SU945178A1 - Device for drying masonry of blast furnace air heaters - Google Patents

Description

one

The invention relates to ferrous metallurgy, in particular, to devices for drying air heaters, and can be used in other units having masonry enclosed in a metal casing.

The closest to the invention by technical essence and achievable results is a device for drying the masonry of blast furnace heaters, including a casing, a refractory lining of the walls of the combustion chamber and nozzles, a smoke path, holes for the removal of moisture and steam from the casing gap (lining) the device is that after the construction or repair of the air heater is completed, the pipelines and all the fittings must be completed with installation, all hatches are sealed, a thermocouple dome is installed, n The device on the gas tightness, and then proceed to drying and heating.

The refractory materials used in the laying of air heaters (including mortar) have significant moisture (especially when working in the autumn-winter period.

When drying and warming up the air heater, the temperature of the masonry rises gradually in height and thickness of the walls, so the removal of moisture

10 of the bricks occurs first in the layers that are in close proximity to the working space. In this case, the moisture escapes from the products of combustion. When heated outside the working area, especially in the immediate vicinity of the casing, the steam to smoke is difficult, because the laying during the drying and heating period

20 is sufficiently gas-tight. In this case, the steam accumulates in the gaps, cracks, pores of the masonry, and when the entire thickness of the brick is heated — near the casing, it creates a certain pressure. Part of the steam may condense, but: most of it under pressure penetrates to the combustion products, thus destroying the laying,. compensation (backfill, mats and thermal insulation materials, which leads to a deterioration of their physical and mechanical properties.

On average, for one air heater with a built-in combustion chamber of a DOOMNO furnace with a volume of 1386 m, the weight of the refractory masonry taking into account the mortars is 3,300 tons and it is distributed afterwards.

in the following way: nozzle 1500 t, dome 150 t combustion chamber “SO t, walls 1200 t. If it is assumed that the moisture content of the material is 5%, then during drying and heating of the air heater it is necessary to remove 165 tons of water. Moisture from the nozzle, the combustion chamber, the surface of the walls and the dome adjacent to the working space of the apparatus is removed with the combustion products without destroying the laying. When moisture is removed from subsequent layers of masonry (60-80 tons), steam passes through the thickness of the masonry 750 mm, and in the upper zones of the air heater more than 1000 mm, destroying it and deteriorating the properties of oi-non-refractory materials.

The purpose of the invention is uniform removal of moisture and steam along the height and perimeter of the refractory lining of the walls of the combustion chamber and nozzle, increasing the durability of the masonry of air heaters and increasing the efficiency of the masonry drying process.

The goal is achieved by the fact that in the device for drying the masonry of blast furnace heaters, including a casing, a refractory lining of the walls of the combustion chamber and nozzles, a smoke path, holes in the casing to remove moisture and steam from the casing-lining gap, holes in the casing are fitted with fittings with taps and arranged in 1 / 3- / 6 increments along the height of the attachment, and along the perimeter - with an angle of 120-180.

The diameters of the fittings should be 2-3 on the dome, 1-2 on the cylindrical part of the apparatus. The proposed size of the fittings is due to the fact that with a greater distance between the fittings

moisture removal is reduced due to a small and uneven gap between the casing and the masonry, both in height and perimeter. In connection with

because the gap between the casing and the dome is mm, it is sufficient to install one nozzle on the dome.

Long EXPERIENCE of using cork taps and plugs on fittings installed on air heaters to eliminate overheating of the casing by pouring refractory mortar, as well as for pressure selection

5 and gas samples from the space between the casing and the laying (the study of the causes of intergranular destruction of cozhu, showed satisfactory results.

Fig. 1 shows a device for drying a stove stack, general view; figure 2 is a section of the LA in figure 1.

A device for drying a stove stack consists of a combustion chamber 1, in the lower part of which a stationary burner 2 is located (or a temporary burner. The combustion chamber 1 is connected in series

0 dome 3 camera (nozzles, in the lower part of which are smoke pipes 5 connected to the chimney 6. The heater consists of a casing 7, a refractory masonry 8 and a gap 9 between them. On the dome and along the height of the casing 7 there are nozzles 10 connecting the space 9. Atmosphere. Fittings 10 are equipped with cork taps or plugs 11. The distance between fittings 1 O should be no more than 1/3 and no less than 1/6 of the height of the nozzle, and around the perimeter of fitting 10 are located at an angle of 120180 °.

The device works as follows.

The fuel is burned in a stationary burner 2 (or during the first period of heating in a temporary burner J. The combustion products pass through the combustion chamber 1, the nozzle, smoke pipes 5, and then through the chimneys into the pipe 6. The combustion products, 5 washing the masonry 8, gradually heat the refractories Moisture from the masonry surface of the walls adjacent to the working space of the air heater and the bricks of the nozzle C as steam enters the combustion products and is removed through the chimney 6. The remaining moisture from the bricks adjacent to the casing 7 is steam. . (t The temperature of the casing at the end of heating is 100140 C) accumulates in the gaps between the casing 7 and the clutch 8, and then is removed to the atmosphere through shatter 10. At the same time, the cork taps or plugs 11 are open during the entire period of drying and heating of the air heater and they are closed during the period when the apparatus is taken up for injection or commissioning.

The ordered removal of steam through fittings 10 ensures the absence of accumulation of steam and condensate in the masonry 8, the steam does not penetrate through the entire thickness of bricks 1.700iOOO mm. This makes it possible to increase the durability of the masonry, shorten the duration and increase the efficiency of the drying process and heat the masonry.

The use of the proposed device provides an increase in the turnaround time between the operation of air heaters by 20-30 ° by maintaining the integrity of the masonry walls of the physicomechanical properties of heat 97878A

insulating and compensating materials, eliminating local heating of the casing, reducing the duration of the period of pike and warming up masonry 5 by 8-10.

The economic effect on one blast furnace with a capacity of 1 million tons / year will be 109 thousand rubles / year.

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Claims (1)

1. USSR author's certificate No. 96626, cl. From 21 to 8/00, - 1976.