SU800180A1 - Composition for treatment of wells - Google Patents

Description

The invention relates to the construction of wells for water, in particular, to solutions for the development of wells for water using chemical reagents. A known aqueous solution for destruction of a filter cake on wellheads at high temperatures and pressures, containing 1.05.0 wt.% Aluminum sulphate A, (5%), 1. The disadvantage of this solution is its low efficiency under conditions existing in wells for water (pressure 3-10 atm, temperature). An aqueous solution is also known that is suitable for the development of wells for water containing 0.2-3.0 wt.% Aluminum chloride AfCf, r2j. The disadvantage is the low processing efficiency due to the exchange mechanism of the process of interaction of the solution with clay particles. The magnitude of the swelling of clay samples in a solution containing 0.5-1.0% And EC 1-1, compared with pure water, decreases by 10 time. The purpose of the invention is to increase the splitting properties of the composition. The goal is achieved by the fact that the composition is supplemented; 1no contains hydrazine hydrochloric acid in the following ratio of components, wt.%: Aluminum chloride 0.5-3.0 Hydrazine hydrochloric acid8, 0-10.0 Water Remaining The well completion solution is prepared as follows in a way. The estimated amount of aluminum chloride is first dissolved in a certain amount of water, and then the required amount of hydrazine hydrochloride is added in small portions with stirring. The solution can be prepared both in the reservoir and directly in the wellbore. In the solution containing saline hydrazine, the clay samples not only do not swell, but are completely destroyed. The effectiveness of the solution and the optimality of the recommended concentrations of reagent are illustrated below.

Example. An aqueous solution is prepared containing 8.0% hydrochloric acid hydrazine and 0.5% aluminum chloride. Spherical samples of Na-bentonite clay (with a diameter of 20-22 mm, weight - 9.5-11 g, humidity 30-50%) are processed with the first solution. The time of complete disintegration of the samples is recorded. The average time of complete destruction (according to 5 experiments) was lQi; 0.5 min.

PRI mme R 2. Similarly, the experiment is carried out with a content of 10% hydrazine in hydrochloric acid and 3.0% aluminum chloride in a solution. The average time of complete destruction was 10 ± 0.6 min.

Example 3. In a similar way, the experiment is carried out with a content of 9% hydrazine hydrochloric acid and 1.0% aluminum chloride in the solution. The average time of complete destruction was 9.8 ± 0.4 min.

A decrease in the concentration of hydrazine hydrochloric acid in solution leads to an increase in the time of destruction of the samples; while increasing the concentration of hydrazine hydrochloric acid in solution from 10 to 20%, the time of destruction of the sample does not decrease and is also about 10 minutes, i.e.

an increase in the concentration of hydrochloric acid more than 10% is impractical.

To simulate the process of mastering the sample of filters, the clogged 5% bentonite mud powder solution (solution parameters: conditional viscosity s, water loss 15 CMV30 min, density 1.04 g / cm) were treated with aluminum chloride solution (10 wt%) and proposed (10% hydrochloric acid hydrazine and 1.5% aluminum chloride).

Before and after clogging, as well as after treatment with reagent solutions, the filtration coefficient of the filter was determined.

The results of the experiments are presented in the table.

0 The data obtained indicate that the use of the composition allows to restore the permeability of the kolmat filter to almost the initial one. The effectiveness of the proposed solution, estimated by an increase in the filtration coefficient after the filter is treated with a solution, is 3.7–8.0 times higher than that of a known solution.

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Claims (1)

SP 78001 Claims of the Invention Composition for well treatment in the development of water containing chlorine aluminum and water, which is so that, in order to reduce the decomposition of the properties of the composition, it additionally contains hydrazine with the following ratio of components, wt.% ; 808 Aluminum chloride 0.5-3.0 Hydrazine sulfate 8.0-10.0 Water Else Sources of information taken into account in the examination 5 i USSR Author's Certificate 414403, cl. E 21 to 21/00, 1970. 2, Patent of Germany No. 2149794, cl. 5a 43/22, published in 1974. ".,.,., .. “.. .: H: Vi