EA031101B1 - Method and arrangement for drying solid particulate material and use of the method or of the arrangement - Google Patents

Abstract

The invention relates to a method and to an arrangement for drying solid particulate material (10). The arrangement comprises a venturi dryer (1) having a venturi throat (2) and a drying section (3) in fluid connection with the venturi throat (2). The venturi dryer (1) has an inner space that is symmetrical with respect to a central axis (B), and material feeding means (4) for feeding particulate material (10) into the drying section (3). The venturi dryer (1) has a gas feeding section (9) for feeding gas (11) through the venturi throat (2) into the drying section (3). The material feeding means (4) comprising at least two screw feeders (6) comprising a spiral blade (7). Each of said at least two screw feeders (6) opening up into the drying section (3) at a feeding opening (8) between the screw feeder (6) and the drying section (3).

Description

The invention relates to a method and apparatus for drying crushed solid material (10). The installation includes a Venturi dryer (1) having a Venturi tube nozzle (2) and a drying section (3) fluidly connected to the Venturi tube nozzle (2). The dryer (1) Venturi has an internal space that is symmetrical about the central axis (B), and the means (4) of material supply, designed to supply the crushed solid material (10) to the drying section (3). The dryer (1) Venturi includes a gas supply section (9) for supplying gas (11) through the nozzle (2) of the Venturi tube to the drying section (3). Means (4) for feeding the material include at least two screw feeders (6) including a spiral blade (7). Each of the at least two screw feeders (6) communicates with the drying section (3) through the feed opening (8), which is located between the screw feeder (6) and the drying section (3).

031101 B1

031101 Bl

Technical field

The invention relates to a method of drying crushed solid material, such as a crushed hydrocarbon solid material, such as bituminous shale, in accordance with what is stated in the preamble of independent claim 1.

The invention also relates to a plant for drying crushed solid material, such as crushed hydrocarbon solid material, such as bituminous shale, in accordance with what is stated in the preamble of independent claim 9.

In particular, the invention relates to the drying of a crushed hydrocarbon solid material, which is bituminous shale. However, the method and apparatus according to the invention can also be used for drying other types of crushed solid material.

In particular, when drying crushed solid material, a hydrocarbon crushed solid material, in the Venturi dryer there is a risk that the crushed solid material will flow from the drying section of the Venturi dryer through the venturi nozzle to the relatively high Venturi gas supply section temperature, for example, from 400 to 500 ° C. Such a high temperature causes an increase in the temperature of the crushed solid material located in the gas supply section of the Venturi dryer, i.e. causes overheating of the crushed solid hydrocarbon material, which, in turn, leads to emissions of hydrocarbons and / or CO.

The task of the invention

The objective of the invention is to propose a method and installation for drying crushed solid material, such as hydrocarbon crushed solid material, such as bituminous shale, providing a reduced risk of formation of unwanted emissions.

Brief description of the invention

The method of drying crushed solid material, such as a crushed hydrocarbon solid material, such as bituminous shale, according to the invention is different in that specified in the independent claim 1 of the claims.

Preferred embodiments of the method are disclosed in dependent claims 2-8 of the claims.

A plant for drying crushed solid material, such as a crushed solid hydrocarbon material, such as bituminous shale, according to the invention is characterized by what is stated in the independent claim 9 of the claims.

Preferred embodiments of the installation are disclosed in dependent claims 10-16 of the claims.

The invention is based on the concept of supplying the crushed solid material through several points to the drying section of the Venturi dryer. This results in a more even distribution of the crushed solid material in the drying section of the Venturi dryer, which in turn reduces the risk of the crushed solid material from the drying section of the Venturi dryer through the venturi nozzle to the gas section of the Venturi dryer.

In one of the preferred embodiments of the invention, the screw feeders are attached to the feed openings of the drying section of the Venturi dryer so that the central axis of the Venturi dryer is not intersected by an imaginary extension of the axes of rotation of the screw feeders. The advantage of this arrangement is that the movement of the crushed solid material is not directed towards the middle of the interior of the drying section of the Venturi dryer, from where it can fall into the nozzle of the Venturi tube.

