SU1112212A1 - Shaft cooler - Google Patents

Abstract

MINE REFRIGERATOR for lumpy material containing a casing with a shaft enclosed in it for passage of material limited by louvre grilles forming a cavity for the removal of heated air from the casing walls, divided into zones along the height by funnel-shaped branch pipes with flashing lights installed in them, air beams for supplying air loading and unloading device, characterized in that, in order to improve the efficiency of the refrigerator by improving the aerodynamic and thermal conditions, divided into upper and lower zones with a ratio of heights of 2: 1, connected by a transition section, made in the form of a truncated pyramid, with a large base facing the upper zone, and a parallelepiped adjacent to its smaller base, equal to 0.5-0.8 sections of the mine, and a height equal to 0.5-1.0 distances between the beams in the upper and lower zones of the mine, and the distance between the beams in the zone boundary is 1.5-2.5 times the distance between the other air bridges,

Description

1 Invention oTHof.siTCH to heat MeHiihiM devices for cooling and lump or granular material after firing ;; can be used with black u tllypr and l, (; KCIH npOMbniuitfiiHt cTH and Gyrom, p.: easyPI strontermatiya-log, iLai; pn-.Op ,, -a ppDDa-ing furnaces. Known also: lion with overheads on the top of the cinirjy, with; the observant two side walls of the mine in the form of a louvered grille, h ;; key (M1Ie P to the ear, between stens; cotognio and the mine form isoji.-CTb, the outlet, and air from the mine, divided into two zones by height idteramR, air beams, pacfiojioKi HHbif-mine in a staggered order. The disadvantages of this hot spot are the violation of the gas-dynamic mode cold, peri one way of unscrewing the pibers to reset the py.ch., liepaiuioMepHocTb cooling of the material due to the different aerodynamic resistance of the layer on the right and left of the air beams. , 1i -: mi with casing stitches according to: n:; sti for air extraction and gretoto air, separated by red zones in the height zone of the funnel-shaped footings with established values for them, with flashing valves - 5 air beams for air supply, equal to However, when working from} 5 of this refrigerator, air flows from the upper hole to the lower or vice versa through the layer of material and the adjacent air channels for air extraction, which reduces the efficiency of the refrigerator due to a decrease in the quantity or by a decrease in the temperature of the heated air supplied to the furnace for burning fuel. The aim of the invention is to increase the efficiency of the cooler by means of aerodynamic and thermal conditions. This goal is achieved by the fact that in a shaft pit for bulk material, there is a Kouzhukh with a shaft of the passage of IA material enclosed in it, bounded by louvres of gratings (emitting C (i cavity casing for separating); i from the air, the pipelines, the fuels of the funnel-shaped pipes - with flashing lights installed in them, the air beams for the air supply, the charging and unloading device, the mine is divided into the upper and the with a ratio of heights of 2: 1, connected by a transition section, in a truncated pyramid, facing a large base to the upper zone, and adjacent to its smaller base 11HJO 7 a p ally e py l with n, and a cross section, 0.5-0.8 cross sections, pyahty, and height equal to 0.5-1.0 the distance between the air beams in the upper and lower zones of the mine, and the distance between the air beams on the grappts zones is 1.5-2.5 the distance between the other air beams. the area up leads to a deterioration in the cooling of the bouquet, to an increase in the foot from the holot; the needle into the rotary kiln of small and) 1К1кп - th iz ty. The displacement of the transition section leads to a decrease in temperature T; heating in, oz, ear, I enter; tsgo on burning G5O rotating pech., facciOHJiHt: in height between the air; J: J beams, closest to the transition section, is 1.5-2.5 distances between. the remaining beams of the upper and lower zones of the refrigerator. Reducing the distance in height between the air beams closest to the transition section, less than 1.5 the distance between adjacent beams of the upper and lower zones leads to ifapyperm of the aerodynamic mode of the refrigerator, and increasing this distance more than 2.5 leads to deterioration of lime cooling and increase in the overall dimensions of the refrigerator, which equally reduces its efficiency. FIG. 1 shows a refrigerator; vertical}; FIG. 2 is a section L-A of FIG. 1; The mine cooler includes a vertical shaft divided by lower 1 and upper 2 zones in height in the ratio of 1: 2 by transition section 3, blind15; 1, that grid is concluded 3

into the casing 5, and has airtight tubular beams 6, evenly located in the upper and lower zones of the mine on its vertical axis. Ufo ch 3 is made in the form of a truncated pyramid, the smaller base of which faces the lower zone of mine 1 and passes into a parallelepiped, the cross section of which is 0.6 of the mine cross section, and its height is equal to 0.8 m distance installed by air in the upper and lower zones beams.

The distance between the air beams closest to the transition section is 2.0 distances between the remaining air beams of the upper and lower zones of the refrigerator shaft.

Cavities for bleeding air are divided into the upper 7 and lower 8 zones with air inlets 9, air inlets, funnel-shaped air inlets 10 with flashing lights connected to the discharge device 11 of the refrigerator.

Mine refrigerator works as follows.

Lump or granulated material, lime lime, from the rotary kiln continuously enters the refrigerator shaft, successively filling the lower 1 and upper 2 zones.

When the unloading device 11 operates, under the influence of gravitational forces, the layer of lumpy material in the mine is constantly lowered.

The cooling air is supplied to the layer of material through air tubular beams 6, evenly spaced in the upper and lower zones of the shaft on its vertical axis. The air supplied to the upper 2 zone of the refrigerator shaft, heated to a high temperature, through the upper

12212. 4

the air cavities zone 7 enters the rotary kiln for burning fuel. The air supplied to the lower 1 zone of the mine, after the pre-cooling 5, does not flow a layer of material into the lower 8 zone of the air cavities and is directed through the pipes 9 for cleaning and discharge.

With the passage of materials through

0 a shaft in the region of the transition section 3, the material layer is compacted due to the pressure of the upper layers, which prevents air flow from the upper zone to the lower (or vice versa)

5 through a layer of material. In addition, the clamp closes the louver grille, which prevents the passage of air through it through the shortest path.

0 Increasing the height of the distance between the air beams closest to the transition section eliminates material sticking and reduces resistance to material passage.

5 in the transition area.

The advantages of the proposed shaft cooler compared to the known one are that, by dividing the mine into two zones, the transition section and increasing the distance between the air beams closest to the transition section, the aerodynamic and thermal conditions of the refrigerator are improved due to the elimination of air flows from one zone to another; which leads to an improvement in the thermal conditions of the main technological unit, such as a rotary kiln.

The expected effect from the use of the proposed invention is about 50 thousand rubles. per year per rotary kiln.

five

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Fig 2

Claims (1)

MINING REFRIGERATOR for lump material, comprising a casing with a shaft enclosed therein for passage of material limited by louvres, forming cavities with walls of the casing for taking out heated air, divided into height zones by funnel-shaped tubes with flashing valves installed in them, air beams for air supply, loading and unloading devices, characterized in that, in order to improve the efficiency of the refrigerator by improving the aerodynamic and thermal conditions, the mine section Lena to the upper and lower zones with a height ratio of 2: 1, connected by a transitional section made in the form of a truncated pyramid, facing a large base to the upper zone, and adjacent to its smaller base of the box with a section equal to 0.5-0.8 section of the shaft, and a height equal to 0.5-1.0 of the distance between the air beams in the upper and lower zones of the shaft, and the distance between the air beams at the border of the zones is 1.5-2.5 distances between the remaining air beams. ϊ