 30.0 g of crystalline (7.0 anhydrous) aluminum nitrate and 30.0 g of urea are dissolved in 40.0 g of produced water. Get a composition containing 7.0

aluminum nitrate. 30% urea and 53% water. The resulting composition was tested on a water-saturated core sample, as indicated in the method. Filtration was carried out at 90 and 20 ° C (table). Since the mobility of water

at 90 and 20 ° C almost the same, in the future, filtration is carried out at 20 ° C ..

Examples 4-10. The formulation and testing are carried out in a similar manner.

example 3.

Examples 11 and 12 correspond to experiments on different core samples with similar permeability. These examples show the reproducibility of fluid mobility.

Examples 13-25 show the results of using aluminum chloride and nitrate in the limiting and transcendental concentrations. When the concentration of one of

no components below the lower limit gel is formed. The upper limit is limited by the solubility of aluminum chloride.

Data mobility of water and oil when filtering through the core after processing

proposed and known compositions are given in table 2.

Thus, the composition reduces the mobility of water in the water- and oil-saturated data of samples of reservoir rocks in

4-35 times, while the mobility of the oil exceeds the mobility of water or is at the same level, while the known composition reduces the mobility of water in water- and oil-saturated samples by only two

Time

Claims (1)

Claims for enhanced oil recovery, containing aluminum salts and udine. This is so that, in order to increase the reservoir coverage by reducing water permeability and increasing oil permeability, as the aluminum salts, the composition contains aluminum chloride or nitrate and additionally contains urea in the following ratio of components, wt.%: Nitrate or aluminum chloride (in terms of anhydrous) 2.8-17.0 Urea5.0-30.0 WaterEverything . ivest Table 1 Table 2 Poll4,42, P 0,50,5 60 j 10.50.3 I .7 0.5 20 A, 00.3 90 10.60.9 20 4.21.9 Complete construction of the component, stngletgp, paciBop with gld 20 20 Z.V 0.2 T.Z. HeitiTb 201,30,1.0 I, 5 Vola9,7 Oil 5.4 0.3 0.4 4.4 3.4