In a preferred embodiment of the invention, the screw feeders are connected to the feed openings of the drying section of the Venturi dryer in such a manner that the loading openings through which the screw feeders communicate with the drying section of the Venturi dryer are arranged symmetrically with respect to the central axis of the Venturi dryer. This leads to a uniform distribution of the crushed solid material in the drying section of the Venturi dryer, since the loading openings are located at the greatest possible distance from each other.

Brief description of graphic materials

Further, the invention is discussed in more detail with reference to graphic materials on which are presented:

in fig. 1 is a schematic diagram of one of the embodiments of the installation;

in fig. 2 shows a sectional configuration A-A shown in FIG. one;

in fig. 3 is another configuration of the section A-A shown in FIG. one;

in fig. 4 is another configuration of the section A-A shown in FIG. one;

in fig. 5 is another configuration of the section A-A shown in FIG. one.

- 1 031101

Detailed Description of the Invention

Graphic materials provide examples of methods and devices for drying crushed solid material, such as a crushed hydrocarbon solid material, such as bituminous shale.

First, a method of drying crushed solid material, such as a crushed hydrocarbon solid material, such as bituminous shale, and some preferred embodiments and method variations will be discussed in more detail.

The method includes performing the stage of providing the Venturi dryer 1, including the Venturi nozzle 2 and the drying section 3 fluidly connected to the Venturi nozzle 2, and providing means 4 for supplying the material for feeding the crushed solid material 10 from the source 5 of the crushed solid material to the drying section 3 dryers 1 Venturi, while the dryer 1 Venturi has an internal space (does not have a position number), which is symmetrical about the central axis B of the internal space of the dryer 1 Venturi.

The method includes the stage of material supply, carried out for supplying the crushed solid material 10 from the source 5 of the crushed solid material to the drying section 3 of the Venturi dryer using the material supply means 4.

The method includes a gas supply stage for supplying gas 11 from the gas supply section 9 of the Venturi dryer 1 through the Venturi tube nozzle 2 of the Venturi dryer 1 to the drying section 3 of the Venturi dryer 1 and through the crushed solid material 10 located in the drying section 3 of the Venturi dryer 1. Gas 11 may be, for example, a hot gas containing oxygen. For example, gas 11 may be flue gas produced in the combustion process (not represented on graphic materials).

The gas supply stage may include the gas supply 11 from the gas source (not shown in the graphic materials) to the gas supply section 9 of the Venturi dryer 1.

The temperature of the gas 11 supplied to the gas supply stage may be from 400 to 500 ° C, for example approximately 450 ° C.

The temperature of the crushed solid material 10 supplied to the stage of supplying the material from the source 5 of the crushed solid material may be approximately 20 ° C or may be equal to the temperature of the air surrounding the source 5 of the crushed solid material.

The temperature in the drying section 3 of the dryer 1 Venturi can be from 100 to 200 ° C, for example 150 ° C.

The provision stage includes the provision of material supply means 4 containing at least two screw feeders 6, each of which includes a spiral blade 7 capable of rotating around the axis of rotation C in such a way as to feed the crushed solid material 10 by rotating the spiral blade 7 around the axis of rotation C from the source 5 of the crushed solid material to the drying section 3 of the Venturi dryer 1.

The method includes such a connection of each of said at least two screw feeders 6 with the drying section 3 of the Venturi dryer 1, wherein each of the specified at least two screw feeders 6 communicates with the drying section 3 of the dryer 1 of the Venturi dryer through the inlet 8, which is located between screw feeder 6 and drying section 3 of the dryer 1 Venturi.

The material supplying step involves rotating the spiral blade 7 of each of said at least two screw feeders 6 around the axis of rotation C of the corresponding screw feeder 6 for supplying the crushed solid material 10 from the source 5 of crushed solid material to the drying section 3 of the Venturi dryer 1.

From the drying section 3 of the Venturi dryer, dried shredded solid material and gas can be supplied to separation means (not shown in graphic materials) to separate the gas from the dried shredded solid material. Separation means may include, for example, means for separating gas from solids, such as a cyclone, an electrostatic precipitator, a bag filter or a candle filter.

The method preferably, but not necessarily, includes such a connection of at least one of the at least two screw feeders 6 with the drying section 3 of the Venturi dryer, in which the central axis B of the internal space of the dryer 1 of the Venturi is not intersected by an imaginary continuation 12 of the axis of rotation C indicated at least at least one screw feeder 6 of the specified at least two screw feeders 6.

