RU2650125C1 - Device for purification and recovery of exhaust flue gases - Google Patents

Abstract

FIELD: ventilation.

SUBSTANCE: invention relates to ash collectors and can be used in thermal power plants. In a device for purification and recovery of exhaust flue gases comprising an inlet pipe, a housing, an outlet pipe, a precipitation chamber, the precipitation chamber is provided with a partition wall immersed in the chamber, herewith the lower part of the partition wall immersed in the chamber has longitudinal grooves with a constant pitch, and the inlet gas duct of the device is provided with a water sprinkler in the form of a manifold with vortex nozzles, water into which, under pressure, flows through a pipeline from the screw pump connected to a water collection tank, the said water comes from an overflow window of the precipitation chamber with an adjustable gate through the drainage pipe, herewith in the lower part of the chamber there is a heat exchanger in the form of a tubular coil, and the device is provided with a dehumidifier having a tangential inlet, each of the vortex nozzles comprises a body, and a coaxially arranged swirling insert with an external helical thread and an expanding conical hole inside, wherein the fitting has a cylindrical inlet opening connected to a diffuser, which is made axially symmetric in the body, and in the lower part of the body there is a nozzle arranged axially symmetric to the body and having a two-stage and coaxial to the swirling insert diffuser, the first stage of the diffuser is a continuation of the expanding conical hole made inside the swirling insert, which is made from wear-resistant material, and the second stage of the diffuser is an extension of its first stage, while on its inner conical surface there is a screw-like thread, herewith the conical surface with the screw-like thread of the second stage of the diffuser is made perforated, and in the lower part of the body, coaxial to it, a cylindrical shell is fixed, on which a flow divider is arranged in the form of at least two rods located obliquely to the axis of the nozzle and connected to each other in the lower part, to which a vertically disposed rod is attached, onto which there is a vortex made in the form of a cone with helical blades enclosing the rod with a clearance and resting in the lower part on a thrust located horizontally and perpendicularly to the rod.

EFFECT: increase of the efficiency of resource saving and cleaning of flue gases by increasing the surface of the spray by using a vortex nozzle.

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Description

The invention relates to ash collectors and can be used at thermal power plants.

The closest technical solution to the claimed object is a device according to the patent of the Russian Federation No. 2388518, С02B 1/10, containing inlet pipe, housing, outlet pipe, hopper, irrigation and spray nozzles (prototype).

The drawback of the ash collector is the relatively low degree of resource conservation and flue gas cleaning.

EFFECT: increased efficiency of resource saving and flue gas cleaning by increasing the spray surface due to the use of a vortex nozzle.

This is achieved by the fact that in the device for cleaning and disposal of exhaust flue gases containing an inlet pipe, a housing, an outlet pipe, a precipitation chamber, the precipitation chamber is provided with a separation partition immersed in the chamber, the lower part of the separation partition immersed in the chamber having longitudinal grooves with a constant step, and the inlet gas duct of the device is equipped with a water sprinkler in the form of a collector with vortex nozzles, into which water under pressure enters through a pipeline from a screw pump connected to about with a tank for collecting water coming from the overflow window of the precipitation chamber with an adjustable gate through the drain pipe, and in the lower part of the chamber there is a heat exchanger in the form of a tubular coil, and the device is equipped with a water separator with a tangential inlet, each of the vortex nozzles contains a housing, a nozzle and a coaxially located swirl insert with an external helical thread and an expanding conical hole inside, wherein the inlet has a cylindrical inlet opening connected to the diffuser, carried out axisymmetrically in the casing, and in the lower part of the casing there is an axisymmetrical casing of the nozzle, which is made with a two-stage and coaxial swirl insert-diffuser, the first stage of the diffuser is a continuation of the expanding conical hole made inside the swirl insert, which is made of wear-resistant material, and the second stage the diffuser is a continuation of its first stage, while a helical thread is made on its inner conical surface, and the conical surface The screwdriving of the second stage of the diffuser is perforated, and a cylindrical shell is mounted coaxially to the bottom of the casing, on which a flow divider is installed, made in the form of at least two rods connected obliquely to the nozzle axis and connected to each other in the lower parts to which a vertically located rod is attached, on which a swirl is mounted, made in the form of a cone with screw blades, covering the rod with a gap and resting on the stop in the lower part, laid horizontally and perpendicular to the shaft.

In FIG. 1 shows a diagram of a device for cleaning and utilizing exhaust flue gases, FIG. 2 - frontal section of a vortex nozzle for spraying liquid.

A device for cleaning and disposal of flue gas contains a precipitation chamber 1 (Fig. 1), filled with water to the level of the separation wall 2, immersed in the chamber 1. The lower part of the separation wall 2, immersed in the chamber 1, has longitudinal grooves with a constant pitch. The inlet gas duct 3 of the device is equipped with a water sprinkler in the form of a collector 12 with centrifugal nozzles 13, water into which is supplied under pressure through a pipe 11 from a screw pump 10 connected to a tank 9 for collecting water coming from an overflow window with an adjustable gate (not shown in the drawing ) through the drain pipe 8. In the lower part of the chamber 1 there is a heat exchanger in the form of a tubular coil 5 having an inlet 7 for cold water and an outlet 6 for hot water. The exhaust fan 20 is used to pump purified gas from the pipe 4 through the duct 19 and supply it through the duct 14 to the moisture separator 15 with a tangential inlet 17, and then through the duct 18 to the chimney 16, which is made of plastic, since the temperature of the exhaust flue gases is about 80 ÷ 90 ° C.

