SU1019063A1 - Arrangement for heat- and agent-treating of wells - Google Patents

Abstract

A WELLS HEAT-TREATMENT DEVICE, including a sealing unit, a cylindrical reagent supply container, equipped with a cone-shaped seat at the bottom, a compressed air supply pipe, a floating ball valve and a perforated partition, characterized in that, in order to increase the efficiency of well treatment through an intrinsic partition, characterized in that, in order to increase the efficiency of well treatment through an attenuated baffle, in order to increase the efficiency of well treatment through an attenuating barrier, in order to increase the efficiency of well treatment through an attenuating barrier, in order to increase the efficiency of well treatment through an attenuating barrier, in order to increase the efficiency of well treatment through an attenuating barrier. dissolving clogging sediments by streams of heated reagent, it is equipped with a glass made of semipermeable material, installed coaxially in cylindrical container tokoneprovod pipe of conductive material, placed inside the glass, the electrode heaters installed at the lower portion between the conductive pipe and netokoprovod glass and cabling. SO about and with

Description

The invention relates to the operation of groundwater intakes, vertical drainage to protect the area from underflooding and the groundwater recharge system and can be used in the regeneration of a water well.

One of the most effective, theoretically and experimentally sound methods for generating wells for water is the chemical reagent method.

The essence of the method consists in dissolving colmatage deposits with reagents neutralizers or complexing agents. To intensify the dissolution mechanism, the most significant factor is the excitation of the reversal flows of the heated reagent in the pore channels of the tributary zone.

A device for cleaning the filters of water operated wells is known, which is a downhole electrode heater, the principle of operation of which is as follows. A negative potential is applied to the electrode of the device, and a positive tube is applied to the filter tube. As a result, electrolysis occurs, which leads to the release of Joule heat and accumulation of the acid component of the reagent in the near-filter zone and alkaline in the cathode zone. Intensification of the dissolution mechanism occurs due to heat and anodic processes 1.

However, the device does not excite the reversal flows of the heated reagent in the filter zone, which predetermines the incomplete cleaning of the pore spaces, and therefore reduces the efficiency of the treatment as a whole.

Closest to the present invention is a device for reagent treatment of a well, including a sealing unit, a tubular container for supplying the reagent, equipped with a cone seat in the lower part, a pipe for supplying compressed air, a floating ball valve and a perforated partition. The principle of the device is based on the creation in the pore channels of the filter zone reversible flows of the reagent, with periodic extrusion of air from the tubular container 2 with its air.

The disadvantage of the device is that its work does not use the most significant factor intensifying the dissolution mechanism, heat.

The aim of the invention is to increase the efficiency of well treatment by intensifying the process of dissolving clogging sediments by streams of heated reagent.

This goal is achieved in that a device for reagent treatment of a well, including a sealing assembly.

a cylindrical reagent supply container equipped with a cone seat in the lower part, a compressed air supply pipe, a floating ball valve and a perforated partition wall, equipped with a cup of semipermeable material installed coaxially in the cylindrical container, with a nonconducting nozzle placed inside the glass with electrode heaters installed in the lower part between the non-conducting branch pipe and cable wiring.

The drawing shows the proposed device for thermoagent treatment of wells.

The device contains a cylindrical container for supplying reagent 1, a conical saddle 2, a floating ball valve 3, a perforated partition 4, a pipe for supplying compressed air 5, a cup 6 of semipermeable material, a non-conducting pipe 7 for removing the alkaline component of the reagent, electrode heaters 8, cable wiring 9, tubing 10, sealing device 11.

The device works as follows.

On tubing pipes 10, the device is lowered into the treated zone of the water intake filter where the reagent solution has been previously prepared. On the electrodes of the electrode heaters 8 serves negative potentials from a three-phase industrial power grid. The casing column serves as a natural zero. The resulting electrical current and electrolysis of the reagent will lead to an intensive release of Joule heat and accumulation of the acid component from the outer wall of the glass and the alkaline component from the inner wall. When the required temperature is reached in the inner cavity of the container, the heated reagent with the solution reduced by electrolysis is squeezed out by compressed air, which flows through the pipes 5, into the filtered filter zone. The alkaline solution constituent rises upward at the wellhead through tubing pipes. The floating ball valve 3 prevents air from escaping into the filter zone, because after emptying the container it sits in the cone seat 2. After a certain period of time, the pressure of the compressed air in the container is released, then the well fluid will tend to fill the empty internal cavity of the container 1. the so-called implosion effect.

Periodic repetition of the heating cycles of the reagent and squeezing it out of the container, U19063,

four

nera leads to a constant movement the complete dissolution of clogging

heated reagent in the treated compounds and restoration of the operating area of the filter, which provides practical indicators of water wells.

Claims (1)

DEVICE FOR THERMAL REAGENT TREATMENT OF WELLS, including a sealing unit, a cylindrical container for supplying reagent, equipped with a conical seat at the bottom, a pipe for supplying compressed air, a floating ball valve and a perforated baffle, characterized in that, in order to increase the efficiency of well treatment by intensification of the process of dissolving mudding deposits by flows of a heated reagent, it is equipped with a glass of semipermeable material mounted coaxially in a cylindrical contour unerer, a pipe of non-conductive material placed inside the glass, electrode heaters installed in the lower part between the non-conductive pipe and the glass and cable wiring.