The method preferably, but not necessarily, includes such a connection of each of the at least two screw feeders 6 with the drying section 3 of the Venturi dryer, in which the central axis B of the internal space of the dryer 1 of the Venturi does not intersect with an imaginary continuation 12 of the axis of rotation C of each of the screw feeders 6.

The method preferably, but not necessarily, includes such a connection of each of said at least two screw feeders 6 with a drying section 3 of a Venturi dryer 1 in which the feed openings 8 through which the at least two screw feeders 6 communicate

- 2 031101 with drying section 3 of Venturi dryer 1, are located symmetrically relative to the central axis B of the inner space of Venturi dryer 1.

As shown in the embodiment shown in FIG. 2, the provision stage may include provision of material supply means 4, which include two screw feeders 6, each of which includes a spiral blade 7 capable of rotating around the axis of rotation C. This embodiment of the method includes such a connection of two screw feeders 6 with the drying section 3 of the dryer 1 Venturi, in which the boot openings 8, located between each screw feeder 6 and the drying section 3 of the Venturi dryer 1, are located at an angle of 120 °, preferably at an angle of 90 ° relative to each other relative to prices tral axis B 1 venturi dryer interior space.

As shown in the embodiment shown in FIG. 3, the provision stage may include the provision of material supply means 4, which include two screw feeders 6, each of which includes a spiral blade 7 that can rotate around the axis of rotation C. This embodiment of the method includes such a connection of two screw feeders 6 to the drying section 3 of the dryer 1 Venturi, in which the boot openings 8 located between each screw feeder 6 and the drying section 3 of the Venturi dryer 1 are located at an angle of essentially 180 ° with respect to each other relative to the center Flax axis in the inner space 1 a venturi dryer.

As shown in the embodiment shown in FIG. 4, the provision stage may include provision of material supply means 4, which include three screw feeders 6, each of which includes a spiral blade 7 capable of rotating around the axis of rotation C. This embodiment of the method includes such a connection of three screw feeders 6 with the drying section 3 of the dryer 1 Venturi, in which the boot openings 8 located between each screw feeder 6 and the drying section 3 of the Venturi dryer 1 are located at an angle of essentially 120 ° with respect to each other relative to the center Flax axis in the inner space 1 a venturi dryer.

As shown in the embodiment shown in FIG. 5, the provision stage may include the provision of material supply means 4, which include four screw feeders 6, each of which includes a spiral blade 7 capable of rotating around the axis of rotation C. This embodiment of the method includes such a connection of four screw feeders 6 to the drying section 3 of the dryer 1 Venturi, in which the boot openings 8 located between each screw feeder 6 and the drying section 3 of the Venturi dryer 1 are located at an angle of essentially 90 ° with respect to each other but the central axis B of the inner space 1 a venturi dryer.

The method preferably, but not necessarily, includes such a connection of each of said at least two screw feeders 6 with the drying section 3 of the Venturi dryer 1, wherein each of the charging openings 8 located between each screw-feeding the 6 and the drying section 3 of the Venturi dryer, essentially in the same position when viewed along the central axis B of the inner space of the Venturi dryer 1.

The method preferably, but not necessarily, includes such a connection of each of said at least two screw feeders 6 with a drying section 3 of a Venturi dryer 1, wherein each of the charging openings 8 located between each screw-feeding 6 and a drying section 3 of a Venturi dryer 1 essentially on the same vertical level, i.e. at the same height of the drying section 3 of the Venturi dryer 1.

