SU1071063A1 - Grate cooler - Google Patents

Description

The invention relates to the production of building materials, in particular to the technique of cooling loose materials in the grate coolers of cement production, and can also be used in non-ferrous metallurgy.

A grate cooler is known, comprising an air distribution grill made of grates with openings for the passage of air.

A disadvantage of the known refrigerator is the low efficiency of heat exchange and the increased consumption of cooling air due to its uneven distribution over the lattice width.

The aim of the invention is to increase the degree of cooling by increasing the uniform distribution of the cooling air.

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The goal is achieved by the fact that in the grate cooler containing an air-distributing grate of grates with openings for air passage, the grate is made with a live cross-section of openings decreasing from the center to the periphery, and the ratio of the live cross-section of the openings of the grates located in the peripheral areas and in the central zone is 0.20, 8i and the width of the peripheral portions is 0.06-0.30 lattice width.

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FIG. G. Image transverse; refrigerator cut; fig 2 - .to

with the same kind of plan.

The refrigerator 1 is connected to the rotary kiln 3 via the connecting shaft 2.

The refrigerator is equipped with a nozzle 4 for supplying cooling air under the air distribution grill 5 comprising grate 6 and 7 with openings 8 for air passage. A drive (not shown in the drawings) serves to provide reciprocating motion of the grid bars. The grate 6 of the peripheral portions of the grate 5 have a reduced central part compared to the grate 7 of the central part; the cross section of the grate openings On both sides of the air distribution: the lattice 5, there are fixed platforms 9, and in the loading end of the reglet 5 there is a plot 10 that tapers towards 1 furnace stove 3, the grate cooler is working 5 5 5 m az o m. When the furnace is covered, 3 hot material passes through the connecting shaft 2 to a repelling type grid 5, made of alternating mobile and Fixed rows of grates with openings for air passage. The moving rows of the grates make a reciprocating motion with the help of a drive. The air is blown by the fan through the nozzle 4 through the grate 5; passage: through the holes 8 in the grill 5 and the hot material, the air is heated; the most heated air from the loading part of the refrigerator through the shaft 2 is directed to the burning of tops in the furnace 3. The material from the furnace 3 enters the narrow jetter on the fixed surface of the layer in the shaft 2 and scatters along the surface of the forming slope, The initial section 10 of the grid 5, which narrows towards the loading horse, ensures that the working surface is completely covered by a layer, which prevents leakage of air through the peripheral zones free from the layer. The presence of fixed platforms 9 on both sides of the lattice ensures the contact of the layer on the grid with the immobile layers of the same material on the platforms, which excludes a carriage. spirit in the near-wall areas where the singing has the highest vapor level. When material is poured from the rotary kiln, the polydisperse material is segregated, the largest particles are concentrated in the peLueTicH zones, the most I 3 are in the central zone of the lattice. As a result of the greater height of the layer and smaller particle size in the central zone compared to the peripheral zones of the lattice, the aerodynamic resistance of the layer in the central zone is significantly higher than in the peripheral zones (at equal air velocity). Reducing the living cross section of the peripheral zones of the lattice increases its aerodynamics. Data resistance in these zones compared with the central zone “Combination of greater aerodynamic resistance of the peripheral zones of the lattice with less resistance of the layer of material in these zones. This makes it possible to equalize the total resistance of the lattice and the layer of the periferddanny zones and the central zone, i.e. aerodynamic resistance but the width of the refrigerator. This ensures the same speed of air movement across the lattice width through the material layer. As a result, air leakage through the peripheral zones decreases, its flow through the central zone increases, which intensifies heat exchange, increases the uniformity and degree of cooling of the material, reduces the flow of cooling air. .. the reduction of live cross-section of grates in the peripheral and central zones is 0.2-0.8. With a ratio of less than 0.2, the lattice resistance increases excessively, the air flow through the peripheral zones decreases, and the cooling of the material at the periphery of the layer deteriorates. When this ratio is more than 0.8, the necessary alignment of the total resistance of the lattice and the layer across the width of the refrigerator is not achieved, most of the air passes through the peripheral zones due to their low resistance, which leads to a decrease in the degree of cooling of the material; excessive air consumption, burnout and exit from the grate of the central zone. The best results are achieved when the specified ratio is 0.4-0.6. The width of the peripheral sections of the lattice with a reduced live section is 0.06-0.30 of the lattice width. When the ratio is less than 0.06, the width of the peripheral layers of the material with a reduced resistance of 1m is much larger than the width of the peripheral section of the lattice with a reduced living cross section, as a result of which the total resistance of the lattice and the layer is not equalized and the air flow through the peripheral zones increases, it deteriorates cooling of the material in the central zone. At a ratio of more than 0.3, a significant part of the lattice has an increased resistance even in an area close to the central zone where the layer resistance is high enough. In 0636, the performance of the fan decreases, the air consumption decreases below the required level, and the cooling of the material deteriorates. The best results when the value of the specified ratio is 0.15-0.2. The use of the present invention reduces the temperature of the outgoing material as well as the grates, increasing the temperature of the air supplied to the furnace, i.e. increases the service life of grates, reduced fuel consumption sintering.

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Claims (1)

GRAVER REFRIGERATOR containing an air distribution grill made of grates with openings for air passage, characterized in that, in order to increase the degree of cooling by increasing the uniformity of the distribution of cooling air, the grille is made with a living section of the openings decreasing from the center to the periphery, and the ratio of living the cross-sections of the grate openings located in the peripheral sections and in the central zone are 0.2-0.8, and the width of the peripheral sections is 0.06-0.3 lattice widths.