RU2743913C2 - Slotted louver fly ash collector - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: invention related to boiler manufacture for protection of tubes and tube walls from abrasion during incineration of coals containing abrasive ash. The slotted louver fly ash collector mounted above the inlet of the heat exchange apparatus in the convection section of the gas duct, e.g. economizer of a power boiler, said collector comprising of a row of parallel slats arranged into a grid and mounted in the gas and ash flow. The slats are made hollow, double-walled, arrow-shaped with an open slit on facing the incoming gas and ash flow and impenetrably plugged on the opposite side, half of every slat arrow is angled from the center out in the direction of the flow, the slats are connected to a rod that directs reciprocating motion from an outer oscillator, there are bushings on the ends of the slats in which slats are mounted with possibility for re-angling, on the fly ash collector frame, the inner cavities of the slats are connected through hollow stems with ash collection tanks on the edge of the frame connected in series through ash transporters with outer ash collecting communication lines of the boiler.

EFFECT: technical result of the invention is creation of dynamic stability and deceleration of the fly ash flow into a heat exchange apparatus, separation of significant volume of ash from the incoming gas and ash flow, increased constructability and maintainability of the apparatus.

8 cl, 3 dwg

Description

The invention relates to the field of boiler construction for protection against abrasion of pipes and tube sheets in heat exchangers when burning coal containing abrasive ash in boilers.

Known separation devices that are used to prevent intense erosive wear, containing lamellar louvered dust collectors are simple in design: The blades in such louvers, for example, in VTI devices, are made of angle steel. Depending on the width of the inlet chamber (200-1500 mm), the louvers are recruited from 10-75 blades with a length of 600-4000 mm, which are collected in flat packages placed in the gas duct at an angle of 18-20 ° to each other. The louvers are installed in such a way that one or two suction slots are formed at the end of them. Gas with concentrated dust enters the cyclone from the suction slot [1]. Their disadvantage is the low separation coefficient of dust (ash) from the flowing gas-ash stream - a decrease in the concentration of dust (ash) no more than 8% and large dimensions that prevent the installation of such an ash collector in the vertical shaft of the boiler.

Separation devices are also known that are used to reduce the concentration of dust (ash) in the oncoming gas-ash stream, which are also proposed to be used to prevent intense erosive wear of the heat exchanger connected to them [2]. The invention consists of V and U-shaped troughs installed in the gas duct with an inclination of 45-75 °, their lower ends are located inside the dust (ash) collecting hopper, and the rows of the louvered grill are made by alternating V-shaped and U-shaped troughs and are located with open sides towards each other. The disadvantages of this invention are the large design dimensions of the installation, limiting the scope of their application and the low degree of purification of the oncoming gas-ash flow.

The closest analogue to the proposed invention is a device. [3], which has the design of the working elements of the catcher, made in the form of several rows of rods in the shape of a crescent. The concave surfaces of the rods are directed towards the gas flow. The dust accumulated on the rods is washed off with water. The disadvantage of such a device is the need for water, which is incompatible with its use as a louvered ash collector in the gas ducts of power boilers.

A common disadvantage of the above devices is the insufficiently high reliability of their operation due to the intensification of the wear of structural elements due to high flow rates in the inlet section under the flowing gas ash flow, insufficient efficiency of dust (ash) separation and protection of subsequent elements of heat exchangers with structurally achievable overall dimensions of known devices.

Analogs and selected prototype.

1. Uzhov V.N. Dust control in industry. M. Goskhimizdat, 1962, 184 p. See Figure 7 on page 37.

2. АС 661217 dated 08/10/1977 M. Cl. F27B 21/06. Sintering machine gas outlet.

3. Balabekov O.S. Gas purification in the chemical industry. Moscow: Chemistry, 1991 .-- 256 p. See Figure 5.5 on page 172.

The technical result achieved by the claimed invention consists in creating dynamic stability and deceleration of the ash flow flowing into the heat exchanger, separating a significant volume of ash from the flowing gas ash flow, increasing the manufacturability of installation and maintainability if it is necessary to replace the ash protection elements of the louvered slotted ash collector without dismantling or destroying heat exchange pipes. devices.

The louvered slotted ash catcher, located in front of the inlet part of the heat exchanger in the convective part of the boiler, consists of a number of parallel slats assembled into a grate and installed in the gas ash flow, which are hollow, double-walled and open from the side of the incoming flow - they have slots along the entire length of the section facing to the oncoming flow, assembled on a frame with an inclination to the direction of the gas-ash flow. The tops of the double-walled slats are located in their middle, and both halves of the slats are made with an inclination from the center to the periphery, and at the ends of the slats there are cylindrical bushings that are rotatably attached to the ash catcher frame. Also, a rod is connected to the strips for transmitting reciprocating movements from an external oscillator. The internal cavities of the slats are connected through hollow bushings to ash storage tanks along the edges of the frame, in which auger, belt or scraper conveyors of separated ash are mounted and a vacuum is maintained from the ash collection system of the boiler. As a variant of the execution of the louver slats at the slotted ash collector, the side facing the oncoming stream has a curved surface concave inside the cavity of the blades, and one of the walls of the slats is made higher than the opposite one.