In one embodiment of the method, the providing step comprises providing at least one screw feeder 6 having a right-handed spiral blade 7 and rotating said spiral blade 7 with the right-hand stroke of at least one screw feeder 6 counterclockwise at the material supply stage. In this embodiment of the method, the providing step comprises providing at least one screw feeder 6 having a spiral blade 7 with a left stroke and rotating said spiral blade 7 with a left stroke of at least one screw feeder 6 clockwise in the material supplying step. This embodiment of the method preferably, but not necessarily, includes such a connection of said at least one screw feeder 6, having a right-handed spiral blade 7, with a drying section 3 of a Venturi dryer 1, and such a connection of said at least one screw feeder 6 having a spiral blade 7 with the left stroke, with the drying section 3 of the Venturi dryer 1, in which both the specified at least one screw feeder 6 having the spiral blade 7 with the right stroke and the specified at least one screw pit Spruce 6, having a spiral blade 7 with a left stroke, serves crushed solid material 10 to the drying section 3 of the Venturi dryer 1 from the side of the loading opening 8 located between the respective screw feeder 6 and the drying section 3 of the Venturi dryer 1, which is farther from the central axis In the inner space of the dryer 1 Venturi than the other side of the loading opening 8, located between the corresponding screw feeder 6 and the drying section 3 of the dryer 1 Venturi. Thus, in this embodiment, the crushed solid material 10 is fed to the drying section 3 of the Venturi dryer 1 at points as far from each other as possible. On the other hand, if the number of screw feeders is three, as in FIG. 4, or four, as in FIG. 5, then all screw feeders 6 can have either sleep

- 3 031101 ral blades 7 with a left turn, or spiral blades 7 with a right turn. On the other hand, if the number of screw feeders 6 is four, as in FIG. 5, the screw feeders 6 can be arranged in pairs, i.e. the material supply means 4, which feed the crushed solid material 10 from the source 5 of the crushed solid material to the drying section 3 of the Venturi dryer 1, include two screw feeders having a spiral blade 7 with a left stroke, and two screw feeders having a spiral blade 7 with a right stroke .

Electric motor control (not represented on graphic materials), which provides rotation of the spiral blade 7 with the left stroke of the screw feeder 6, or electric motor (not represented on graphic materials), which provides rotation of the spiral blade 7 with the right stroke of the screw feeder 6, can be produced, for example, using electronic controls (not shown on graphic materials), including an analog-to-digital converter (not represented on graphic materials). Such electronic controls can control the direction of rotation and the speed of rotation due to a phase shift.

The method preferably, but not necessarily, includes such a connection of each of said at least two screw feeders 6 with a drying section 3 of a Venturi dryer 1, in which the rotation axes C of said at least two screw feeders 6 are elongated in the form of mirror reflection of each other relative to the plane ( not shown on graphic materials), located in the direction of the central axis B of the inner space of the Venturi dryer 1. Such an embodiment is shown in FIG. 2 and 4.

Further, some embodiments and plant options for drying crushed solid material, such as a crushed hydrocarbon solid material, such as bituminous shale, are discussed in more detail.

The installation includes a Venturi dryer 1 having a Venturi tube nozzle 2 and a drying section 3 fluidly connected to the Venturi tube nozzle 2, the Venturi dryer 1 having an internal space that is symmetrical with respect to the central axis B.

The installation includes means 4 for supplying the material for supplying the crushed solid material 10 from the source 5 of the crushed solid material to the drying section 3 of the Venturi dryer 1.

The Venturi dryer 1 includes a gas supply section 9 for supplying gas 11 through the nozzle 2 of the Venturi tube of the Venturi dryer 1 to the drying section 3 of the Venturi dryer 1.

The installation may include a gas source (not shown on graphic materials) that is fluidly connected to the gas supply section 9 of the Venturi dryer 1.

The material supply means 4 for feeding the crushed solid material 10 from the source 5 of the crushed solid material to the drying section 3 of the Venturi dryer 1 include at least two screw feeders 6 including a spiral blade 7 that can rotate around the axis of rotation C, which ensures the supply of the crushed solid material 10 from the source 5 of the crushed solid material into the drying section 3 of the Venturi dryer 1.

Each of the at least two screw feeders 6 communicates with the drying section 3 of the Venturi dryer 1 through a feed opening 8 located between the screw feeder 6 and the drying section 3 of the Venturi dryer 1.

At least one of said at least two screw feeders 6 is preferably, but not necessarily, attached to the drying section 3 of the Venturi dryer 1 in such a way that the central axis B of the inner space of the Venturi dryer 1 does not intersect with an imaginary continuation of the 12 axis of rotation of the at least one screw feeder 6 of the specified at least two screw feeders 6.

Each screw feeder 6 of this installation is preferably, but not necessarily, attached to the drying section 3 of the Venturi dryer 1 in such a way that the central axis B of the Venturi dryer is not intersected by an imaginary continuation of the 12 axis of rotation C of the screw feeder 6.

