RU1820177C - Well charge - Google Patents

Abstract

The invention relates to blasting technology and can be used in the mining industry, for example, to remove water from blast holes, to inject hardening compositions into a rock mass, etc. The aim is to increase the efficiency of exposure to a fluid located in a well. This is achieved by the fact that the explosive is placed in a strong tubular shell 2, and gas bubbles 3 are placed at its mouth on one side or on both sides. The charge is lowered into a well 4 filled with liquid 5 and an explosion is made. Explosion energy due to the design of the charge is distributed predominantly along the axis of the borehole, which provides an effective effect on the fluid for its injection into the rock mass or removal from the borehole. 3 s.p. f-ly, 4 ill. / R fc Ј

Description

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The invention relates to blasting technology and can be used in the mining industry to remove water from blast holes, to inject liquid hardening compositions into a rock mass, to carry out hydraulic fracturing of rocks, etc.

The aim of the invention is to increase the efficiency of exposure to a liquid medium in a well, as well as the possibility of pumping a liquid medium into a rock mass.

In FIG. 1 shows the charge at the bottom of the well before its explosion; in FIG. 2 - the same, with additional charge at the wellhead; in FIG. 3 g the same, with a charge in a shell with a blind end; in FIG. 4 - location in a long well when injecting fluid into the rocks.

The downhole charge consists of an explosive 1, which is placed in the channel of the tubular shell 2 of a strong material, for example metal. In the estuary of the tubular shell on one side (Fig. 1) or on both sides (Fig. 4) there are gas Bubbles 3 in the form of elastic shells filled with air. The tubular shell 2 may be blind on one side (Fig. 3), i.e. made in the form of a glass.

The charge is used as follows.

In the well 4, which is filled with water 5, the explosive charge in the shell is lowered to the bottom (Fig. 1), and the gas bubble 3 is placed on the explosive 1. When initiating the explosive, taking into account that it is placed in a durable shell 2, the gas products of the explosion and the shock wave propagates along the axis of the wellbore 4, mainly upward, which is facilitated by the presence of the gas bubble 3. This ejects water 5 from the well 4 with minimal destruction of its walls. Well 4, after draining, is charged and the explosive charge is blown up in it.

If necessary, explosive injection into the massif of hardening mass 6 to strengthen it (Fig. 2,3,4), in the wellhead

parts of well 4 additionally place a charge of explosives under the bottom hole 7. Charge in the bottom and wellhead parts of well 4 explode at the same time, while pressure in the liquid medium 6 rises, which is pumped through cracks into the rock mass. In order to increase the effect of the directed propagation of explosion energy, explosives 1 can be placed in the shell 2 in the form

cups (Fig. 3). If the injection is liquid

environment b is implemented in the mountain range

through a long well 4 (Fig. 4), then between

bottom and wellhead charges

optionally intermediate charge,

equipped with two gas bubbles 3 from both ends of the tubular shell 2. In this case, the borehole charge can form in the form of a string.

Claims (3)

1. A downhole charge comprising an explosive substance enclosed in a cylindrical shell placed at the bottom of a water-filled well, so that, in order to increase the effectiveness of influencing the liquid medium in the well, the length of the shell is greater than the length of the explosive charge, and a gas bubble is located in it from the side of the liquid medium. 2. The charge according to claim 1, with the exception that, in order to pump liquid into the rock mass, it is equipped with an additional explosive charge in the shell for installation in the wellhead well and stall. 3. The charge according to claim 2, which is also distinguished by the fact that the additional charge shell is made with a blind end facing the bottom hole. 4 . Zar d on un. 1 and 2, characterized in that in an additional charge from the side of the liquid medium a gas bubble is placed, and in the liquid medium between the bottom and additional charges an intermediate explosive charge is placed in the shell with gas bubbles at the ends.