UA73317C2 - Device for separation of solid particles from gas flow - Google Patents

Abstract

Invention relates to the equipment for separation of solid particles from gas flow in metallurgical, chemical, construction fields of industry and it can be used for the dust removal from gases, and for classification according to the size of polydisperse materials. Device has the convex flue duct with the branch pipes for inlet and outlet of gas flow and reception bunker for the solid particles. The flue duct is executed in the form of external housing, bend out along the radius, with a pipe located inside it, axis of which is parallel with the axis of housing and is displaced toward the branch pipe of the introduction of gas flow, in this case, in the pipe a slotted opening is executed, and the branch pipe of the outlet of gas flow is connected with the end of pipe. The ratio of the sectional area of pipe to the area of section of slotted opening is equal or less than 1. Slotted opening has a visor mounted on the pipe, in this case, the width of visor is larger than the radius of pipe and it is less than the radius of housing. The sectional area of branch pipe for the introduction of gas flow relates to the sectional area of the inlet of bunker for solid particles at the point of its junction with the lower part of the housing as 1: (2-12).

Description

Description of the invention

The invention relates to the equipment for separating solid particles from the gas flow in 2 metallurgical, chemical, and construction industries and can be used for dust removal of gases, as well as for particle size classification of polydisperse materials.

Known is the GDR patent Mo208304 dated 02.05.1984, which describes a device for heating or cooling fine-grained material while simultaneously separating the material from the gas stream, which has an inlet channel tangentially connected to the conical or cylindrical part of the heat exchanger. The lower part of the heat exchanger 70 is included in the separator, the upper part of which has a cylindrical shape, and the lower part has a conical shape. The output channel is placed tangentially on the cylindrical part.

The disadvantages of the device are low performance due to a large increase in resistance when a dusty gas stream passes through it; rather rigid design, which requires mandatory installation of compensators of thermal expansion; relatively low efficiency; inability to ensure classification of captured particles according to their 12 size.

From the British patent Mo2079190 dated 07.07.198 Or. known apparatus for separating solid particles from a gaseous medium, which contains a cyclone, the lower part of which is in the form of a conical hopper, tapering downwards, which forms a lower collecting chamber and has an outlet connected to the discharge pipe through a valve. The intermediate part of the cyclone has the shape of a cylinder and is tangentially connected to the intake pipe. The upper part has the shape of a truncated cone. The gas outlet pipe passes coaxially through the upper wall.

Near the upper end of the upper part are two diametrically opposed trapping chambers placed tangentially. Solid particles, moving with gases in spirals, are removed through channels with valves.

Most of the particles descend in spirals, pressing against the cylindrical and conical walls by centripetal forces, into the lower part of the apparatus and are discharged through a pipe with a valve. with

The disadvantages of the device design and its operational qualities should include: Ge) - due to the countercurrent movement of gas and solid particles, the design allows the formation of harmful vortices, which contribute to the increase in the resistance of the device and the decrease in the degree of particle capture, - the bulkiness of the construction when used on units of large unit capacity due to limited (5m/s) gas velocity per section of the apparatus, which causes an increase in capital costs during construction; c - the impossibility of operation on hot gases without the use of a system of thermal expansion compensators. "--

From the patent of the Russian Federation Mo2126723 dated 07.08.97. a known device for separating solid particles from the gas flow, made in the form of a curved part of the gas duct with a nozzle for removing the separated solid particles to the outer surface of the curved part of the gas duct and protrusions in front of this nozzle on the inner surface of the curved part of the gas duct. The curved part of the gas duct has one turn and is in one plane, creating a field of action of outward forces on solid particles in the gas flow. in

The ledges, made on the inner surface of the gas duct, press solid particles to the outer surface of the gas duct, which are removed through the nozzle for the removal of separated solid particles.

The disadvantages of its design include: "- the bulkiness of the construction, when used on units with a large unit capacity due to the large C 70 value of the radius of curvature of the curved part of the gas duct, c - an increase in overall dimensions of devices that use the principle of separation of gas and solid phases according to

Because of centrifugal forces, reduces the efficiency of their dust collection and increases their resistance, - the device has a limitation of the radius of curvature of the curved part of the gas duct - no more than four conventional diameters of the gas duct, since the dimensions of the device and capital costs for its construction further increase, - access complications for internal inspection and repair without reducing its efficiency. and A device for cleaning gas from suspended particles (СН Мо570203) under the action of centrifugal forces is also known. In this device, the incoming flow of dusty air through the inlet pipe, divided into two parts by a plate, enters the curved part of the housing, where the flow is given centrifugal acceleration. Separation occurs due to centrifugal forces. -k 70 Purified gas is released into the atmosphere through the slit-like opening of the outlet nozzle. Dust particles and part of the gas flow through the guide plate enter the dust hopper. Another tm deflection plate is installed in the hopper. Dust particles fall into the tray and are periodically removed from the device. The gas flow from the bunker is discharged through the filters to the inlet pipe.

