SU1418558A1 - Gas-distributing cooled tube plate - Google Patents

Abstract

The invention relates to gas distribution devices and can be used in the field of ferrous and nonferrous metallurgy, heat and power engineering, as well as the chemical industry, the production of building materials. The aim of the invention is to improve the quality of the heat treatment of the material by improving the uniformity of the distribution of the fluidizing agent. To this end, the gas-distribution cooled lattice consists of successively arranged pipes 1 adjacent to each other through which the cooling medium circulates. On the outer surface of the pipes 1, screw canals 2 are made for the passage of the fluidizing agent, whereby the pipes are under the same hydrodynamic conditions of operation, which leads to an increase in the uniformity of the distribution of the fluidizing agent. 2 Il. § (L

Description

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ate

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T ydg (oklai dyasch, ei cpeSbt

BbiMS Cool / Oi ei 1 Medium

:. The invention relates to gas distribution devices and can be used in the field of thermal engineering, metallurgy and chemical industry.

The aim of the invention is to improve the quality of the heat treatment of the material by improving the uniformity of the distribution of the fluidizing agent. FIG. 1 shows a diagram of the gas distribution lattice to be cooled; in fig. 2 — node I in FIG. one. ; The gas-distribution cooled lattice consists of successively located 1 pipe 1 along one another, through which coolant circulates. The pipes 1 are made with helical grooves 2 on the outer surface for the passage of the fluidizing agent.

The grating works as follows. The material is fed from the top, the agent required for fluidization, is fed from the bottom, it passes through the slots formed by the screw grooves 2 and the side surface of the adjacent pipes. The cooling of the structure is carried out by circulating the cooling medium through the pipes 1.

Due to the location of the grate pipes close to each other, they are in the same operating conditions from hydrodynamic point of view, which ensures uniform distribution of the fluidizing agent, and the flow of the fluidizing agent, the passage along the helical grooves, receives an additional twist, which contributes to fluidizing agent at the exit of the grate, as a result of which the surface of the pipes is well and uniformly blown by the fluidizing agent, which leads to an increase in the quality of the heat treatment of the mat rial. At the same time, a slight displacement of pipes along the height as a result of inaccuracies of installation or due to thermal deformations, occurring during the operation, does not significantly affect the living cross section of the lattice, since pipe swelling occurs along the

The parameters of the helical grooves are determined on the basis of the conditions of the absence of material spilling through the gas distribution grid slits, ensuring the necessary living cross-section of the gas distribution grid, ensuring the necessary strength of the pipe at a specific depth of the helical groove.

The dependencies between the parameters of the twisted grooves are as follows:

P l05z0 25) l

M

(ABOUT

T 11 f 1 -.-- 1

   0, S.fS-;

tr

0,25S p -,

where (area of the living section

gas distribution device;

D is the external diameter of the pipes; L - pipe wall thickness; D - diameter of the groove of the screw

grooves;

S - pitch helical grooves; b - the width of the helical grooves; n - the number of visits helical grooves; f is the coefficient of friction of the material being processed against the surface of the pipe material.

Claims (1)

Invention Formula Gas-distribution cooled lattice, including successive pipes, characterized in that, in order to improve the quality of heat treatment of the material by improving the uniformity of the distribution of the fluidizing agent, the pipes are made with helical grooves on the outer surface and are located close to each other. FIG. 2