RU1772352C - Method for equipping head of raise or slant well - Google Patents

Abstract

Usage: in the mining industry, The essence of the method: it includes securing the conductor, installing supply pipes, a sealant with a lateral outlet, pumping the flushing fluid through the lateral outlet to the maximum pressure generated by the mud pump, and the subsequent increase in pressure in the well cavity is carried out through the feed pipes with a low flow rate of a liquid having a density lower than the density of the washing liquid, after which it is recycled for reuse. 2 C.p. f-ly, 2 ill.

Description

The invention relates to the field of mining and can be used in the construction of rising or directional rising wells from underground mines.

A method of constructing an upward drainage well is known, which includes fixing the conductor to the wellhead. The known method does not provide for crimping the conductor.

The disadvantage of this method may be poor-quality fixing of the conductor, which can lead to a breakthrough of groundwater in the mine and create an emergency.

Closest to the invention is a method of testing the conductor and rigging the wellhead of a deviated well, comprising installing the conductor at the wellhead

wells, placement of supply pipes and a sealant therein with a tap and the creation of excess pressure in the well cavity by pumping the agent to form an air gap in the upper zone.

The disadvantage of this method is the poor quality of testing and the decrease in the reliability of fixing the conductor of the rising and deviated wells.

The aim of the invention is to increase the efficiency of equipping the wellhead under difficult hydrogeological conditions.

This goal is achieved by the fact that in the method of equipping the mouth of the rising or deviating well, including the installation of the conductor at the wellhead, the placement of feed

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pipes and the sealant with the outlet and the creation of excess pressure in the well cavity by injection of the agent with the formation in the upper zone of the air gap, the upper end of the supply pipes are introduced into the air gap through which air is released by pumping the agent into the well cavity, and creating subsequent overpressure is carried out by pumping through the supply pipes with a low flow rate of a liquid having a density lower than the density of the agent.

As a liquid having a density lower than the density of the agent, oil is used.

After testing the rig mouth, the oil is drained from the well cavity and supply pipes.

Figure 1 shows the phase of injection of the agent into the well cavity and air discharge; figure 2 shows the phase of the injection of oil through the supply pipe.

The proposed method is carried out as follows. In the uprising or inclined-rising borehole 1 (Fig. 1), after the jig 2 is fixed at the wellhead 1, the seal 3 with the lateral outlet 4 and the valve 5, the supply pipes 6 are installed. They are fastened and sealed using the flange 7 . In this case, the supply pipes 6 are installed so that their end 8 is in the upper bottomhole zone of the well cavity 1 (in the zone of the future air gap 9). Agent 11, for example flushing fluid, is pumped from the mud pump through pipeline 10 through the valve 5 and lateral outlet 4, for example, an air gap 9 is formed in the upper cavity of the borehole. The agent (flushing fluid) 11 is pumped up to the maximum possible pressure from the pump unit, In this case, agent 11 displaces air 12 from the well cavity. After that, at the maximum possible pressure created by the agent 11 (flushing fluid), the wellhead is pre-pressurized. Then, the lower end 13 of the supply pipes 6 is equipped with a nipple 14 (Fig. 2) and a hose 15, which is connected to the oil pump 16 and the control panel of the hydraulic system of the drilling rig. Next, the valve 5 is closed and the nipple 14 is connected to the pressure pipes 6 and the oil pump 16. Using a control panel from the hydraulic system, a subsequent overpressure is created by pumping a liquid having a density lower than the density of the agent, for example oil 17, through low-flow supply pipes b in the direction of the arrows 18 and, while continuing to pump oil 17, the overpressure in the well 1 is increased to a predetermined value. Pressure testing is carried out for a predetermined time under a given pressure, without leakage of agent 11, for example flushing fluid or oil 17, through snap-in elements at the wellhead, conductor, and hydraulic system of the drilling rig.

After crimping the conductor 2, an agent, for example, washing liquid 11 or water, is drained through the valve 5 and the liquid, for example, oil, is returned. Since the fluid has a density lower than the density of the agent, it is in the upper zone and later leaves the cavity of the well and the supply pipes 6. Thus, a separate drain and collection are performed. After which they are used repeatedly. When the oil passes through the snap-in mouth, the oil washes the surface of the sealant and all the internal parts of the snap-in mouth, which will further reduce their corrosion.

Thus, the proposed method will improve the efficiency of equipping the wellhead under difficult hydrogeological conditions and will ensure the reliability and safety of well operation.

Claims (3)

1. A method of equipping the mouth of a rising or inclined-rising well, including installing a conductor at the wellhead, placing supply pipes and a sealant therein with a tap, and creating excessive pressure in the well cavity by pumping the agent to form an air gap in the upper zone, characterized in that In order to increase the efficiency of equipping the wellhead under difficult hydrogeological conditions, the upper end of the supply pipes is introduced into the air gap through which air is released by pumping and agents into the well chamber, and the subsequent creation of excess pressure is carried out by pumping through the feeding tube with a small flow rate of a fluid having a density, density menshz agent. 2. A method according to claim 1, characterized in that oil is used as a liquid having a density lower than the density of the agent. 3. The method according to claim 2, characterized in that the oil is drained from the well cavity and supply pipes. X ;; FIG / fifteen MLO 17