SU926252A1 - Device for treating bottom zone of well - Google Patents

Description

The invention relates to the field of oil and gas industry, and in particular to devices for influencing the bottom hole zone of a well,

A device for processing the bottom-hole zone of the well, comprising a housing with a membrane, lowered into the well on the rope [1].

The disadvantage of this device is the reduction in the magnitude of the hydraulic shock by the back pressure of the liquid located in the well above the device, since the device descends onto the bottom of the well filled with liquid.

Also known is a device for processing the bottom-hole zone, comprising a body, a membrane and a plug installed on it [2].

However, the air in the known device, having no way out of it, creates a backpressure, reducing the amount of water hammer on the bottom of the well ² wells, which significantly reduces the efficiency— process identity.

The purpose of the invention is to increase the processing efficiency during the descent of the device on empty tubing - ⁵ bah.

The goal is achieved by. What’s in the plug is a channel connecting the cavity above the membrane with the cavity of the tubing.

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The drawing shows the proposed device, General view.

The casing includes upper 1 and lower 2 special couplings separated by a tubing string 3, which regulate ^{15 the} length of the device casing. A membrane 4 and a plug 5 with a channel 6 are installed inside the housing for connecting the cavity above the membrane 4 with an empty column. tubing pipes. The plug is made of a reagent material, for example magnesium.

- After flushing the well to the lower interval of the treated formation, the required amount of an acid solution, for example, hydrochloric acid, is poured into the well through tubing. Next, the pipe string rises, after which the proposed device is lowered on the column of empty 5 tubing. By increasing the pressure in the annulus, the membrane ruptures. In this case, the fluid fills the cavity of the body with high speed, as a result of which the implosion process takes place, and at the next moment, the fluid in the device’s body falls on the bottom of the well, creating a pressure of hydraulic shock significantly exceeding the rock pressure of overlying rocks , which contributes to the formation of a network of artificial cracks in the bottom-hole zone of the formation, while the calibrated-jq hole in the plug 5 located inside the device’s body allows fluid from the body along with troystve air to flow freely into the empty pump-compressor 25 Weeds pipe and thereby neutralize conditions gadravlicheskogo damping pin. Depending on the magnitude of the burst pressure of the membrane is possible to create hydraulic pressure removed ₃₀ pa is 2-4 times greater than the proud, · providing conditions for the formation of such cracks, which by virtue of irreversibility of rock deformation is not fully interlock under the action. _3J by rock pressure. Therefore, when fracturing using hydraulic shock pressure, there is no need to fix the cracks with sand. In a well filled with liquid, a hydraulic shock is accompanied not only by a sharp increase in pressure, but also by its subsequent pulsation for some time, significantly longer than the duration of the hydraulic shock. With a sharp increase in pressure in the well, a fluid - an acid solution, with a high pressure is pushed into the reservoir, acting as a wedge that pushes the rock. At the same time, the acid solution in the device’s body reacts with the material of the sleeve; for example, magnesium, causing its complete dissolution, which eliminates the time-consuming operation of lifting the device to the surface.

Claims (2)

The invention relates to the field of not (} tegazo-mining industry, namely, devices for affecting the well bottom zone. A device for processing the bottom zone of a well is known, which includes a housing with a membrane that is lowered into the well on a rope. 1 The disadvantage of this device is the reduction of hydraulic shock the back pressure of the fluid in the well above the device, since the device is lowered to the cable bottom of the well filled with liquid. the downhole zone, comprising a housing, a membrane and an installed plug 2. However, the air in the known device, which does not exit it, creates a counter-pressure, reducing the magnitude of the hydraulic impact on the well bottom, which significantly reduces the efficiency of the process. - an increase in the processing efficiency during the descent of the device on empty tubing pipes. The goal is achieved by the fact that the cap makes a channel connecting the cavity above the membrane with the cavity of the pump-compressor pipe b. The drawing shows (the supply unit, the general. View. The housing includes the upper 1 and lower 2 special couplings separated by a tubing string. 3 pipes regulating the length of the device. The housing has a diaphragm 4 and a plug 5 with a channel 6 for communicating the cavity above the membrane 4 with an empty tubing column. The plug is made of reagent material,: 1 as an example of magnesium. After flushing the well to the lower interval of the formation to be processed, the required number is poured into the well through the tubing. acid solution, for example hydrochloric acid. Next, the pipe string rises, after which the proposed device is lowered onto the column of empty tubing, by increasing the pressure in the annulus, the membrane is ruptured. As a result, the implosion process occurs, and at the next moment the liquid in the device's Kcqanyce collapses on the wellbore, creating a pressure of water hammer that is significantly higher than The pressure of overlying rocks, which contributes to the formation of a network of art cracks in the bottomhole formation zone, while the calibrated hole in the plug 5 located inside the device body allows fluid from the body together with the air in the device to flow freely into the empty pump- compressor tubes and thereby neutralize the depreciation conditions of a hydraulic shock. Depending on the magnitude of the rupture pressure of the membrane, it is possible to create a pressure of hydraulic shock 2-4 times higher than ropjioe, which provides conditions for the formation of such cracks which, due to the irreversibility of the process of rock deformation, do not fully close under the action of rock pressure. Therefore, when a formation is fractured using hydraulic pressure, there is no need to fix the cracks with sand. In a 9–24 well filled with fluid, a hydraulic shock is accompanied not only by a sharp rise in pressure, but also by a subsequent pulsation of it for some time, much longer than the duration of the hydraulic shock. With a sharp increase in pressure in the borehole, the liquid — an acidic solution, with a large crush, is crushed into the formation, playing the role of a wedge, pushing the rock apart. At the same time, the acidic solution in the device case reacts with the sleeve material; for example, magnesium, causing its complete dissolution, which eliminates time-consuming operation to lift the device to the surface. Claims A device for processing a well bottom zone, comprising a housing, a membrane and a plug installed above it, characterized in that, in order to increase the processing efficiency when the device is lowered on empty tubing, a hole is made in the plug that connects the cavity above the membrane with cavity tubing. Sources of information taken into account in the examination. 1. USSR author's certificate NO 369247, cl. E 21 B 43/27, 1967. 2. USSR author's certificate No. 156127, cl. E 21 B 43/27, 1962 (prototype). Y V. S