SU763662A1 - Recuperative cooler - Google Patents

Description

The invention relates to devices for cooling clinker, magnesite and other bulk materials in rotary kilns and can be used in the building materials industry.

Recuperator refrigerators are known, containing several drums located around the hot end JQ of the furnace body, parallel to it and at the same distance from the center of its cross section p. .

The closest technical solution to the proposed one is a re-co-curator refrigerator, containing hollow cylinders rigidly fixed around the hot end of the furnace 2.

However, the known recuperator 20 refrigerators do not provide a sufficient degree of cooling of the material and, as a result, have high heat recovery losses.

The aim of the invention is to intensify the process of cooling the material and increasing the productivity of the furnace.

The goal is achieved by the fact that a recuperator refrigerator for

cooling of the bulk material, containing hollow cylinders rigidly fixed circumferentially at the hot end of the furnace, is provided with coaxial heat pipes in which hollow cylinders are placed, each heat pipe being provided with; radially arranged longitudinal ribs that are hollow, and the ribs of the ribs are aligned with the cavity heat pipe and provided with a capillary-porous nozzle, and the surface of each heat pipe is made corrugated.

The external heat exchange surface of the heat pipe is much larger than the surface of the hollow cylinder. Due to the fact that only a hollow cylinder perceives mechanical loads, the heat pipe is made of sheet steel, therefore even a significant increase in the surface of the heat pipe compared to the surface of the hollow cylinder (2-3 times) leads to a slight increase in the weight of the structure.

Figure 1 shows the recuperator refrigerator; general form; in Fig.2 a section aa in Fig.1.

The refrigerator contains the following: cylinders 2 of the rotary kiln housing 2, which are enclosed in oaxial heat pipes 3. The hollow cylinders 2 are connected to the furnace 1 by means of nozzles 4. To increase the heat exchange surface heat. the pipe 3 is made with hollow ribs 5. The cavities of the ribs are aligned with the cavity of the heat pipe 3 and filled with a capillary-porous nozzle 6. To increase the heat exchange surface, the heat pipe 3 is made corrugated, and the arrangement of the corrugations can be longitudinal or transverse.

The refrigerator works as follows.

The material burned in the furnace 1 goes through the connecting pipes 4 to the hollow cylinders 2, in which it is intensively cooled due to additional heat removal to the environment through the external surface of the heat pipes 3, whose surface is much larger than the surface of the hollow cylinders 2. Heat transfer from the surface of the hollow cylinder 2 to the surface of the heat pipe 3 takes place on the basis of the known effect of the heat pipe, operating according to the principle of moving the agent in the radial direction.

Cooled in the hollow cylinders 2, the material is discharged through the exit port.

The use of a refrigerator will reduce the diameter of the hollow cylinder 2, increase the speed of the second, flowing air that is sucked through the hollow cylinder 2 and simultaneously increase by 2-3 times: the surface of the cooler, and consequently, intensify the process of cooling the material and increase the productivity of the furnace.

Claims (4)

1. A recuperator cooler for cooling bulk material containing hollow cylinders rigidly fixed around the hot end of the furnace, characterized in that, in order to intensify the process of decoupling and increase the productivity of the furnace, it is equipped with coaxial Heat Pipes in which hollow cylinders are placed . 2. The fridge is pop.1.0 tl and is due to the fact that each heat pipe is provided with radially arranged longitudinal ribs. 3. The refrigerator according to claims 1.1, which is based on the fact that the fins are hollow, with the fins of the ribs aligned with the cavity of the heat pipe and provided with a capillary-porous nozzle. 4. The refrigerator according to claim 1, about t l and the fact that the surface of each heat pipe is made corrugated. Sources of information taken into account in the examination: 1. Bogdanov AI. Rotating heats of cement peroxidation, M., Machinostroenie, 1965, p. 270 2. Copyright J.; USSR Video 558140, cl. T 27 B 7/38, 1975.