The loading openings 8, through which each of said at least two screw feeders 6 communicate with the drying section 3 of the Venturi dryer 1, are preferably, but not necessarily, located symmetrically relative to the central axis B of the inner space of the Venturi dryer 1.

As shown in FIG. 3, the material supply means 4 present in the installation can include two screw feeders 6, each of which includes a spiral blade 7 capable of rotating around the axis of rotation C, and two screw feeders 6 can be attached to the drying section 3 of the Venturi dryer 1 in this way that the loading openings 8 located between each screw feeder 6 and the drying section 3 of the Venturi dryer 1 are located at an angle of 120 °, preferably at an angle of 90 ° relative to each other relative to the central axis B of the Venturi dryer.

As shown in FIG. 3, the material supply means 4 present in the installation can include two screw feeders 6, each of which includes a spiral blade 7 capable of rotating around the axis of rotation C, and two screw feeders 6 can be attached to the drying section 3 of the Venturi dryer 1 in this way that the loading holes 8 located between each screw feeder

- 4 031101 and the drying section 3 of the Venturi dryer 1, are located essentially at an angle of 180 ° with respect to each other relative to the central axis B of the Venturi dryer.

As shown in FIG. 4, the material supply means 4 present in the installation can include three screw feeders 6 including a spiral blade 7 capable of rotating around the axis of rotation C, and three screw feeders 6 can be connected to the drying section 3 of the Venturi dryer 1 in such a way that the holes 8 located between each screw feeder 6 and the drying section 3 of the Venturi dryer 1 are arranged at an angle of substantially 120 ° with respect to each other relative to the central axis B of the inner space of the Venturi dryer 1.

As shown in FIG. 5, the material feeding means 4 present in the installation can include four screw feeders 6 including a spiral blade 7 capable of rotating around the axis of rotation C, and four screw feeders 6 can be connected to the drying section 3 of the Venturi dryer 1 in such a way that the holes 8 located between each screw feeder 6 and the drying section 3 of the Venturi dryer 1 are arranged at an angle of essentially 90 ° relative to each other relative to the central axis B of the Venturi dryer.

Each screw feeder 6 installation preferably, but not necessarily, attached to the drying section 3 of the Venturi dryer 1 so that each of the loading openings 8 are located essentially in the same position along the central axis B of the inner space of the Venturi dryer 1.

Each screw feeder 6 installation preferably, but not necessarily, attached to the drying section 3 of the dryer 1 Venturi so that each of the loading openings 8 is located essentially at the same vertical level, i.e. at the same height of the drying section 3 of the Venturi dryer 1.

In one of the embodiments of the installation of the material supply means 4, intended to supply the crushed solid material 10 from the source 5 of the crushed solid material to the drying section 3 of the Venturi dryer 1, include at least one screw feeder 6 having a spiral vane 7 with a right-hand stroke and at least one screw feeder 6 having a spiral blade 7 with the left turn. In this embodiment of the installation specified at least one screw feeder 6 having a spiral blade 7 with the right course, preferably, but not necessarily, attached to the drying section 3 of the Venturi dryer 1, and the specified at least one screw feeder 6 having a spiral blade 7 with left, preferably, but not necessarily, attached to the drying section 3 of the Venturi dryer 1 in such a way that both the specified at least one screw feeder 6, having a spiral vane 7 with the right stroke, and the specified at least one screw feeder 6, having a spiral blade 7 with a left stroke, is able to supply crushed solid material 10 to the drying section 3 of the Venturi dryer 1 from the side of the loading opening 8 located between the corresponding screw feeder 6 and the drying section 3 of the Venturi dryer 1 at a greater distance from the central axis In the inner space of the dryer 1 Venturi than the other side of the loading opening 8, located between the corresponding screw feeder 6 and the drying section 3 of the dryer 1 Venturi. On the other hand, if the number of screw feeders is three, as in FIG. 4, or four, as in FIG. 5, then all screw feeders 6 can have either a spiral blade 7 with a left stroke or a spiral blade 7 with a right stroke. On the other hand, if the number of screw feeders 6 is four, as in FIG. 5, the screw feeders 6 can be arranged in pairs, so that the material supply means 4, which feed the crushed solid material 10 from the source 5 of crushed solid material to the drying section 3 of the Venturi dryer 1, include two screw feeders having a spiral blade 7 with a left stroke , and two screw feeders having a spiral blade 7 with the right turn.

