SU792068A1 - Regenerator nozzle - Google Patents

Description

; 54) ASSEMBLY OF THE REGENERATOR

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The invention relates primarily to high-temperature heating of air and other coolant gases used in metal and power engineering.

Known nozzle, made of bricks, stacked perpendicular to each other and forming a continuous smooth channels for the passage of the heat carrier i. However, such a nozzle is characterized by a small relative heating surface and a low heat exchange rate.

In this nozzle, the bricks are laid close to each other, the surface of the bricks in the places of their contact is not washed by gaseous coolants and, accordingly, does not participate in heat exchange. This explains the relatively small heating surface of the nozzle.

The intensity of heat transfer in the packing is low due to the absence of turbulizing elements in its channels.

The aim of the invention is to intensify heat exchange.

The goal is achieved by the fact that in a regenerator nozzle of refractory bricks laid perpendicularly

each other and forming a system of vertical channels, protrusions are made on narrow lateral long edges of the refractory bricks f.

FIG. 1 shows a refractory brick of the nozzle with asymmetrically spaced protrusions (the protrusions can also be performed symmetrically); in fig. 2 nozzle, general view; in fig. 3 shows section A-A in FIG. 2; in fig. 4 - nozzle, axonometric view.

With the same overall dimensions of the brick, changing the height of the remote projections B, you can get a nozzle with a large relative heating surface and high heat transfer rate. - The vertical faces of the bricks of the nozzles are open for o avan gaseous coolants. In addition, each channel of the nozzle communicates with others, which contributes to the even distribution of the gaseous coolants through the channels and increase the efficiency of the nozzle. Remote projections B nozzles provide a certain size of the nozzle channel, contribute to

30 turbulence: gas flows and, accordingly, intensify heat exchange. The bricks in the adjacent horizontal rows are layed over, which increases the mechanical strength of the nozzle.

The presence of remote projections causes turbulence in gaseous streams and thereby intensifies heat transfer.

Increasing the relative heating surface With a constant heat output, the nozzle makes it possible to reduce the size of the nozzle, which leads to savings in investment.

Claims (1)

1. Domain production. Handbook. Ed. Acad. I.P. Bardin. M., State Scientific and Technical Publishing House of literature on ferrous and non-ferrous metallurgy, 1962.5 p. 184, fig. 104a.