SU1296791A1 - Recuperator - Google Patents

Abstract

The invention relates to heat exchange technology and can be. used in engineering and metallurgy. The invention allows to increase the thermal efficiency by deeper utilization of the heat of flue gases, as well as to reduce capital costs in the manufacture by reducing the size and economical consumption of alloyed steels. The hot gas enters the gas duct 10 and passes through annular channels 4, giving heat to coaxially arranged cassettes (K) 1. The inner of the latter are made in the form of at least two longitudinal parts (FC) 2 cylinders. The heated medium flows into each cylindrical hollow K1 autonomously connected to the nozzle 3 of the inverter 2 and is heated. To regulate the thermal efficiency of the inverter 2, the internal cylindrical K1 m. divorced from the center to the periphery or vice versa shifted to the center. 4 il. (L 1C; o O) with

Description

The invention relates to heat exchange technology and can be used in engineering, metallurgy and other industries.

The aim of the invention is to increase thermal efficiency by deeper utilization of flue gas heat, as well as reducing capital costs in manufacturing by reducing the size and economical consumption of alloyed steels.

FIG. 1 shows the heat exchanger, g. Sectional incision; in fig. 2 - internal heat exchanger cassette; in fig. 3 is a top view of FIG. one; in fig. 4 shows an assembly for fastening a nozzle to a source for supplying a heated medium.

The recuperator contains coaxially mounted cylindrical hollow cassettes 1, the inner ones of which are made in the form of at least two longitudinal parts 2 of the cylinder, independently connected to the source of heated medium by nozzles 3, forming intermediate annular channels 4 for the passage of heating gas and installed with transverse displacement for adjustment passage sections of said annular channels 4.

The nozzles 3 are provided with flanges 5 and plates 6, and the outer cassette 1 in the area of the nozzle 3 is attached to the ring 7, into which the bolts 8 are inserted. The nozzles 3 are connected to pipelines on which the flanges 9 are installed. The cylindrical hollow cylinder 1 of the cylinder coaxially in the flue 10, forming a block of heating.

The recuperator can be assembled from sequentially installed blocks.

The recuperator operates as follows.

The heating gas enters the gas duct 10 and passes through the annular channels 4, releasing heat coaxially arranged cassettes 1. The heated medium enters the longitudinal part 2 of the cylindrical hollow cassette 1 that is independently connected to the nozzle 3 and is heated.

To regulate the thermal efficiency, the longitudinal portions 2 of the inner cylindrical cassettes 1 can be separated from the center to the periphery or, on the contrary, shifted to the center.

For this plate 6 is installed between the flanges 5 of the nozzle 3 and the ring 7 of the cassette or between the flanges 5 of the nozzle 3 and the flange 9 of the pipeline. Each plate 6 can have a different thickness, which allows for the regulation to ensure that

five

the buoy value of the movement of the longitudinal parts 2.

Such adjustment of the annular channels 4 does not require changing the dimensions of the parts of the inlet and outlet nodes of the inner cassettes 1 and allows it to be carried out both during adjustment work and during operation of the heat exchanger.

Installing the cassettes 1 with an adjustable flow area between them allows changing the thermal efficiency of each cassette and obtaining the required operating parameters of each cassette or unit, without changing supply nodes.

Such a heat exchanger provides a combined and autonomous parallel or sequential heat extraction by each unit, which greatly expands its capabilities, as it allows the most efficient use of the high-temperature potential of the heat of combustion products in the lower Q unit to heat the combustion media, and in the upper heating the air by general ventilation, water and steam generation or provide cost-effective high-temperature heating of air only due to the most varied connection diagrams cassettes and blocks; perform each subsequent block of steel of lower heat resistance and thickness than the previous one due to a significant decrease in temperature and oxidation state of the metal with the height of the heat exchanger; to ensure the transfer of combustion products isolated from the external environment from one block to another in combination with reliable and simple installation of cassettes and blocks, to minimize the consumption of alloyed, especially in deficient nickel-containing steels. All this allows to significantly reduce the size of the heat exchanger, i.e., reduce capital costs.

Claims (1)

Invention Formula five A recuperator containing coaxially mounted cylindrical hollow cassettes connected by cavities to a source of heated medium and forming intermediate annular channels for the passage of heating gas, characterized in that, in order to increase thermal efficiency, each cassette is made in the form of at least two longitudinal parts of the cylinder, autonomously connected to the source of the heated medium and installed with the possibility of lateral movement for adjusting the flow sections of said gas channels. FIG. 2 Fig.Z 5 8 fig L