Electric motor control (not represented on graphic materials), providing rotation of the spiral blade 7 with the left stroke of the screw feeder 6, or electric motor (not represented on graphic materials), providing rotation of the spiral blade 7 with the right stroke of the screw feeder 6, can be produced for example, using electronic controls (not shown on graphic materials), including an analog-to-digital converter (not represented on graphic materials). Such electronic controls can control the direction of rotation and the speed of rotation due to a phase shift.

As shown in FIG. 2, the axes of rotation of the at least two screw feeders 6 of the installation can be arranged as a mirror image of each other relative to a plane located in the direction of the central axis B of the Venturi dryer.

It should be clear to a person skilled in the art that as technology advances, the basic concept of the present invention can be implemented in various ways. Thus, the invention and its embodiments are not limited to the examples given above, but may undergo changes that do not go beyond the scope defined by the claims.

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Claims (8)

CLAIM 1. A method of drying crushed solid material (10), such as a crushed hydrocarbon solid material, such as bituminous shale, comprising the step of providing a dryer (1) Venturi having a venturi tube nozzle (2) and a drying section (3) fluidly connected the nozzle (2) of the Venturi tube, and the means (4) for feeding the material to supply the crushed solid material (10) from the source (5) of the crushed solid material to the drying section (3) of the dryer (1) Venturi, and the dryer (1) of the Venturi has an internal space that is symmetrical relative to the central axis (B); the stage of supplying the material for supplying the crushed solid material (10) from the source (5) of the crushed solid material to the drying section (3) of the Venturi dryer using means (4) of the material supply and the stage of supplying gas for supplying gas (11) from section (9) supplying gas for the dryer (1) Venturi through the nozzle (2) of the Venturi tube of the dryer (1) Venturi to the drying section (3) of the dryer (1) Venturi and through the crushed solid material (10) located in the drying section (3) of the dryer (1) Venturi, characterized in that the supply stage includes the provision of funds (4) for supplying Methods and material containing at least two screw feeder (6) which has a helical blade (7) able to rotate about the rotational axis (C); such a connection of each of said at least two screw feeders (6), wherein each of said at least two screw feeders (6) communicates with the drying section (3) of the dryer (1) Venturi through a feed opening (8) located between screw feeder (6) and drying section (3) of the dryer (1) Venturi; and the fact that the stage of supplying the material involves rotating the spiral blade (7) of each of the said at least two screw feeders (6) around the axis of rotation (C) to supply the crushed solid material (10) supplied from the source (5) of crushed solid material to the drying section (3) of the dryer (1) Venturi, each of the specified at least two screw feeders (6) connected to the drying section (3) of the dryer (1) Venturi so that the central axis (B) of the internal space of the dryer (1) Venturi does not intersect imaginary continuation. m (12) rotation axis (C) of each screw feeder (6); the loading openings (8) are located symmetrically with respect to the central axis (B) of the inner space of the dryer (1) Venturi and the loading openings (8) are essentially in the same position along the central axis (B) of the internal space of the dryer (1) Venturi. 2. The method according to claim 1, characterized in that the provision stage includes the provision of means (4) for feeding material containing two screw feeders (6), each of which has a spiral blade (7) capable of rotating around the axis of rotation (C); and the combination of two screw feeders (6) with a drying section (3) of the dryer (1) Venturi, in which the feed holes (8) located between each of the screw feeders (6) and the drying section (3) of the dryer (1) Venturi, arranged at an angle of 120 °, preferably at an angle of 90 ° with respect to each other around the central axis (B) of the inner space of the dryer (1) Venturi. 3. The method according to claim 1, characterized in that the provision stage includes the provision of means (4) for feeding material containing two screw feeders (6), each of which has a spiral blade (7) capable of rotating around the axis of rotation (C); and this connection of two screw feeders (6) with the drying section (3) of the dryer (1) Venturi, in which the loading openings (8) located between each screw feeder (6) and the drying section (3) of the dryer (1) Venturi at an angle of essentially 180 ° with respect to each other around the central axis (B) of the interior of the dryer (1) Venturi. 