RU1802262C - Steam coller - Google Patents

Abstract

Usage: in the energy sector at large thermal power plants. SUMMARY OF THE INVENTION: The tubes (8) and nozzles (11) are located in the meridional planes of the venturi, with the diameter of the outlet of the nozzle (11) being 0.3 times the diameter of the outlet of the tubes (8). 1 s.p. f-ly, 1 silt,

Description

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The invention relates to steam cooling technology and can be used in the field of energy at large thermal power plants.

An object of the invention is to increase the rate of cooling of steam.

The drawing shows a longitudinal section of a desuperheater.

The device comprises a steam pipe 1, inside which a mixing chamber 3 is installed with the formation of an annular cavity 2, made in the form of a venturi, the confusion section 4 of the venturi is installed relative to the steam pipe 1 with a gap 5. On the side surface of the cylindrical part 6 of the venturi there are openings 7 provided with tubes 8, the inlets of which are located in the cavity of the collector 9, equipped with a pipe 10 of cooling water. In the wake of the opening 7, nozzles 11 are located along the steam flow. The nozzles 11 are directed towards the confuser part 4 of the venturi. The diameter of the outlet of the nozzle 11 is 0.3 times the diameter of the outlet. 7 of the tube 8.

The operation of the desuperheater is as follows.

Steam flows through steam line 1 in the form of a carrying stream. The main part of the steam through the confuser section 4 enters the cylindrical part 6 of the venturi. The other (substantially smaller) part of the steam enters through the gap 5 into the annular cavity 2. The cooling water from the nozzle 10 enters the collector 9. Evenly distributed to the tubes 8, the cooling water flows out of them by a system of transverse jets into the main steam stream. Within the cylindrical portion 6 of the venturi, active mass transfer of the jets of cooling water and the steam stream takes place. The parameters of the cooling water jets are actively influenced by the steam jets supplied from the annular cavity 2 through the nozzles 11. The active impact of the water jets and the steam determines an increase in the efficiency of mass transfer processes in the device.

Feeding jets of water behind jets of water is most effective. In this case, the stagnant circulation zone arising behind the water stream with a relative re-circulation of the cooling water and, as a result, a low temperature level is destroyed. As shown by the test results, there is an optimal ratio of diameters and tubes. At c d, an increase in d leads to a decrease in the efficiency of the influence of steam jets on the deviation of water jets. This is due to the following reasons. As the diameter increases, the speed of the steam jets decreases, and with skill this is decisive. When d d when

As the diameter of the jets decreases, while the rate of their outflow increases, their influence on the characteristics of the distribution of water jets decreases. This is due to an increase in the difference in geometric pa5

of water and steam jets in the impact zone, as a result, steam jets have an active effect on only part of the jet

water. Here d c

5

0

dT

and the optimum value is 0.30.

The use of the proposed technical solution makes it possible to intensify mass transfer processes along the length, to increase the reliability of the device itself and the steam pipe located behind it and the convective heating surfaces. Formula of i-invention 1. Desuperheater containing a mixing chamber installed in the pipeline with the formation of an annular cavity, made in the form of a venturi with holes in its narrow part, in which nozzles are mounted, a confuser section located relative to the inside

5 of the pipeline surface with the formation of an annular gap, a diffuser section adjacent to the outlet to the inner surface of the pipeline, and water supply pipes in communication with the narrow part of the pipe

0 Venturi, characterized in that, p. In order to increase the efficiency of cooling the steam when the load changes, the water supply pipes and nozzles are combined in pairs, in each of which the axis of the pipe and nozzle are divided

laid at an angle in the longitudinal plane, while the nozzle is placed behind the tube along the steam, and its outlet is directed towards the confused part of the venturi. .

2. The desuperheater according to Claim 1. The clause is that the ratio of the diameters of the nozzle and tube outlet openings is 0.3.