RU2575855C1 - Method of lifting of magmatic lava to surface - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: working pipe is used for lifting of lava and the pipe with smaller diameter for injection of non-flammable gas connected to the working pipe at the pre-set depth by the disperser. The disperser is used with the length from 5 up to 75% from the length of the working pipe with a set of holes with different diameters. Lava lifting includes the following steps: a) the working pipe is lowered to the lava source in such a way that its upper part by 1-2 m exceeds the lava level; b) into the disperser gas is injected until lava saturation in the working pipe; c) the working pipe is lowered into the lava source with lava overflow into the lava source and in this way it is maintained until uniform saturation by gas of lava in the working pipe; d) receptions a)-c) it is repeated until initiating of steady process of lava movement in the whole working pipe; e) as the flow rate of discharge of lava saturated with gas from the working pipe is stabilized the stationary mode of lava lifting is set. For this purpose the working pipe is installed at the pre-set depth, being previously hermetically tied with the reception system on the surface and the fumarole gas catching system. These gases are used as a part of non-flammable gas for injection into the disperser.

EFFECT: improvement of efficiency of the method at the expense of increase of depth of lifting of magmatic lava, safety, uninterrupted operation and controllability of lifting process.

5 cl, 1 ex

Description

The invention relates to mining and can be used for the extraction of magma lava from magmatic lakes located in the craters of active volcanoes, or in the cavities of sleeping volcanoes, or close to them, both with access to the earth's surface and at a depth.

There is a method of lifting magmatic lava to the earth's surface from a source of magmatic lava - a volcano using a machine, including an excavator and a conveyor with buckets. In accordance with the known method, one part of the excavator of the machine is installed outside the volcano, and the other part of the excavator of the machine is lowered inside the volcano, while the conveyor moves the buckets in such a way that the lava is scooped up with the lower bucket and move it from the volcanic vent to a site outside the volcano (see RF application for invention No. 2006103014, published on 08.20.2007, p. 12 of the formula).

The disadvantage of this method is its increased danger to personnel and the limited depth of extraction of igneous lava.

There is a method of lifting magmatic lava to the earth's surface from a source of magmatic lava - a volcano using pipes and a pump (see RF application for invention No. 2006103014, publ. 08/20/2007, p. 23 of the formula).

The disadvantage of this method is its limited capabilities, due to the underestimation of the features of magmatic lava proper, which is characterized by high temperature and viscosity, which complicate the use of conventional pumps, as well as the controllability and uninterrupted process of lifting magmatic lava to the earth's surface.

The technical result of the invention is to increase its efficiency by increasing the depth of rise of magmatic lava, to ensure safety, continuity and controllability of the process of lifting to the surface of the earth for its further processing.

The required technical result is achieved by the fact that the method of lifting magmatic lava to the surface of the earth is characterized by using a working pipe for lifting lava and a pipe of smaller diameter for pumping non-combustible gas, connected to the working pipe at a given depth by a dispersant having a length of 5 to 75% of the length of the working pipe with many holes of different diameters, and carry out the following steps:

a) the working pipe is lowered into the source of lava in such a way that its upper part is 1-2 m higher than the level of the lava;

b) gas is pumped into the dispersant until it saturates the lava inside the working pipe;

c) the working pipe is lowered into the source of lava with the overflow of the lava into the source of lava and so is maintained until the lava gas is evenly saturated inside the working pipe;

g) techniques a) to c) are repeated until the start of a stable process of lava movement inside the entire working pipe;

e) as the flow rate of the outflow of gas-saturated lava stabilizes from the working pipe, they switch to the stationary mode of lifting the lava, for which the working pipe is installed at a predetermined depth, having previously tightly connected it with a receiving system on the earth's surface and a fumarole gas capture system, which are used as part of non-combustible gas for injection into the dispersant.

Besides:

as a gas for injection into the dispersant, additional fumarole and / or non-combustible gas from other sources is used;

a gas-vapor mixture is used in the composition of the gas for injection into the dispersant;

the lava lifted along the working tube is treated with ultrasound and / or electric discharges and, if necessary, additionally exposed to a controlled magnetic field;

the dispersant is made in the form of a casing, covering concentrically the working pipe, which is perforated inside the casing and has flexible nozzles directed towards the center of the pipe. The nozzles are connected to part of the holes (perforations) and are able to deviate inside the working pipe relative to its internal walls in the lava flow. In addition, the pipes themselves have openings for the outlet of gas coming from the casing.