To increase the efficiency of capturing the smallest particles of ash in a precipitation chamber 1 filled with water, foam active substances are added to the water circulation system, which contribute to the formation of foam and a more intensive capture of ash particles. The heat of the exhaust flue gases is absorbed by the heat exchanger 5. The collector 12 is made with vortex nozzles (Fig. 2), which serve to increase the spray surface.

The vortex nozzle consists of a housing 21 and coaxially located and rigidly connected with it in the upper part of the fitting 2 with an inlet cylindrical hole 23 connected to the diffuser 24, made axisymmetrically in the housing 21. In the lower part of the housing is located axisymmetric to the housing 21 of the nozzle 25. The nozzle 25 is made with a two-stage and coaxial swirl insert 26, the first diffuser stage 30 is a continuation of the expanding conical hole 27 made inside the swirl insert 26, and the second diffuser stage 31 It is a continuation of its first stage 30, moreover, on its inner conical surface a helical thread is made (shown in the drawing).

The swirl insert 6 is located in the central cylindrical hole 28 of the housing 21 and has external peripheral helical threaded channels 29, and inside the swirl insert 26, an expanding conical hole 27 is coaxially made for supplying liquid from the cylindrical hole 23 made in the fitting 22. The swirl insert 26 fixed in the lower part of the housing 21 through the nozzle 25. The insert-swirl 26 is made of wear-resistant material. The conical surface with a screw-shaped thread of the second stage 31 of the diffuser is perforated.

The nozzle for spraying liquid works as follows.

The fluid enters the housing 21 through the fluid supply channel 23 in the nozzle 22, and then into the central cylindrical hole 28. The fluid begins to swirl in the peripheral channels 29 of the swirl insert 26 and simultaneously moves axially along the expanding conical hole 27. In the nozzle mixing chamber 25, formed by the first stage 30 of a two-stage diffuser, these flows interact with their additional turbulization and crushing to form a finely dispersed phase, and the second stage 31 of the diffuser with a rotor heat threaded inside it enhances the effect of the atomization fluid.

Such a fluid flow at the exit of the nozzle 25 is well disclosed due to centrifugal forces arising from the rotation of the liquid, and is finely dispersed inside the cone-shaped plume due to turbulent flow along the axis of the nozzle 25.

In the lower part of the housing 21, coaxially to it, a cylindrical shell 32 is fixed on which a flow divider 33 is mounted, made in the form of at least two rods 34 and 35 located obliquely to the nozzle axis, interconnected in the lower part, to which are attached a vertically located rod 36 on which a swirl is mounted, made in the form of a cone 38 with screw blades, covering the rod 36 with a gap and resting in the lower part on the stop 37, located horizontally and perpendicular to the rod 36.

With an average diameter of the throttle hole 23, which is in the range of 2.5 ... 3.5 mm, and the pressure supplied through the cylindrical hole 14 of the liquid under a pressure of 6 ... 9 MPa, atomization of 400 to 1000 kg / h of liquid is provided. The nozzle is easy to manufacture and maintain.

Claims (1)

A device for cleaning and utilization of exhaust flue gases containing an inlet pipe, a housing, an outlet pipe, a precipitation chamber, a precipitation chamber is provided with a partition wall immersed in the chamber, the lower part of the partition wall immersed in the chamber having longitudinal grooves with a constant pitch, and the inlet the device’s gas duct is equipped with a water sprinkler in the form of a collector with vortex nozzles, into which water under pressure flows through a pipeline from a screw pump connected to a water collection tank, coming from the overflow window of the precipitation chamber with an adjustable gate through the drain pipe, and in the lower part of the chamber there is a heat exchanger in the form of a tubular coil, and the device is equipped with a water separator with a tangential inlet, characterized in that each of the vortex nozzles contains a housing, a nozzle and a coaxially located insert a swirler with an external helical thread and an expanding conical hole inside, and the inlet has a cylindrical inlet connected to the diffuser The nozzle, which is made with a two-stage and coaxial swirl insert, is the axisymmetric in the housing, and the diffuser is the continuation of the expanding conical hole made inside the swirl insert, and the second diffuser is a continuation of its first stage moreover, a helical thread is made on its inner conical surface, and a conical surface with a helical thread of the second stage diffusely the ra is made perforated, and a cylindrical shell is fixed coaxially to the lower part of the housing, on which a flow divider is mounted, made in the form of at least two rods arranged obliquely to the nozzle axis and connected to each other in the lower part, to which they are vertically attached located rod, on which a swirl is installed, made in the form of a cone with screw blades, covering the rod with a gap, and resting in the lower part on an emphasis located horizontally and perpendicular to the rod th.

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