SU1173142A1 - Heat exchanger in rotary furnace - Google Patents

Abstract

HEAT EXCHANGER OF ROTATING OVEN, containing hollow closed elements arranged parallel to the furnace axis with loading and unloading chutes, characterized in that, in order to increase heat transfer efficiency by reducing dust removal, the loading and unloading chutes are made in the form of hollow closed elements attached to the main hollow elements with both sides at an angle of 15-75 & their axes, with the free ends of the chutes located in a plane perpendicular to the axis of the furnace. 7 in S Thebes 1

Description

i

This invention relates to a heat exchange technique in rotary kilns and can be used in the building materials industry.

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

FIG. 1 shows a furnace with a single hollow element, a longitudinal section; in fig. 2 - section AA in g. 1.

Inside the furnace 1, parallel to its axis are the main hollow closed elements 2, from the loading end of which hollow elements are arranged at an angle to their axis, which act as loading leaks 3, and from the discharge side, hollow elements that perform the role of discharge leaks 4.

Instead of cylindrical hollow elements 2, conical hollow elements 5 can be mounted with an extended end toward the cold end of the furnace 1.

In this case, the loading chute 6 is located on the side of the hot end of the furnace 1, and the discharge chute 7 is on the side of the cold end.

The ends of the chutes 3, 4, 6, 7 are located in a plane perpendicular to the axis of the furnace 1.

 the elements 2 and 5 are fixed to the furnace body 1 with the help of the fastening elements 8, which in the drawing are made in the form of cage rings, but can also be made in the form of ordinary brackets.

Inside the hollow elements 2 and 5, cleaning elements can be fixed, for example, target 9.

The diameter, number and length of the hollow elements 2 and 5 are determined by thermal calculation.

The taper of element 5 is determined by calculation from the condition of displacement

731422

in it the material towards the cold end of the furnace 1.

The dimensions of the leakages 3, 4, 6 and 7 are determined constructively in dependence of 5 on the respective sizes of the elements 2 and 5.

The distance of the hollow elements 2 and 5 from the body of the furnace 1 is determined by the calculation of the condition of the passage of all the material in the gap between them and the furnace 1 in order to exclude smoke.

The slope of the leak 3,4,6, 7 to the axis of the furnace 1 take from 15 to 75 ° (if less than 15, then the total is very

5 long chutes 3, 4, 6, 7, and if more than 75, then the cross section of chutes 3, 4, 6, 7, perpendicular to the axis of the furnace 1, will be very small, which will lead to a large aerodynamic resistance, and therefore a small amount elements 2 and 5 gases passing inside.

The remaining dimensions of the parts are determined constructively and checked.

5 for strength. Cone-shaped hollow elements 5 are used with very flowing material, when it needs to be partially recycled to improve heat transfer.

0 The heat exchanger operates as follows.

When the furnace 1 rotates, the material flows through the loading chutes 3 and 6 into the hollow elements 2 and 5, moves along them with lifting and pouring and comes in contact with the hot gases that are sucked through them, which is favored by the location of the ends of the chutes 3, 4, 6, 7 in the plane perpendicular to the axis of Yechi 1.

Then, through the points 4 and 7 in the lower position, the material is poured into the layer of material in the furnace 1. The chains 9 clean the elements 2 and 5 and the chutes 3, 4, 6, 7 of adhered material.

Claims (1)

ROTARY FURNACE HEAT EXCHANGER containing hollow closed elements parallel to the axis of the furnace with loading and unloading chutes, characterized in that, in order to increase heat transfer efficiency by reducing dust removal, loading and unloading chutes are made in the form of hollow closed elements attached to the main hollow elements on both sides at an angle of 15-75 ° to their axes, and the free ends of the leaks are located in a plane perpendicular to the axis of the furnace. Thebes. 1