The essence of the invention lies in the fact that essentially to lift magmatic lava use a gas lift (airlift), taking into account the features of the aforementioned lava. Due to the increased viscosity and heterogeneity of the structure of magmatic lava, as well as its high temperature, special methods are provided for triggering the rise of magmatic lava before providing a stationary mode of its rise to the earth's surface using a device that provides volumetric saturation with a gas and / or vapor-gas mixture of magma lava with simultaneous volumetric dispersion of the lava itself. As a result of the experiments, it was found that the effect of volumetric saturation of magma lava with gas and at the same time its volumetric dispersion appears when the length (length) of the dispersant is 5-75% of the length of the working pipe with holes of various diameters. At the same time, non-combustible gas is used during all the operations of lifting magmatic lava, which ensures the necessary safety of lifting by eliminating additional foci of uncontrolled burning in the hazardous zone.

In addition to non-combustible gas, steam can be added to more stabilize the phenomena of gas saturation of the rising lava and its dispersion. Neutral gases can be used as a non-combustible gas at the stage of starting up the device, and subsequently fumarole gases released from the magmatic lava being lifted and trapped during its rise from the lava source and / or transportation over the earth's surface. This ensures the localization of toxic gases and, at the same time, a stable temperature regime in the work area. In case of a deficiency of the mentioned gases, non-combustible gases or their mixtures of third-party sources - other objects can be used.

The method is as follows.

A gas lift is lowered into the source of igneous lava. To do this, use a working pipe for lifting lava and a pipe of a smaller diameter for pumping non-combustible gas, connected to the working pipe at a predetermined depth by a dispersant having a length of 5 to 75% of the length of the working pipe and many holes of different diameters. The following steps are taken:

a) the working pipe is lowered into the source of lava in such a way that its upper part is 1-2 m higher than the level of the lava;

b) gas is pumped into the dispersant through a pipe of smaller diameter until the lava is saturated with it inside the working pipe;

c) the working pipe is lowered into the source of lava with the overflow of the lava into the source of lava and so is maintained until the lava gas is evenly saturated inside the working pipe;

g) techniques a) to c) are repeated until the start of a stable process of lava movement inside the entire working pipe.

After that, they switch to the stationary mode of lava rise. To do this, the working pipe is installed at a predetermined depth, having previously tightly connected it with a receiving system on the earth's surface and a fumarole gas trapping system, which are used as part of a non-combustible gas for injection into the dispersant.

If necessary, fumarole and / or non-combustible gas from other sources, for example fumarole gas from another source of igneous lava or combustion gases from processing plants, is additionally used as gas for injection into the dispersant.

With insufficient productivity of lifting magmatic lava, the working pipe is treated with ultrasound and / or electric discharges.

Dispersant for the best manifestation of the effects of gas saturation of magmatic lava and dispersion of the lava itself is performed in the form of a casing covering concentrically the working pipe. In this case, the working pipe is perforated inside the casing and provided with flexible pipes inside it, connected with perforations and having the ability to deviate inside the working pipe relative to its internal walls in the lava flow. Thus, volumetric gas saturation is achieved due to the gas entering the magma from a large number of holes of various diameters located both on the inner surface of the working pipe and on the nozzles.

A specific example of the implementation of the method

In Kamchatka, there is a lava lake of the Flat Tolbachik volcano, located directly at the western boundary of the crater and having the form of a round-shaped dip with a diameter of 300 meters and a depth of 50 meters. Magmatic lava in the lake has a temperature of about 1000 ° C and is saturated with volcanic gases. To start the production of magma lava, supports for the cables are installed along the edges of the crater, with which a platform with a hole is steadily lowered onto the surface of the lava lake, through which two columns of pipes are lowered into the magma lava, for example, of impact-resistant ceramic reinforced structural material that can withstand elevated temperatures (more 1500 ° C). Choose a working pipe with a diameter of 2-3 m with stiffeners. It serves to lift magmatic lava. A pipe of a smaller diameter - 100-200 mm is designed to pump a non-combustible gas or a non-combustible vapor-gas mixture. At the same time, these pipes are made in such a way that at a depth of 25 m they are ensured by a volumetric dispersant. The dispersant is made in the form of nozzles located both along the inner surface of the working pipe, as well as at an angle to the lava flow, reaching its central part in the working pipe, with holes of different diameters (4-10 mm), closed with a fine mesh from magma getting inside branch pipe. In the device startup mode, the following actions are performed:

a) the outlet of the working (lifting) pipe is lowered to the level of the magma lake mirror and lowered into the lava source so that its upper part is 1 m higher than the level of the lava;

b) a non-combustible gas, for example nitrogen, is injected into the dispersant until it saturates the lava inside the working pipe;

c) the working pipe is lowered into the source of lava with the overflow of the lava into the source of lava and so is maintained until the lava gas is evenly saturated inside the working pipe;

g) techniques a) to c) are repeated until the start of a stable process of lava movement inside the entire working pipe.

