SU1502928A1 - Heat exchanger - Google Patents

Abstract

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. The heat exchanger contains oblong closed elements 3 fixed on axes x 2 or flexible elements inside the furnace 1, on which pockets are fixed. 2 hp f-ly, 4 ill.

Description

Aa

(L

31502

The invention relates to a technique for heat exchange in rotary kilns and can be used in industrial construction materials.

The aim of the invention is to increase the efficiency of heat transfer,

Figure 1 shows a furnace, a longitudinal section; FIG. 2 is a section A-A in FIG. FIG. 3 shows a separate heat exchange element; on figa - section bb in fig.Z.

Inside the rotary kiln 1, axial x 2 has oblong closed elements 3, to which pockets 4 are attached, and the part of pockets 4 adjacent in the lower position to the furnace body 1 is open in the direction of its rotation. Cleaning devices can be located inside the pockets 4, for example, in the form of chains 5, the ends of which are welded to the middle of the pockets 4. The role of the elongated closed elements 3 can be performed by the inner surfaces of the pockets 4, which are remotely connected, for example, using spacers 6, st. bolts 7 and nuts 8.

The dimensions of the pockets 4 along the axis of the furnace 1 are determined by thermal calculation from the conditions of heating the material to a predetermined temperature with an acceptable weight from the conditions of their installation. The dimensions of the pockets 4 along the radius are determined from the condition of their full immersion in the lower position in the material layer. The volume of the pockets 4 is taken at a certain size along the radius and along the axis of the furnace 1 maximum.

The configuration of the pockets 4 can be arbitrary, but the outer wall is best performed along a radius equal to the inside diameter of the furnace 1

The dimensions of the elongated closed elements 3 along the radius and along the axis of the furnace 1 are taken to be approximately equal to the corresponding sizes of the pockets 4, and the distance between their branches is determined by the free passage between them of the axes 2, whose diameter is determined by strength based on the weight of the elements 3 with pockets 4 and material in them.

The number of elements 3 with pockets 4 in one section is determined from the condition of excluding tangency of neighboring elements, and the number of such sections is determined by thermal calculation.

d

5 20 25

30 5 0

.j

0

five

The height of attachment of the axes 2 h is determined from the condition of the passage of elements

3 with pockets 4 in the lower position from one extreme position to the other. Instead of axis 2, chains can be used. The length of the spacer sleeves 6 is also taken from the condition of free passage of the axes 2 between the pockets 4. In the area of the elements 3 inside the furnace 1 there may be a metal reservation (not shown).

The remaining dimensions are selected constructively and tested for durability and operability.

The heat exchanger works in the following way.

Lower position lower pocket

4 scoops up the material and with further rotation element 3 with pockets

4 (one is full, the other is empty) sags vertically, is well washed off with hot gases, heats up itself and heats the material in pocket 4. Then elements 3 fall on the furnace body 1, while pocket 4 with material is on top and material from it runs out into layer material, and an empty pocket 4, located below, is filled with material. Upon further rotation, the element 3 with pockets 4 slides along the furnace body 1 (or armored) until it stops at axis 2, which then raises it and the process repeats. Chains 5 inside pockets 4 are moved from one position to another and clear pockets 4. With elements 3, some material rises inside them and this leads to some sweating, when fastening pockets 4 with bolts 7 and sleeves 6 there is no dusting .

Claims (1)

1. A rotary kiln heat exchanger containing oblong closed elements fixed on axes or flexible elements inside the furnace, which is characterized by the fact that, in order to increase the efficiency of heat exchange, the closed elements are fitted with attachments to them and. Fi.Z Phie. 7 in-in ( .lt