4. The method according to claim 1, characterized in that the provision stage includes the provision of means (4) for feeding material containing three screw feeders (6), each of which has a spiral blade (7) capable of rotating around the axis of rotation (C); and thus connecting the three screw feeders (6) with the drying section (3) of the dryer (1) Venturi, in which the loading openings (8) located between each screw feeder (6) and the drying section (3) of the dryer (1) Venturi at an angle of essentially 120 ° with respect to each other around the central axis (B) of the interior of the dryer (1) Venturi. 5. The method according to claim 1, characterized in that the provision stage includes the provision of means (4) for feeding material containing four screw feeders (6), each of which includes a spiral blade (7) capable of rotating 6. The method according to any one of claims 1 to 5, characterized in that the providing step includes providing at least one screw feeder (6) having a spiral blade (7) with a right-hand stroke, and at the material supply stage, the rotation of the spiral blade (7 ) at least one screw feeder (6), having a spiral blade (7) with the right stroke, occurs counterclockwise; the provision stage includes the provision of at least one screw feeder (6) having a spiral blade (7) with a left stroke, and at the material supply stage, rotation of the spiral blade (7) of at least one screw feeder (6) having a spiral blade (7 ) with the left turn, occurs clockwise. - 6 031101 around the axis of rotation (C); and connecting four screw feeders (6) with the drying section (3) of the dryer (1) Venturi, in which the feed openings (8) located between each of the screw feeders (6) and the drying section (3) of the dryer (1) Venturi, located at an angle, constituting essentially 90 °, relative to each other around the central axis (B) of the inner space of the dryer (1) Venturi. - 7 031101 worn to each other around the central axis (B) of the inner space of the dryer (1) Venturi. 11. Installation according to claim 9, characterized in that the means (4) for feeding the material include two screw feeders (6), each of which contains a spiral blade (7) that can rotate around the axis of rotation (C); and two screw feeders (6) are attached to the drying section (3) of the dryer (1) Venturi in such a way that the feed openings (8) located between each of the screw feeders (6) and the drying section (3) of the dryer (1) Venturi, located at an angle, constituting essentially 180 °, relative to each other around the central axis (B) of the inner space of the dryer (1) Venturi. 12. Installation according to claim 9, characterized in that the means (4) for feeding the material include three screw feeders (6) containing a spiral blade (7) that can rotate around the axis of rotation (C); and three screw feeders (6) are attached to the drying section (3) of the dryer (1) Venturi so that the charging openings (8) located between each screw feeder (6) and the drying section (3) of the dryer (1) Venturi at an angle of essentially 120 ° relative to each other relative to the central axis (B) of the interior of the dryer (1) Venturi. 13. Installation according to claim 9, characterized in that the means (4) for feeding the material include four screw feeders (6) containing a spiral blade (7) that can rotate around the axis of rotation (C); and four screw feeders (6) are attached to the drying section (3) of the dryer (1) Venturi so that the charging openings (8) located between each screw feeder (6) and the drying section (3) of the dryer (1) Venturi at an angle of essentially 90 ° relative to each other relative to the central axis (B) of the interior of the dryer (1) Venturi. 14. Installation according to any one of paragraphs.9-13, characterized in that the means (4) of the material supply, intended for feeding the crushed solid material (10) from the source (5) of the crushed solid material to the drying section (3) of the dryer (1) Venturi, include at least one screw feeder (6), having a spiral blade (7) with the right turn; and means (4) of supplying the material, intended to supply the crushed solid material (10) from the source (5) of the crushed solid material to the drying section (3) of the dryer (1) Venturi, include at least one screw feeder (6) having a spiral blade (7) with the left course. 