SU927919A1 - Device for cleaning the filters of operating water wells - Google Patents

Description

The invention relates to a water withdrawal operation groundwater vertical drainage areas for protection against flooding and ground water recharge system through the injection wells, and more particularly to portable radio devices regenerator ⁵ for water wells.

One of the methods for regeneration of wells for water is a chemical reagent method. To increase the efficiency of this method, the chemical reagent poured into the filter zone of the well is heated.

Known electric heater bottom-hole zone of oil wells containing a current source, a housing filled with a reagent and electrodes placed in the housing {1].

In the device, heating is carried out by an electric current passing through the electrolyte. Such a heater cannot be used to simultaneously heat and clean the filter from clogging sediments by dissolving them anode.

The closest to the proposed technical essence and the achieved effect is a device for cleaning filters from colluvial precipitation, consisting of a pulse current source, a device housing, an electrode mounted on the housing and connected to the negative pole · current source. The casing of the device with the electrode is placed in the area of the filter filled with reagent and connected through the casing to the positive pole of the current source [2].

The disadvantage of this device is that it does not allow maintaining the current density in the optimal range when using reagents of various concentrations, which reduces the efficiency of filter cleaning from clogging deposits.

The aim of the invention is to increase the efficiency of filter cleaning from clogged sediments under the conditions of using reagents of various concentrations.

927919 - 4

The goal is achieved by the fact 'potential. An electric current arises that a device for cleaning filters of water-operated wells, including a pulse current source, a device body and an electrode mounted ₅ on the body and connected to the negative pole of the current source, the body is made in the form of a pipe of non-conductive material, and the electrode is in the form of a metal a screw equipped with a screwed-on tip with a lock nut made of a non-conductive material, mainly fluoroplastic.

The device is located in the filter zone of the well filled with reagent and connected through the casing to the positive pole of the current source.

An electric current flowing between the device’s electrode and the filter to be cleaned through a chemical re-fed into the well (for example, NSW) causes an electrochemical process, which leads to anodic dissolution of _2J coagulating sediments on the filter, as well as electrolysis of the chemical, which leads to hydrogen evolution on the electrode device (cathode), forming a hydrogen shell between the electrode and the chemical reagent. Electrical discharges occur in the hydrogen shell O, which intensively generate heat to heat the environment.

The drawing shows the proposed device for cleaning filters of ³⁵ water-operated wells. ''

The device consists of an electrode 1, a τροό cable 2, a housing 3, screws 4, a tip 5 and a lock nut 6. The pulse current source includes an isolation transformer 7 and a diode rectifier. Mitel 8. The selection of electricity is carried out from a three-phase electric network voltage. 380 V and power ΙΟΙ 5 kVA. The positive pole of the pulse current source ⁴⁵ is connected to the casing 9, and the negative to the electrode 1.

The device operates as follows. ^fifty

On troo-cable 2, the device is lowered into the filter zone of the water well, into which the chemical agent is preliminarily poured (for example, HC?). * From the diode rectifier 8 to the electrode 1, ny vypolnen- ⁵⁵ as a metal screw is fed negative electric potential, and on the casing 9 - wherein the positive conductive, causing anodic dissolution kolmatirukeshih precipitation on the filter wells and leads to intensive heat generation for due to electrical discharges in the hydrogen shell released on the electrode of the device. The chemical reheated in the zone of the electrode rises up the casing 3, made in the form of a pipe made of insulating material. Hydrogen bubbles released on the electrode also contribute to the upward movement of the preheated ⁰ chemical. Bottom comes cooler layers of the chemical. Thus, the chemical is heated in the well.

The housing 3, made in the form of a pipe of non-conductive material, serves to prevent direct contact of the electrode 1 with the casing 9, and also to prevent the deposition of products of the electrochemical process in the electrode. The stability of the device depends on the current density, which should be in the range of 2-6 A / cm ^. To maintain the current density in optimal conditions for a different concentration of chemicals is a non-conductive tip 5 made of insulating material. The current density depends on the area of the working side surface of the electrode 1. Screwing or unscrewing the tip 5 along the helical surface of the electrode changes the area of the working side surface of the electrode, thereby changing the density of the electric current. Non-conductive lock nut 6 is used to fix the tip on the electrode.

The proposed design of the device will allow for efficient treatment of wells to intensify water production, which will allow to obtain a significant economic effect, about 200 thousand rubles. r year for water wells of the RSFSR.

