SU617667A1 - Recuperative cooler - Google Patents

Description

Improving the efficiency of heat transfer in this case is partially solved.

The purpose of the invention is to increase the efficiency of heat transfer.

This is achieved by the fact that in the proposed cooler to Vrash, Ayush, furnace furnace, the insert is made in the form of a truncated cone, widened in the direction of movement of the material, and on the outer surface and on the inner surface of the drum poured dke.

As a result of the insertion in the form of a truncated cone, the time for the material to stay in the drum increases and the heat exchange surface increases, as well as the speed of the cooling air. The proposed location of the filling elements contributes to the uniform distribution of the material but the heat exchange surface, and the transfer of material from element to element contributes to the intensification of the heat exchange process.

FIG. 1 shows a regenerative refrigerator, a general view; in fig. 2-section A- / in FIG. one.

The recuperative cooler consists of several cylindrical drums 1. Along the axis of the drum 1, a plugged conic insert 2 is installed, expanding as the material moves. The conical insert 2 is fixed inside the drum 1 by means of continuous solid partitions 3, forming their through cavities 4. On the outer surface 5 of the insert 2, pouring elements 6 are fixed. On the inner surface 7 of the drum 1, pouring elements 8 are mounted.

The height of the filling elements 6 and 8 is determined by the total generatrix parallel to the axis of the drum. The height of the filling elements 6 decreases in the course of the movement of the material, and the elements 8 are constant along the entire length. The filling elements 6 and 8 are arranged in a staggered order relative to each other.

The drums are located around the body of the furnace 9 and are associated with it with watering cans 10.

The refrigerator works as follows.

When the furnace 9 is rotated, the hot clinker through the watering cans 10 enters the drums 1 and moves along them towards the furnace slope. After reaching the insert 2, the notes of the material are divided into separate flows along the cavities 4. In the cavity 4, the material is evenly distributed over the surfaces 5 and 7 and the pouring elements 6 and 8.

At the moment of getting into the upper part of the drum 1 on the surface 5 and pouring elements 6, the material does not move to the discharge opening of the drum, since the cone insert 2 forming takes a horizontal position or has a reverse inclination, which causes a delay in the material in the refrigerator.

At the moment the material gets into the lower part of the drum 1 on the surface 7 and

non-outstanding items 8 it moves to

discharge hole in the side of the slope

the drum.

Due to the delay of the material in the drums, its residence time is increased by about 1.5 times.

By preliminary calculations, it follows that the efficiency of heat exchange in the proposed refrigerator will increase by about 25% compared with the known used structures, so that the throughput of the refrigerator will increase by 52% with a simultaneous decrease in the temperature of the outgoing clinker by 200 ° C.

Claims (1)

Invention Formula A recuperative cooler to a rotary kiln containing cylindrical drums placed around the kiln casing, each of which has an inserted insert axially installed, characterized in that, in order to intensify the heat exchange, the insert is designed as a truncated cone expanding in the direction of movement of the material, and on its surface and on the inner surface of the drum there are made pouring elements installed in a checkerboard pattern. h Z 6 i I I I iv