RU2063787C1 - Apparatus for gas stream purification - Google Patents

Abstract

FIELD: ecology and gasses purification is exercised directly at exhaust tube at last stage of technological purification process. SUBSTANCE: apparatus has chamber partially filled with solution of chemical compounds for gas stream purification, air delivery aggregate and made inside chamber spiral-shaped shell and blind settling pocket, slime discharging and gas removing pipes, communicated accordingly with slime settler and working space of spiral shell. Gas purification system through gas-drops separator is directly connected with exhaust tube. EFFECT: improved purification. 3 cl, 5 dwg

Description

 The invention relates to the field of ecology and can be used in the purification of process gases and air from coal dust directly from the exhaust pipe at the last stage of the production process.

A device for wet cleaning a gas stream, in which gas is irrigated with liquid in the first stage, and then flipped in a horizontal plane, is cleaned and exits into the chimney [1]
The disadvantage of this device is the complexity of the equipment, lack of efficiency, high water consumption and unreliability in operation.

Closest to the invention is a device for cleaning a gas stream containing a chamber partially filled with sludge-settling liquid, divided into an inlet and outlet section by a wall and made in the outlet section with a spiral shell, side pipes, droplet separator, agent dispenser [2]
In the known apparatus, a low quality of cleaning is observed, and the capture of flue soot is ineffective because of its poor wettability and sedimentation in the sludge-precipitating liquid.

 The technical result of the invention, the possibility of placing a device for cleaning the gas stream at the chimney and increasing the degree of purification of the gas stream.

 The specified technical result is achieved in that in a device for cleaning a gas stream containing a chamber partially filled with sludge-settling liquid, divided into an inlet and outlet section by a wall and made in the outlet section with a spiral shell, side pipes, a droplet separator, an agent dispenser, the spiral shell has an internal a groove, and at the end a muffled sedimentary pocket with sludge pipes, while the agent dispenser is made in the form of an air supply unit connected to an ejector, connected in the outlet section with bubbled perforated pipes immersed in liquid at the perforation site and oriented with open outlet ends into the cavity of the spiral-shaped shell, the droplet separator is communicated with the shell cavity through the branch pipes tangentially connected to the droplet separator, and the separation wall is installed vertically and made with the upper opening, the droplet separator is equipped with a spiral-shaped swirl of double lattice ribbons with an interlattice cavity filler in the form of an adsorbent, and agent used as a metered air mixture dosed in portions powdered lime.

 With a large volume of gas flow coming from the chimney, the receiving chamber expands, and the spiral shell with a sedimentary pocket is made by a set of sections docked together in the form of car tires, with a cutout at the bottom of the chamber.

 In FIG. 1 shows a device for cleaning a gas stream, a General view in section, in FIG. 2 is a top view of FIG. 1; FIG. 3 is a variant of the device; FIG. 4 is a node 1 of FIG. 3; FIG. 5 is a general view of a droplet separator (in section).

 A device for cleaning a gas stream contains an inlet section 1, a chamber 2 with a vertical reflective wall 3, a spiral-shaped shell 4 with an internal groove 5, a sedimentary pocket 6 with a blind wall 7, sludge discharge 8 and gas outlet pipes 9, a liner 10 overlapping the internal groove 5 of the pocket, a fan 11, an agent dispenser in the form of an air supply pipe 12 connected to an ejector 13, bubble tubes 14 with small holes 15, side chamber pipes 16, connecting pipes 17, a droplet separator 18, an outlet section 19, while a droplet separator with abzhen helical swirler 20. From the binary grating strips filled in the cavities of the adsorbent and as a dosing agent used air mixture dosed in portions powdered lime.

 The operation of the device is as follows.

 The gas and dust stream enters from the chimney through the inlet section 1, which is perpendicular to the surface of the solution of chemical compounds in the chamber 2, to the reflective wall 3 with the upper opening 21 and to the outlet section 19, where most of the gas stream is sucked through the double cone funnel 22 of the ejector 13 into a narrowed ejector part 23 of the air supply pipe 12, extending from the fan forcing the fan traction 11, followed by supply through the perforated pipes 14 to the reflective outer wall of the output section 19 and into the cavity with WASHING shell 4.

 Pipes 14 are located at the upper edge of the liquid surface with the exit of gas bubbles through the liquid and the formation of an aerosol curtain between the lower part of the spiral shell with a settling pocket and the level of the liquid surface.

 Passing at high speed along the end wall of the outlet section 19 into the inner cavity of the spiral shell 4 through the groove 5, the dust-gas mixture is twisted and, due to centrifugal force, is discarded to the inner wall of the spiral shell with the flow into the settling pocket 6, where the flow rate is quenched by the blank wall 7. B pocket 6 there is an intensive compaction of dust particles as a result of their collision with each other by the force of the gas-air flow, there is a condensation of vapor dust-gas flow, the resulting condensate and drops and liquids together with dust particles flow down the walls of the pocket 6 into the sludge drain pipe 8 and into the sludge collector, and the cleaned gases are discharged through the openings in the gas outlet pipe 9 upward above the insert 10 into the middle of the spiral shell 4. A repeated partial capture of gas by a vortex flow with circular circulation , cleaning and going out through the side nozzles 16, chambers 2, through the connecting pipes 17 to the gas droplet separator 18 with the swirler 20 inside.

 The gas stream in the cavity of the shell 4 forms a vortex with vigorous mixing of the gas with drops of liquid and lime powder. The alkaline reaction of the medium promotes the absorption of sulfur dioxide and nitrogen oxides.

 The swirler 20 is made in the form of a double lattice tape with crushed magnesite (adsorbent 24) inside it and twisted around its own axis of symmetry. There, additionally, gas purification with a liquid droplet separator takes place due to centrifugal force and passage through pieces of magnesite.

 The device for gas purification provides circulation and reuse of fluid. Trapped impurities are deposited in the sludge collector, from where they are easily sent for disposal.

 When carrying out dust collection and chemical gas cleaning processes, the choice of an irrigation fluid through which the cleaned gas stream is driven in this device may practically not affect the operation of this device.

 The device is applicable for cleaning from abrasive, graphite, asbestos, cement dust, as well as in extinguishing a gas flame when it is driven through liquefied nitrogen while supplying inert gases by a fan to the chamber. YYY2 YYY4

Claims (3)

 1. A device for cleaning a gas stream containing a chamber partially filled with sludge-precipitating liquid, divided into an inlet and outlet section by a wall and made in the outlet section with a spiral shell, side nozzles, a droplet separator, an agent dispenser, characterized in that the spiral shell has an internal groove, and at the end, a muffled sedimentary pocket with sludge pipes, while the agent dispenser is made in the form of an air supply unit connected to an ejector placed in the outlet section and communicated with bubble perforated pipes immersed in liquid at the perforation site and oriented open outlet ends into the cavity of the spiral shell, the droplet separator communicates with the shell cavity through lateral pipes tangentially connected to the droplet separator, and the dividing wall is installed vertically and made with the upper opening.  2. The device according to claim 1, characterized in that the droplet separator is equipped with a spiral-shaped swirler of double lattice ribbons with an interlattice cavity filler in the form of an adsorbent.  3. The device according to paragraphs. 1 and 2, characterized in that as the dosing agent used a mixture of air with dosed portions of powdered lime.

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