This patent is accepted as a prototype. 52 Among the shortcomings of the device, in addition to the shortcomings inherent in the patent of the Russian Federation Mo2126723, should be attributed:

GF) - the curved section of the device has a constant cross-section, so the outgoing gases have a high speed when entering the outlet nozzle, which contributes to increasing the aerodynamic resistance of the device and reducing its efficiency; the slit-like opening is organized in such a way that part of the dusty gas from the curved section will enter the outlet pipe; 60 - the circulation of purified gas is organized between the dust hopper and the inlet pipe, which increases the load on the device; - the removal of captured dust is carried out in a periodic mode, which reduces the performance of the device and makes its use for cleaning waste gases of continuous processes problematic. Increasing the size of the hopper in order to increase the working time will lead to a significant increase in the price of the device; because - the use of filters involves their maintenance and periodic replacement. If the gas being cleaned is very dusty, the filters will quickly clog, which reduces the service life of the device before repair. Installation of automatic filter regeneration devices will complicate the device and make it more expensive; - the nature of the movement of the circulating gas is I-shaped, which leads to an increase in aerodynamic resistance.

The technical objective of the invention is to increase the efficiency of cleaning gases from solid particles, reduce the size of the device, and make it more accessible for maintenance and operation.

The technical result is achieved by the fact that the device, which has a gas passage in the form of an outer casing curved along the radius, with a nozzle for introducing a gas flow, a pipe with a slit-like opening, placed 7/o inside the casing, the axis of which is parallel to the axis of the casing, a receiving hopper for solid particles, the nozzle for the output of the gas flow, connected to the end of the pipe, is made in such a way that the axis of the pipe is shifted towards the nozzle for the introduction of the gas flow, while the cross-sectional area of the nozzle for the introduction of the gas flow refers to the cross-sectional area of the inlet of the hopper for solid particles in place of its connection with the lower part of the case as 1:(2--12).

The ratio of the cross-sectional area of the pipe to the cross-sectional area of the slit-like opening is equal to or less than one.

The slot-shaped opening is equipped with a visor mounted on the pipe, the width of the visor being greater than the radius of the pipe and less than the radius of the body.

The cross-sectional area of the nozzle for the introduction of the gas flow refers to the cross-sectional area of the solid particle hopper inlet at the point of its connection with the lower part of the housing as 1:(2-12).

The technical essence of the invention is explained by the drawings, in which: Fig. 1 shows the device in the form of a gas duct curved in one turn, and Fig. 2 shows the view along arrow A.

The claimed device consists of a nozzle 1, which has ledges 2, a body of the gas duct C, a pipe 4 with a slit-like opening 5, a visor 6 fixed on the pipe 4, located under the gas duct C of the receiving hopper 7 with a closing device 8. Pipe 4 has nozzles 9 and 10. Ha

The claimed device works as follows:

A gas flow with solid particles suspended in it is sent to the inlet pipe 1 of the device, for example, gases from calcination furnaces in alumina production.

Springboard-like ledges 2, the gas flow is thrown to the outer wall of the body of the gas duct 3, which is curved along the radius. When the gas-dust flow passes along the curved area, under the action of centrifugal forces, separation of solid particles and the gas flow occurs.

The dust-free gas stream enters the pipe 4 through the slit-like opening 5 and through the nozzles 9 and 10 it is sent for further cleaning. The visor b helps to reduce dust particles passing through with exhaust gases.

Dust particles through the hopper 7 with the closing device 8 enter for further processing or into the container o c5 of the commercial product. rch-

The radius of curvature of the curved part of the outer body of the gas duct does not depend on the conventional diameter of the gas duct, but is determined only by the diameter of the pipe for removing the dust-free flow and the gap between two surfaces curved in one turn: the inner surface is pipe 4 for the removal of dust-free flow and the outer surface is the nozzle 1 " for the introduction of a gas flow with solid particles and the curved body of the gas duct 3.

Another parameter of the gas duct - its length, is determined by the optimal design, in which the high efficiency of the completion of the process of separation of solid and gas phases is guaranteed at gas flow velocities in the range of 2-16 bm/s, depending on the granulometric composition of solid particles and their concentration in gas flow.

On this path in one turn at the optimal speed of the gas flow, solid particles manage to be pressed under the action of external forces to the inner surface of the outer casing - I of the gas duct C, which is curved in one turn, which is necessary for their removal through the receiving hopper 7 with the closing element 8 for unloading . o Inside the curved part of the gas duct there is a pipe 4 for removing the dust-free gas flow. Along its entire length, the pipe has a slit-like opening 5 for introducing a dust-free gas stream. The area of the hole 20 of the slit-like opening 5 is equal to or greater than the area of the cross-section of the pipe 4 for removing the dust-free gas flow. At the same time, a constant speed of the gas flow is maintained, or, if the design of the device allows, the speed is reduced, which accordingly reduces the resistance of the system and energy consumption.

