SU977735A1 - Method for thermal and reagent treatment of wells - Google Patents

Description

The invention relates to the operation of groundwater intakes, in particular, to methods for restoring the productivity of wells.

The known method of regenerating wells for water by pumping into the filter zone a solution containing sodium polyphosphates and sodium hydrosulfate with heating to 60-70 C.

The disadvantage of the known method is the relatively low dissolving ability of sodium bisulfate solution, which is about 40% of the dissolving capacity of hydrochloric acid.

There is also known a method of thermoreagent treatment of a well, which includes sealing the well with a packer and pumping into it an aqueous solution of hydrochloric acid 12.

The disadvantage of this method is the complexity of the technology, since after injection additional operations are necessary - heating the reagent solution by any method (heating elements, heat exchangers, etc.) and pushing it into the filter zone (compressed air).

The purpose of the invention is to increase the efficiency of thermo-post processing and simplify its technology.

The goal is achieved by the method of thermoreagent treatment of wells, including sealing a well with a packer and pumping an aqueous solution of hydrochloric acid hydrazine into it, before injection into the well, hydrogen peroxide in an amount of 100120 g is injected into the solution. and potassium dichromate in the amount of 30-50 g per 1 l of solution is introduced into it, and the reciprocating movement in the bottomhole zone is reported to the solution by periodical release of pressure from under the packer cavity.

The drawing shows a wellbinding scheme for carrying out the proposed method.

A sealing device 2 is installed on a reagent line 3 equipped with a pipe 4 with a valve 5 for supplying the reagent and a pipe 6 with a valve 7 for depressurizing the well at the static water level in the string of casing 1 or at the wellhead. A filter 8 is installed by a level sensor 9 connected by a cable 10 with an equalizer 11 and in the filter a temperature sensor 12 connected by a cable 13 to a measuring device 14. A reagent line 3 is connected by a pipe 4 to a filling container 15.

The pre-propagation method is carried out as follows.

In the priming tank 15, a solution of hydrazine hydrochloric acid is prepared, the calculated amount of hydrogen peroxide is introduced into it and fed with the valve 5 open and valve 7 closed along the reagent 3, into the filter8 wells. Perhaps / also the preparation of the solution directly in the wellbore. Then, according to the reagent line 3, the estimated amount of potassium dichromate is injected into the filter and the valve 7 is closed. During the resulting reaction, the hydrazine solution is heated to 70-85 ° C, which is monitored by the measuring device 14 by means of the sensor 12. Gases are collected under the sealing device 2 and the heated solution is pushed down by the contour of the filter 1 into the kolmat zone. The pressure under the sealing device 2 is monitored by m4 16. When the liquid level is crushed below the level sensor, controlled by the level gauge 11, the valve 7 is opened and depressurized, and the reaction products through line 6. When recovering the liquid level in the wellbore returns to the static position from the solution zakolmatirovannoy profiltrovoy zone in the well filter / valve 7 is closed and the solution zadavlivani operation was repeated.

With a decrease in gas evolution and a drop in the temperature of the solution, it is possible to feed an additional 8 pg into the filter to the reagent wire 3 of an additional amount of hydrochloric acid hydrazine with hydrogen peroxide and potassium bichromate.

The end time of treatment of the well is controlled by any known method, for example, by stabilizing the time it takes for the fluid level to recover in the wellbore when pressure is released. After the treatment is completed, the processing equipment is dismantled, the water-lifting equipment is mounted and the well is pumped until the reaction products and the solution components are completely removed.

When the solution of hydrazine of hydrochloric acid 2HCl and hydrogen peroxide H – Oj is not decomposed, hydrogen peroxide solutions are stable in an acidic medium. Additive has two

Purpose: Chromium ions, acting as a catalyst, contribute to the decomposition of hydrogen peroxide, which releases heat, and also oxidizes hydrazine to N, thereby providing an intensive release of gaseous nitrogen.

In general, the reaction equation has the form

NaH. 2NS). + H 0 + k, c g O- - + CrCI, + + docca

However, it should be noted that the oxidation of hydrazine to N is accompanied by side reactions, as a result of which, depending on the concentration of reagents and the presence of impurities (soluble clogging, etc., other, in particular, complex compounds may be formed that do not significantly affect process t well treatment.,

Thus, during thermoreagent treatment, the role of the basic solvent of the colmatant is performed by hydrazine SOLY ACID and the products of the interaction of the components of the solution, having an acid reaction. Hydrogen peroxide acts as an energy carrier, and potassium bichromate is the initiator of the reaction and provides gas release.

Example 1. Sediment samples taken from the pre-filter zones of various wells and containing up to 70% iron oxides are treated with an aqueous solution of 10% hydrochloric acid hydrazine with j susceptible method:) m in conditions of evolutionary dissolution at the peroxide concentration hydrogen 100 g / l and the concentration of potassium dichromate 30 g / l. The degree of dissolution of iron compounds, defined as the ratio of the amount of dissolved iron to its total amount in the sample, is 0.70 for the known method and 0.80 for the proposed

PRI m e p .2. Processing similar samples are the same as in example 1 but at a concentration of hydrogen peroxide of 100 g / l and potassium dichromate 40 g / l. The degree of dissolution is 0.72 for a known method and O -81 for the proposed

Example 3. Processing of similar samples is carried out in the same way as in examples 1 and 2, but with a hydrogen peroxide concentration of 120 g / l and Kali bichromate 50 g / l. The degree of dissolution is 0.70 for the known method and 0.85 for the one proposed.

The proposed method in comparison with the known (assuming that the prototype coincides with the basic object;) increases the regeneration efficiency by

Claims (1)

The claims Ir.O. ! ""> •• / zwzwh '' · '' ¹ A method of thermo-reagent treatment of wells, including sealing the well with a packer and pumping an aqueous solution of hydrazine hydrochloric acid into it, characterized in that, in order to increase the efficiency of the thermo-reagent treatment and simplify the technology of its implementation, hydrogen peroxide is added to the solution in the amount 100 ^ 120 g per 1 liter of solution, and then the well is sealed and potassium dichromate is introduced into it in an amount of 30-50 g of 1 liter of solution, and the solution is reciprocated in the bottom-hole zone by periodically Skog bleed out from under the packer palos-