15. Installation according to claim 14, characterized in that said at least one screw feeder (6), having a spiral blade (7) with a right stroke, is connected to the drying section (3) of the dryer (1) Venturi and specified at least one screw feeder (6), having a left-handed spiral blade (7), is connected to the drying section (3) of the Venturi dryer (1), thus, as indicated by at least one screw feeder (6) having a spiral blade (7 ) with the right stroke, and the specified at least one screw feeder (6), having a spiral blade (7) left-handed, made with the ability to feed the crushed solid material (10) into the drying section (3) of the dryer (1) Venturi on the side of the loading opening (8) located between the respective screw feeder (6) and drying section (3) of the dryer (1 ) Venturi, at a greater distance from the central axis (B) of the inner space of the dryer (1) Venturi, than the other side of the loading opening (8) located between the corresponding screw feeder (6) and drying section (3) of the dryer (1) Venturi. 16. Installation according to any one of paragraphs.9-15, characterized in that the axis of rotation of the specified at least two screw feeders (6) are arranged as a mirror image of each other relative to a plane located in the direction of the central axis (B) of the inner space of the dryer ( 1) Venturi. 7. The method according to claim 6, characterized by the connection of the specified at least one screw feeder (6) having a spiral blade (7) with the right stroke, with the drying section (3) of the dryer (1) Venturi and such a connection specified at least one screw feeder (6) having a spiral blade (7) with a left stroke, with a drying section (3) of a Venturi dryer, in which, as indicated, at least one screw feeder (6) having a spiral blade (7) right turn, and the specified at least one screw feeder (6) having a spiral the blade (7) with the left stroke, serves crushed solid material (10) to the drying section (3) of the dryer (1) Venturi from the side of the loading opening (8) located between the corresponding screw feeder (6) and drying section (3) of the dryer ( 1) Venturi, at a greater distance from the central axis (B) of the inner space of the dryer (1) Venturi, than the other side of the loading opening (8) located between the respective screw feeder (6) and drying section (3) of the dryer (1) Venturi. 8. The method according to any one of claims 1 to 7, characterized by the combination of each of the specified at least two screw feeders (6) with the drying section (3) of the dryer (1) Venturi, in which the axis of rotation of the specified at least two screw feeders (6) are located in the form of mirror reflection of each other relative to the plane located in the direction of the central axis (B) of the inner space of the dryer (1) Venturi. 9. A plant for drying crushed solid material (10), such as crushed hydrocarbon solid material, such as bituminous shale, including a dryer (1) Venturi, including a nozzle (2) of the Venturi tube and a drying section (3) fluidly connected to the nozzle (2) Venturi tubes, the dryer (1) Venturi having an internal space that is symmetrical about the central axis (B); and means (4) for supplying material intended for feeding crushed solid material (10) from source (5) of crushed solid material to the drying section (3) of the dryer (1) Venturi, while the dryer (1) Venturi has a section (9) of feeding gas for supplying gas (11) through the nozzle (2) of the Venturi tube of the dryer (1) Venturi to the drying section (3) of the dryer (1) Venturi, characterized in that the means (4) of the material include at least two screw feeders (6), containing a spiral blade (7), capable of rotating around the axis of rotation (C); each of the specified at least two screw feeders (6) communicates with the drying section (3) of the dryer (1) Venturi through the loading opening (8) located between the screw screw feeder (6) and the drying section (3) of the dryer (1) Venturi; Each of the at least two screw feeders (6) is attached to the drying section (3) of the Venturi dryer (1) so that the central axis (B) of the inside of the dryer (1) of the Venturi is not intersected by an imaginary continuation (12) of the axis of rotation C) each screw feeder (6); the loading openings (8) are located symmetrically with respect to the central axis (B) of the inner space of the dryer (1) Venturi; each of said at least two screw feeders (6) is connected to the drying section (3) of the dryer (1) of the venturi so that each of the loading openings (8) is essentially in the same position along the central axis (B) of the inner space dryer (1) Venturi. 10. Installation according to claim 9, characterized in that the means (4) for feeding the material include two screw feeders (6), each of which contains a spiral blade (7) that can rotate around the axis of rotation (C); and two screw feeders (6) are attached to the drying section (3) of the Venturi dryer (1) in such a way that the charging openings (8) located between each screw feeder (6) and the drying section (3) of the Venturi dryer (1) are at an angle of 120 °, preferably at an angle of 90 ° from - 8 031101 FIG. one FIG. 2 θ 7 С λ V — Л — Л — 71 eight IA'WvV l \ A <vV \ A? 1 v_V v__U .__ U__HG WITH ^X 8 FIG. 3 FIG. four FIG. five