SU1268680A1 - Method of treating sealed water well - Google Patents

Abstract

The invention relates to the operation of groundwater intakes, and specifically to methods for treating a sealed well to water. The aim of the invention is to increase the permeability of the filter zone and reduce the processing time. In the well equipped with filter 1, pipelines 2 and 3 are placed, each of which is equipped on the surface with sequentially arranged control valves 4, 5 and check valves 6 and 7 connected to control device 8. Pipeline 3 is connected to rasserochnoy tank 9. And pipe 2 is connected to the storage tank 10 and connected to the pump 11 connected by pipe 12 to the feed tank 9. At the wellhead is installed sealing device 13. After each pressure in the filter block the flow of fluid supplied to the filter, and create a pulse i of reduced pressure, and the next transfer (L of the flow of fluid withdrawn from the well, is carried out after the pressure in the filter drops. 1 ill. ISD O5 00 O) 00

Description

The invention relates to the construction and operation of groundwater intakes, vertical drainage systems, and in particular to methods for processing a sealed well into water.

The purpose of the invention is to increase the permeability of the filter zone and reduce processing time.

The drawing shows a diagram of the binding well for the implementation of the proposed method.

In the well equipped with filter 1, pipelines 2 and 3 are placed, each of which is equipped on the surface with sequentially located controlled valves 4 and 5 and check valves 6 and 7 connected to the control device 8. The pipeline 3 is connected to the supply tank 9, and the pipe 2 is connected to the storage tank 10 and connected to the pump 11, connected by the pipe 12 to the supply tank 9. At the wellhead a sealing device 13 is installed.

The method is as follows.

With the open controlled valves 4 and 5 and check valves 6 and 7, turn on the pump 11 and pump the liquid into the filter 1. The fluid flow begins to return through pipeline 3 to the flow tank 9. In conditions of high injectivity of the well, when it is difficult to create such a circulating fluid flow, in the supply tank 9, equipped with a valve 15, through the pipeline 14 additionally produce water supply with a sufficient flow rate.

At the signal of the control device 8, the valve 5 is closed. In this case, a pressure increase wave propagates through pipelines 3 and 2 to the check valve 6, which closes. The signal to close the check valve 6 is supplied to the control device 8. After closing the check valve 6 in the volume of fluid between the valve 5 and the check valve 6 is a stationary compressed fluid. The pump 11 runs on the storage tank 10. Due to filtration through the filter, the pressure begins to drop. When the pressure drops to a predetermined level, the check valve 6 opens and sends a signal to the control device 8, which opens the valve 5.

After the time required to restore the steady-state fluid motion in the system, the control device sends a signal to close the valve 4, which blocks the fluid flow supplied to the filter 1. There is a wave of pressure reduction, which, reaching the check valve 7, causes it to shut off. The signal about closing the valve 7 is supplied to the control device 8. In this case, the 5 volume, cut off by valves 4 and 7, is filled with a stationary liquid of reduced pressure. The produced water moves into the filter 1, which leads to an increase in the pressure in the system, and the check valve 7 opens, giving a signal to the controlled device 8, which sends a signal to open the valve 4. After the time required to restore the steady-state movement of fluid in the system, the device 8 control again closes valve 5 and the processing cycle is repeated.

This alternation of pulses of high and low pressure increases the range of pressure fluctuations, which leads to the destruction of the crystallization bonds of the clogging formations ⁰ in the filter zone, and the resulting hydraulic flows of a variable direction (into the well filter and from the well filter) contribute to both the destruction of the clogging formations and the removal of their 25 finely dispersed phase. The combination of these factors provides a significant increase in the filtration coefficient of the filter zone, and the intensity of their impact - a reduction in the processing process.

The completion time of the treatment of the well 3θ is controlled by any known method, for example, by stabilizing the pressure of the generated hydraulic pulses. After processing processing equipment is dismantled, water ₃₅ is mounted lifting equipment and pumping the well to produce complete removal of cuttings from the bottom and from prifiltrovoy well zone.

Claims (1)

40 claims A method of processing a sealed well into water by supplying water to the well and creating hydraulic pulses of increased pressure in the well by periodically shutting off the fluid flow from the filter to the surface, characterized in that, in order to increase the permeability of the filter zone and reduce the processing time, after 50 le each increase in pressure in the filter block the flow of fluid supplied to the filter, and create a pulse of reduced pressure, and the next overlap of the flow of fluid discharged from the well zhiny, performed after the pressure drop in the filter 53.