Claims (2)

The invention relates to the operation of groundwater intakes, vertical drainage dp protected areas from underflooding and groundwater recharge system through injection wells 1, in particular to water regeneration devices. One method of regenerating a water well is the chemical method. To increase the efficiency of this method, the chemical reagent poured into the filter zone of the well is heated. A well-known electric heater in the near-wellbore zone of oil wells, containing a current source, a housing filled with a reagent, and electrodes placed in a housing tilB, the heating device has an electric current passing through the electrolyte. Such a heater cannot be used to simultaneously heat and clean the filter from clogging of sediments by anodic dissolution. The closest to the proposed on the basis of technical dryness and the achieved effect is a device for cleaning filters from clogging sediments, consisting of a source of pulsed current, a device case, an electrode mounted on the case and connected to a negative pole. current source. The case of the device with electrodes is located in the filter zone, filled with reagent and connected through a casing with a positive pole of the current source 2. The disadvantage of this device is that it does not allow to maintain the current density in the optimal range when using reagents of different concentrations, which reduces the efficiency of cleaning filters from clogging deposits. The purpose of the invention is to increase the cleaning efficiency of filters from colmatizing precipitates under conditions of primonesh reagents of various concentrations. The goal is achieved by the fact that a device for cleaning the filters of water-operated wells, an impulse current source, an instrument case and an electrode fixed to the case and connected to the negative pole of the current source, the case is made in the form of a pipe made of non-conductive material, and the electrode is in the form of a metal screw, provided with a lug with a locknut screwed onto it, made of tocapro materials, mainly fluorine formation. The device is stirred in the area of the filter well filled with reagent and connected through a casing with a positive pole of the current source. The electric current flowing between the electrode of the device and the filter to be cleaned through a chemical reagent pre-filled into the well (for example, HC8) causes an electrochemical process that leads to anodic dissolution of clogging deposits on the filter, as well as electrolysis of the chemical agent, which leads to the release of hydrogen on the electrode of the device (cathode), a hydrogen shell between the electrode and the chemical agent. Electric discharges are produced in the hydrogen shell O, intensively generating heat to heat the environment. The drawing shows the proposed device for cleaning water well filters. The device consists of an electrode 1, a tro-cable 2, a housing 3, screws 4, a tip 5 and a locknut 6. The pulse current source includes an isolation transformer 7 and a diode rectifier 8. The power is taken from a three-phase voltage network. 380 V and: with a power of 1015 kVA. The positive pole of the pulse current source is connected to the casing 9, and the negative pole is connected to the electrode 1. The device operates as follows. On the cable-cable 2, the device is lowered into the zone of the water intake filter, into which chemical reagent is pre-poured (for example, HC2). From the diode rectifier 8 to the electrode 1, made in the form of a metal screw, serves a negative electric potential, and the casing 9 is positive potential. The electric current arising in this case causes anodic dissolution of the colmatous sediments on the filter of the well and leads to intense heat generation due to electrical discharges in the hydrogen shell, releasing on the device electrode. The chemical agent, yci, expanded in the electrode zone, straps upward along the body 3, which is made in the form of a tube of insulating material. Hydrogen bubbles released at the electrode also contribute to the upward movement of the heated chemical agent. From below come colder chemical layers. Thus, the chemical is heated in the well. The housing 3, made in the form of a tube of non-conductive material, serves to prevent direct contact of the electrode 1 with the casing 9, as well as to prevent the deposition of products of the electrochemical process in the electrode. The stability of the device operation depends on the current density, which should be in the range of 2-6 A / cm. To maintain the current flow rate in optimal conditions for different concentrations of chemicals, a nonconductive tip 5 is used, made of an insulating material. The current density depends on the area of the working side surface of the electrode 1. The screwed or unscrewing tip 5 along the screw surface of the electrode changes from the area of the working side surface of the electrode, thereby changing the density of the electric current. The non-conducting lock nut 6 serves to fix the tip on the electrode. The proposed design of the device will allow effective well treatment to intensify the production of water, which will allow to obtain a significant economic effect, about 2OO thousand rubles. This is the year of water intake wells of the RSFSR. Claim 1. Device for cleaning filters of operated wells for water, including a source of pulsed current, a device case and an electrode mounted on a housing and connected to the negative pole of a current source, characterized in that, in order to increase the efficiency of cleaning filters from clogging sediments conditions of use of reagents of various concentrations