SU1096472A2 - Rotary furnace chain string heat exchanger - Google Patents

Abstract

CHAIN GIRLAND HEAT EXCHANGER OF ROTATING FURNACE by author. EV, 767482, characterized in that, in order to intensify heat exchange, the screw supporting elements are slit-shaped and set at an angle of 5-60 ° & to lines of fastening of chains. (L

Description

The invention relates to the design of intraburner heat exchangers, for example, rotary kilns for cement clinker.

According to the main author. St. No. 767482 is well known for a chain beater heat exchanger of a rotary kiln, comprising chains supported on a lined furnace body along a helical line and screw support elements protruding between the chain fastening lines and above the lining Cl3.

In this case, the chains during rotation of the furnace lie on the screw support elements and do not touch the lining, thereby reducing the destruction of the material granules. Meanwhile, the chains, heated by the gases, are covered with an oncoming layer of material and heat is transferred to it.

A disadvantage of the known chain heat exchanger is that with intensive mixing of the material with screw elements in the area of the chain curtain, the amount of material and the transfer of heat to the material decrease, the intensity of heat exchange in the furnace decreases.

The purpose of the invention is to intensify heat transfer.

This goal is achieved by the fact that in the chain arm of the rotary kiln heat exchanger the screw supporting elements are made slit-like and installed at an angle of 5-60 ° to.) :; m fastening chains.

FIG. 1 is a diagram of a chain wire heat exchanger, longitudinal section; in fig. 2 - the same, cross section; in fig. 3 - scan of the furnace body; in fig. 4 and 5 screw support elements.

Chains 2 are attached to the inner surface of the furnace 1 case. On the furnace body 1, lining 3 is laid. The method of mounting points for chains 2 is screwed support elements 4, made slit-like with holes 5 located in them. The number, shape and area of the holes 5 are chosen spilling material when it is above holes.

Supporting elements are installed under the yrnqji to the helix of chain fastening. The installation angle is selected from the conditions of material spilling through the material transportation apertures 5 at a given speed and in a given manner. In this case, the angle of installation of the supporting elements 4 is 5-60 °.

When mounting the supporting elements 4 at an angle to the helix of fastening the chains, they are predominantly of variable height along the helix of the support. The elements 4 have the smallest height at the line of attachment of the chains.

In the upper part, the supporting elements 4 have an extension 6, made in the form of a T-profile. In this case, the top of the T-shaped profile can be made in the form of a straight edge or have a rounded shape, for example, when it is made from a pipe. The presence of an edge in the tops of a T-shaped profile in the form of a pipe segment or a straight flange provides an increase in the contact area of the support and chain links, thereby reducing chain wear, increasing the service life of the chain curtain.

The height of the supporting elements is 0.03-0.35 magnitude of the height of the sagging arc of the chain 2, Reducing or increasing the height of the support from these values affects the heat transfer.

The chain curtain works as follows.

During the rotation of the furnace 1, the bend nd chains 2 lie on the supporting elements

4 and slide on them. The chains 2, lying on the supporting elements 4, do not cover the lining, in connection with which the heating of the chains and the lining by the gases passing through the furnaces improves. The gas flow encounters on its way a slit-like support element 4, passes through the holes 5 and improves the washing of the supporting elements 4 and the chains 2 located on the opposite side with gases, which in turn improves the recuperative heat exchange in the furnace. When the furnace rotates, the oncoming material is partially retained by the supporting element 4, and the angle of elevation of the material increases, which ensures an intense heat exchange in the furnace. Upon further rotation of the furnace, the material passes through the holes 5 and rolls over the surface of the lining 3.

The entries of the helical lines of the supporting elements 4 are made between the approaches of the helical lines of fastening the chains, while the height of the supporting elements 4 in the approaches is not the same height. Passing the material through the holes

5 and rolling over the surface of the lining improves the granulation of the material and preserves the resulting granules. The increase in the number of granules in the calcined material. In turn, improves the gas permeability and heat transfer in the furnace.

When installing the supporting elements 4 at an angle to the helix of fastening the chains, depending on the magnitude of the installation angle, a given speed is provided, the amount and direction of transportation of that part of the material that does not have time to pass through the holes 5 material at which the heat transfer in the furnace is the most intense.

Claims (1)

CHAIN FESTIVAL HEAT EXCHANGER OF ROTATING FURNACE by ed. St. No. 767482, characterized in that, in order to intensify heat transfer, the screw support elements are slit-shaped and installed at an angle of 5-60 ° to the chain attachment lines. FIG. /