Then, as the flow rate of the outflow of gas-saturated lava stabilizes from the working pipe, they switch to the stationary mode of lava rise. To do this, the working pipe is installed stationary at a depth of 35-50 m, having previously tightly connected it with a receiving system on the earth's surface and a fumarole gas capture system, which is used as part of a non-combustible gas for injection into the dispersant.

The dispersant is launched with the required performance in stationary mode.

For a more efficient start-up of the device - gas lift and transfer it to the stationary mode, a dispersant according to paragraph 5 of the formula can be used. Through the tubes of such a dispersant, intersecting the cross section of the working pipe, additional sources are created for volume gasification of the lava flow. Since the dispersant tubes are fixed to the wall of the working pipe in such a way that they have a free end and can elastically bend to the wall of the working pipe and return to their original position, this ensures the possibility of transmission of dense pieces of magma rock.

To improve the passage of lava flow through the working pipe and further technological processing, the method provides the possibility of influencing the magmatic flow by a controlled magnetic field, as well as electric-discharge and ultrasonic effects on the rising magma lava to destroy the physical inhomogeneities present.

Also, for accelerated start-up of the device, a dispersant-accelerator in the form of “graphite” rods (similar to atomic reactors) can be used, which at the initial technological stage is introduced from above into the working tube and between which electric discharges are supplied to “shake” the magma.

After the start-up mode has passed in the lift pipe, the working pipe is connected to the ground piping. At the outlet of the working pipe, a receiving tank is mounted, the bottom of which has a slope towards the transport tray intended for ground transportation of magmatic lava. The receiving tank is equipped with a steam and gas separator with a system of steam and gas pipes and a compressor for aspirating fumarole gases. The compressor is continuously aspirated by fumarole gases emanating from magmatic lava. As a result, the pressure in the receiving tank is set below atmospheric, which further contributes to the rise of magmatic lava and the release of fumarole gases. The amount of magma lava that rises to the surface of the earth is controlled by the compressor by increasing or decreasing the volume of non-combustible gas injected into the dispersant.

To reduce or prevent the ingress of the gas lift from the "non-technological" and "oversized" dense pieces of magma rock, a mechanical conical filter is installed at the inlet of the riser pipe.

Claims (5)

1. The method of lifting magmatic lava to the surface of the earth, characterized in that they use a working pipe for lifting lava and a pipe of smaller diameter for pumping non-combustible gas, connected to the working pipe at a predetermined depth by a dispersant having a length of 5 to 75% of the length of the working pipe with many holes of different diameters, and carry out the following steps:
a) the working pipe is lowered into the source of lava in such a way that its upper part is 1-2 m higher than the level of the lava;
b) gas is pumped into the dispersant until it saturates the lava inside the working pipe;
c) the working pipe is lowered into the source of lava with the overflow of lava into the source of lava and so is maintained until the lava is evenly saturated with gas inside the working pipe;
d) techniques a) to c) are repeated until a steady process of lava movement inside the entire working pipe is launched;
e) as the flow rate of the outflow of gas-saturated lava stabilizes from the working pipe, they switch to the stationary mode of lifting the lava, for which the working pipe is installed at a predetermined depth, having previously tightly connected it with a receiving system on the earth's surface and a fumarole gas capture system, which are used as part of non-combustible gas for injection into the dispersant. 2. The method according to p. 1, characterized in that as a gas for injection into the dispersant use additional fumarole and / or non-combustible gas from third-party sources. 3. The method according to p. 1, characterized in that a gas-vapor mixture is used in the gas composition for injection into the dispersant. 4. The method according to p. 1, characterized in that the lava, raised along the working pipe, is treated with ultrasound and / or electric discharges. 5. The method according to p. 1, characterized in that the dispersant is made in the form of a casing, covering concentrically the working pipe, which is perforated inside the casing and has flexible pipes inside it, connected with holes and able to deviate inside the working pipe relative to its internal walls in the lava flow .