SU1673600A1 - Blast furnace cooler - Google Patents

Abstract

The invention relates to ferrous metallurgy, in particular, to devices for protecting a shaft housing, mainly blast furnaces, from high temperatures. The aim of the invention is to increase the durability of the refrigerator by increasing the cooling efficiency of the fins. The refrigerator contains a cast iron block 1 with cooling tubes 2. On the working surface of the refrigerator there are fins 3 and grooves 4 in which a refractory brick can be poured in or sprayed or sprayed, or spray-resistant material is applied. The cooling tubes 2 are of length two differing diameters D and D _1. The larger diameter D is located opposite the rib 3, and the smaller D ₁ is opposite the groove 4, the ratio D / D ₁ is at least 1.35. This provides increased heat removal, a decrease in temperature and stress values in the fins due to an increase in the cross-sectional area of the channel. 2 Il.

Description

WITH

with

The invention relates to ferrous metallurgy, in particular, to devices for protecting a mine casing, mainly blast furnaces, from high temperatures.

The purpose of the invention is to increase the durability of the refrigerator by increasing the cooling efficiency of the fins.

1 shows a refrigerator, side view; figure 2 - the same. general form.

The refrigerator contains a cast iron block 1 with cooling pipes 2.

On the working surface of the refrigerator there are fins 3 and puzzle 4, into which a refractory brick can be poured or installed, or sprayed or sprayed or otherwise refractory material.

The cooling tubes 2 are made with a variable diameter of DI and D2.

In this case, a pipe section with a larger diameter DI is located opposite the rib 3, and with a smaller D2 opposite the groove 4 and the ratio Di / D2 is at least 1 35.

The refrigerator works as follows.

The heat flow from the working space of the furnace is transmitted through the edge 3 of the refrigerator 1 to the surface 6 of the cooling pipe 2, through which the refrigerant circulates. The diameter DI of the pipe 2 in the area of the fin is chosen so that the refrigerant volume perceives heat loads larger than the groove area ( pipe section with a diameter of D2). As a result, the temperature of the rib decreases and

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The temperature is over the cross section of the body 1 of the refrigerator. The surface 6 is made in the form of a curve, which ensures the turbulization of the refrigerant flow and increases the efficiency of heat transfer from the pipe wall to the refrigerant. In the process of heat transfer from the working surface of the rib 3 to the surface 6, thermal resistance is reduced by reducing the distance between them.

Thus, in the area between the heat-absorbing surface of the fin and the surface 6, conditions are created to reduce the temperature of the fin and reduce the level of thermal stresses in the refrigerator.

The proposed device will, by increasing the surface of the cooling elements, reduce the temperature of the working figure.

surfaces and the level of stress in the refrigerator and increase its resistance to 6.5 years.

Claims (1)

Invention Formula Blast furnace refrigerator consisting of a stove with cooling pipes installed or filled into it and having ribs on the working surface, forming grooves for refractory material, characterized in that, in order to increase the durability of the refrigerator by increasing the cooling efficiency of the ribs, the cooling tubes are made with a variable diameter, the larger diameter of the tube is opposite the rib, and the ratio of the larger diameter to a smaller one is at least 1.35. 2