If the area of the slit-like hole 5 is smaller than the cross-sectional area of the pipe 4 for the discharge of the dust-free gas flow, then with the increase in the speed of the gas flow in the hole, the hydraulic resistance of the system and energy consumption will increase.

The hole on the pipe 4 for removing the dust-free gas flow is located in its lower part in such a way as to increase the angle of rotation of the gas flow, and, therefore, to increase the efficiency of the separation of solid and gas phases. To accelerate the separation of solid particles from the gas flow and to press the particles to the outer surface of the gas pipeline body, springboard-like ledges 2 can be installed: the first - in the direction of movement of the gas flow at the entrance to the gas pipeline, and the second - at the beginning of the bend of the gas pipeline body.

To increase the efficiency of the separation of solid and gas phases, a visor 6 is installed on the pipe 4 to remove the dust-free gas flow in front of the slit-like opening 5.

Visor 6 reduces the probability of solid particles jumping with gases and helps to change the direction of particles moving in the gas flow. Visor b is a barrier that a particle moving by inertia at a radius of 65 Curvature cannot overcome. This increases the efficiency of dust cleaning. When the width of the visor 6 is less than the radius of the pipe 4, the hole 5 does not completely overlap, which does not provide sufficient protection against the passage of particles. When the width of the visor 6 is greater than the radius of curvature of the flue C, the resistance of the system increases, especially if the distance between the edge of the visor b and the opposite wall of the flue is less than the gap of the slit-like opening 5 in the pipe 4 for removing the dust-free gas flow.

The pipe 4 for removing the dust-free gas flow has one or two nozzles 9 and 10 for removing this flow, connected to the ends of the pipe 4.

The ratio of the cross-sectional area of the nozzle 1 for the introduction of the gas flow to the cross-sectional area of the inlet of the reception hopper 7 for solid particles at the point of its connection with the lower part of the gas duct body C is set as 1:(2 -12). This ensures effective cleaning of the gas stream from solid particles. When the ratio of these areas is less than 1:2, the efficiency of separating solid particles from the flow decreases sharply, and when the ratio of areas is more than 1:12, in addition to reducing the efficiency of separating solid particles, capital investments increase.

The application of the claimed device made it possible to perform effective cleaning of waste gases from large particles and reduce the load on the bag filter with small capital costs. Thus, 7/5 increased the efficiency of the bag filter, increased the service life and reduced operating costs.

Ah-ah

Z o ka i i u z / Z

M 4 Z

Dudyk Z dr. A in sch

What and what. ih o tr Y Y i 2 | i LV U ke r I I 8 ih t.i This I I. PO he s ra

And D Z

She and: her and - ! , and ! im 179 in -

And N

OK in so she shk u

I am

Yi y y poh Ge)

I (EI b, / Ni H : her t

N' N

Zo bopurt pera tp- i dity titettroprdvntt tin dat v. : ; ' her

Ii x u y 1 rai y ! . y t /x Х И Я " y - her s ' / y : :" Я y - - И Edennihg a -8 (95) их

Mom what - 50 'what

FIG has) 60 b5

AND

And bake M sh. and.

More. : 4

Z o I r v : I 10 zhitt ta sina sha iz ' I i7 z y |! and and ! that P! ddrt 5 amotkoteoniot rr and in en you prov sf shchi ' I -6 . And her sewing. ; : - Sh ' iy 7 1 She Sun ' 7

Sho mk , rmy which is -7

Mch t r mon pet ' ' s o

B Fri Sat Thu --

And -7 and - neni ryti, : so 1 (ze)

FIG. 2

Claims (2)

The formula of the invention "- c 1. A device for separating solid particles from a gas flow, which has a gas duct, made in the form of an external housing curved along the radius, with a nozzle for entering the gas flow, a pipe with a slit-like "" opening, located inside the housing, the axis of which is parallel to axis of the housing, a receiving hopper for solid particles, a nozzle for removing the gas flow, connected to the end of the pipe, which differs in that the axis of the pipe is shifted towards the nozzle for the introduction of the gas flow, while the cross-sectional area of the nozzle for the introduction of the gas flow is to the cross-sectional area of the inlet opening of the hopper for solid particles at the point of its connection with the lower part of the body as 1: (2-12). 2. The device according to claim 1, which differs in that the ratio of the cross-sectional area of the pipe to the cross-sectional area of the slit-like opening is equal to or less than unity. tsu Z. The device according to claims 1 or 2, which is characterized in that the slot-shaped opening is equipped with a visor mounted on the pipe, while the width of the visor is greater than the radius of the pipe and less than the radius of the body. that the Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 7, 15.07.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. name) 60 b5