Louvered grilles in a slotted ash collector can be installed one above the other in packages so that the strips of the higher grating are arranged with concave walls in the direction opposite to the concave walls in the lower grating, and along the perimeter of the louvered grate, walls are installed, the height of which does not exceed the height of the louvered grating or the package gratings.

The invention is illustrated by drawings, which do not cover and, moreover, do not limit the entire scope of the claims of this technical solution, but are only illustrative materials of a particular case of implementation:

FIG. 1 Device top view.

FIG. 2 The device is a frontal side view in longitudinal section A-A in FIG. one.

FIG. 3 Device cross-section b-b in fig. one.

Louver slotted ash collector 1 is mounted on a frame 2 over a heat exchanger, for example, an economizer 3, consists of arrow-shaped strips 4, assembled in series into a lattice forming a louver. Each louver bar 4 is made with a symmetrical slope in different directions from the middle and has internal cavities 5, into which the ash-rich part of the gas-ash flow flows through the slots 6 due to the deviation of the incoming flow from its original direction under the action of inertia forces 7. Under the influence of high-frequency vibrations, transmitted from the oscillation generator 8 through the rod 9 to the blades 4, the dust (ash) accumulated in them flows down the inner chutes into the ash collection channels 10, inside which there are auger, scraper or other types of conveyors 12 into the ash collection line of the boiler, which is under vacuum. Each ash conveyor has an electric, hydraulic, pneumatic or other rotary drive 13.

The louvered slotted ash catcher acts as follows: the inflowing gas ash flow 7 striking against the wall of each strip 4, concave or inclined to the direction of its movement, under the action of inertial forces through the longitudinal slots 6, flows into the hollow strips and loses part of the ash that accumulates in the internal cavities 5 of the strips 4 and through bushings 11 at the ends of the slats it enters the ash collection channel 10, where the ash conveyors 12 are constantly raking out into the external ash collection line of the power boiler, which is additionally under vacuum.

The amount of ash in the gas-ash flow after passing through the louver grill is significantly reduced, the direction of flow of the flow onto the tube bundle 3 is turbulized and significantly weakened, which inevitably leads to long-term preservation of the integrity of the structure of the boiler heat exchanger connected in series.

Sources of information

1. Uzhov V.N. Dust control in industry. M. Goskhimizdat, 1962, 184 p. Fig. 7 p. 37.

2. AC 661217 from 08/10/1977 M. Cl. F27B 21/06. Sintering machine gas outlet.

3. Balabekov O.S. Gas purification in the chemical industry. Moscow: Chemistry, 1991 .-- 256 p. Fig. 5.5 on page 172.

4. АС 546363 dated 04/28/1975 M. Cl. B01D 45/08. Louvered separator.

5. AC 29224 dated 05/29/1980 M. Cl. В03С 3/02. A device for separating dust particles from a gas stream.

6. AC 955988 dated 10.10.1980, M. Cl. B01D 45/08. Louvered separator.

7. АС 1136725 А from 25.12.1984, M. Cl. F27B 21/06. Sintering machine gas outlet.

8. Patent RF 2305598 dated 11.11.2005, M. CL. В03С 1/00. Separator.

Claims (8)

1. Louver slotted ash collector installed in front of the inlet part of the heat exchanger in the convective part of the gas duct, for example, the economizer of an energy boiler, consisting of a series of parallel strips assembled into a grid on the frame and installed in the gas ash flow, characterized in that the strips are hollow, double-walled, arrow-shaped with an open slot on the side of the gas-ash flow, and impenetrable plugged from the reverse side, half of the boom of the slats are inclined from the center to the periphery, in the direction of the flow, a bar is connected to the slats to transmit reciprocating movements from the external oscillator, at the ends of the slats there are bushings, in which the strips are fastened with the possibility of changing the slope on the ash catcher frame, the internal cavities of the strips through hollow bushings are connected to ash-collecting containers along the edges of the frame, which are connected in series through ash conveyors to the external ash-collecting communications of the boiler. 2. Louver slotted ash collector according to claim 1, characterized in that in the ash storage tanks along the perimeter of the frame, screw, belt or scraper conveyors of separated ash are mounted. 3. A louver slotted ash collector according to claim 1, characterized in that a vacuum is created in the ash storage tanks from an external source connected to the ash collection lines of the boiler. 4. Louvered slotted ash collector according to claim 1, characterized in that the side of the strips facing the oncoming stream may have a curved surface, concave inwardly in the cavity of the strips. 5. Louver slotted ash collector according to claim 1, characterized in that the strips are double-walled, and one wall has a greater height than the opposite one. 6. Louvered slotted ash collector according to claim 1, characterized in that the louvered lattice of the slats are installed one above the other in packages so that the slats of the superior lattice are arranged with concave walls in the direction opposite to the concave walls in the lower lattice. 7. Louver slotted ash collector according to claim 1, characterized in that walls are installed along the perimeter of the louvered grate, the height of which does not exceed the height of the louvered grate or a package of louvered gratings. 8. Louvered slotted ash collector according to claim 1, characterized in that the cross-sectional area of the strips in each package does not exceed the total cross-sectional area of the outer row of tubes of the heat exchanger.

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