SU781525A1 - Regenerator - Google Patents

Description

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The invention relates to the metallurgical industry and can be used in heat exchange installations for using heat from waste hot gases.

The closest technical solution to the present invention is a regenerator, comprising a housing with an arched vault, end and pass walls, placed inside the housing 10, a heat exchanger nozzle with vertical cells 1.

A disadvantage of the known design is the uneven distribution of the flow of the leaving hot gases along the length of the nozzle, which reduces the degree of heat recovery of these gases and reduces the efficiency.

The purpose of the invention is to increase the economy by increasing the degree 20 of heat recovery of flue gases.

The goal is achieved by the fact that above the cells of the nozzle, up to the arched vault, there are two rows of cutting tables set in chess order, located in Kaadom, one to two lengths of the cell and made of refractory bricks according to the Siemens system, and a row of columns installed-. thirty

at the same distance from the end and pass walls.

FIG. 1 shows the regenerator, a general view; in fig. 2 shows section A-A in FIG. one; FIG. 3 is a section BB in FIG. one; in fig. 4 shows the dissections column.

The regenerator includes a housing 1 with an arched vault 2, an end and a saddle wall 3 and 4, respectively. Inside the housing 1, a heat exchanger nozzle 5 with vertical cells 6 is installed. The nozzle 5 divides the case 1 into the supra-nodal space 7 and; 1 the single-nozzle space 8.

Above the cells 6, up to the arched vault 2, in a staggered order, two rows of cuts 9 columns 9, made of refractory bricks 10 according to the Siemens system, are installed.

In each row, the columns 9 are separated from each other at a distance equal to 1–2 cell length b, and the rows are set at the same distance from the end and saddle walls 3 and 4.

The regenerator works as follows.

Claims (2)

The flow of hot gas is supplied to the pre-spacer space 7 of housing 1, where a part of the flow (-25%), which has low speeds, turns into a flat-fitting nozzle 5, the rest of the flow, and the cutting part 9, is redistributed evenly in the front seat 7 and also turns a Heat transfer nozzle 5 By transferring heat to the nozzle 5, the tae is discharged from the housing 1 through the sub-nozzle 8. To cool the nozzle 5, a cold agent is introduced into the housing 11, for example air that passes through cage 5 and, when heated to the required temperature, is diverted to the consumer. -.-.... ..: .- ..: .--,., -. ,, ..... "." The presence of a cutter above the nozzle1 (:: 1 columns installed throughout the heights of the Suprastabular space, allowing It is necessary to equalize the direction and speed of the flow of hot gas along the length of the nozzle, which allows increasing the degree of regeneration of the heat of gases and increasing efficiency.: Invention 1. The generator, the body with an arched vault, end and saddle walls, located inside the housing Heat exchanger nozzle with vertical cells, which is also so that, in order to improve efficiency by the degree of heat recovery of flue gases, no cells of the nozzle to the arched vault, in a staggered order, two rows of cuts stacked in each row one to another from the other at a distance equal to 1-2 cell lengths and made of refractory bricks by the Siemens system. 2. The regenerator according to claim 1, wherein the rows of the columns are set at the same distance from the tbcc and perefixed walls. Sources of information, taken into account in the examination 1, USSR author's certificate number 43637, cl. F 27 O 17/00, 1935. LA Phi1,2 V