SU1030538A1 - Method for completing wells - Google Patents

Abstract

. 1. WAY OF DEVELOPMENT WELLS, including intermittent. pumping fluid from the well by an airlift, characterized in that, in order to increase the efficiency of the development process by creating a deeper depression to the formation, the annular space in the area of the productive formation is sealed, and the process is intermittent from the pumping of air and the well. 2. A method according to claim 1, characterized in that the pumped-out fluid flow is blocked at a frequency from 0 to 2 Hz. vvpveesvrv F - "" - J- Ulochiyotaet

Description

11 The invention relates to {technology for the development of wells for water and other most important minerals, and specifically to the development of free-flowing wells to be strong;. rocks. , There is a method of preparing wells to. The operation involves flushing the well before installing the filter, and before flushing the well is filled with water to the mouth. After full oo. The lines of the water coming out of the well by the compressor into the well but the pipes are supplied with compressed air. Regulating the depth of air inlet, flushing is performed before the termination of sand and sludge termination. This method of well development requires a large amount of time for flushing with a constant circulation of anomalous amount of water. In addition, the formation is flushed in a steady state with a constant flow rate. The energy of the pumped out flow is insufficient for the effective stratification and degeneration of the reservoir. This technology is applicable only for the development of wells drilled in loose rocks. At the development of the wells drilled in the bedrock, this method is inefficient. The well known method is also mastered well, which includes the pumping of fluid from the well by the G2 airlift. . The disadvantage of this method is the periodic short-term cessation of pumping, which in itself is not an effective way of influencing the products of formation clogging. Colma products, such as sludge particles in cracks in an aquifer, are often not: single; in the wedged state and for their advancement into the borehole, it is necessary to free from the spell also, which is possible only with repeated hydrodynamic shock-sludge impact on particles with a certain frequency. A brief cessation of pumping does not fulfill this function, since stopping pumping is a smooth recovery of the level. The aim of the invention is to increase the efficiency of the development process by creating a deeper depresi on the formation. This goal is achieved by the fact that according to the method of well development, which includes intermittent pumping of fluid from the well by an airlift, the annular 38 space in the area of the reservoir is sealed, and the process is interrupted by the air flow into the well. In addition, the pumped flow liquid. bones overlap with a frequency of 0 to 2 Hz. Fig, 1 shows a diagram of the installation of airlift; in fig. 2 - 3aKpHtoe flap position; in fig. 3 - open position I of the valve: The method is carried out as follows. Water-lifting pipes 1 with a packer 2 is installed in the zone of the productive formation. On the pump-compressor bam 3 serves air. At the exit of the airlift set the tee 4 and the valve 5 with the drive (zhanizm b control the valve). Opening the valve 5, connect the compressor and start pumping. The pumped liquid from the well is sent to the lifting pipes, mixed with air and lifted to the surface. Without shutting down the compressor, the shutter 5 closes the outlet, due to which the lifting of the pumped liquid abruptly stops and causes a hydraulic shock in the filter zone. In the following analysis, the fluid in the pipes 1 below the pump-compressor pipes 3, with the pressure G of the forced air, starts to flow downward. Packer 2 provides sealing, all the fluid is injected into the reservoir and cause movement (rearrangement, formation, etc.) of particles, destroy the bonds between them, ensure the removal of the smallest of them and the mud from the filter zone. Open the valve and start the normal pumping. The frequency of blocking the airlift and. The duration of the pulses is chosen such that they provide the highest content of mechanical impurities in the pumped liquid .. This, in its RON & Roob, allows to obtain a large-porous medium in the filter zone, to develop wells with good quality and high production rates. It is possible to close and open the damper manually or with the aid of a mecanic actuator, including according to a given program. FIG. 1, the solid arrows show the direction of fluid movement when the airlift operates in the normal mode, the dotted lines indicate the fluid movement during injection injection.

Frequency, the highest effwkT | eavis1gg from a number of factors that mainly flow on the one hand from the well-known formula of the depth of penetration of sludge into the cracks of the aquifer, and on the other hand are related to the well depth, the velocity of the shock wave in the fluid, the resonant frequency of oscillation of the frequency and etc.

In the example of a specific method, the most effective method is the overlap frequency of 0.1-0.2 Hz. For other conditions, according to calculations and experience, the frequency of finding is within the range of O, Gu

The proposed method of mastering oi differs from the well-known fact that, when pumping an airlift, the annular spaces in the water-lifting column are sealed below the dynamic level, then air is injected into the well, and the flow of liquid evacuated from the well is blocked from 0 | O2 to 1 Hz

5 The proposed method allows one to artificially influence the clay and the distribution of the water intake part in wells with stable walls. Simplifies technology and technology for

0 its implementation. Increases the well water flux (specific units, bits) in comparison with the applied technology by 200-240%. The durability of the wells also decreases. The economic effect is associated with an increase in the operation of water intake. wells, estimated at 3j 5-4, rub. ny one well that across the country gives the possibility of obtaining

0; economic effect, measured in millions of rubles.,

Figure 2

Open Fig.Z

Claims (2)

. 1. WAY OF DEVELOPMENT OF WELLS, including intermittent pumping of fluid from the well by airlift, characterized in that, in order to increase the efficiency of the development process by creating a deeper depression on the formation, the annular space in the zone of the productive formation is sealed, and the process of intermittent from pumping fluid is carried out at continuous air supply to the well. 2. The way pr π. 1, characterized in that the pumped fluid flow is blocked with a frequency of from 0.2 to 1 Hz. Ft1