RU1800225C - Separating light-up unit - Google Patents

Abstract

Use: steam boilers. SUMMARY OF THE INVENTION: The separation kindling assembly comprises a centrifugal separator 1 with tangential inlets connected through a fitting 2 by connecting pipes 3 to a separator 4 provided with a supply pipe 5, The assembly is provided with a drain pipe 6 connecting the separator 1 and 4 connected tangentially and opposite to the connecting pipes 3 , the supply pipe 5 is made in the form of a bend located in the same plane with the fittings 2 and installed towards the connecting pipes 3, and the connecting pipes 3 are made equal kimi and parallel to each other. 2 ill.

Description

The invention relates to a power system and can be used in steam boilers of thermal power plants.

The purpose of the invention is to increase efficiency.

In FIG. 1 shows a device, a General view; in FIG. 2 - same, top view,

The separating kindling assembly contains a centrifugal separator 1 connected through a nozzle 2 with equal and parallel pipes 3 to another centrifugal separator 4 made in the form of an elbow, equipped with a supply pipe 5 and a drain pipe b. The drain pipe 6 is connected tangentially and opposite to the connecting pipes 3 to the separator 1. The elbow of the separator 4 is located above the connecting pipes 3 in a common plane with the fittings 2.

Separation kindling node operates as follows.

A gas-liquid stream containing dropping liquid enters the separator 4 through the nozzle 5. In this case, the liquid is partially squeezed by centrifugal forces to the wall of the separator 4, which is located on its opposite side to the fittings 2 and flows down it, and then through the drain pipe 6 in the lower part of the separator 1, under the level H maintained therein, gas with unseparated liquid in the separator 4 flows into the connecting pipes 3 and is sent to the separator 1. In the separator 1 under the action of centrifugal forces the liquid separated in the separator 4, which flows along its walls into the lower part of the separator 1 and mixes with the separator supplied through the drain pipe 6. By connecting the drain pipe 6 to the separator 1, the rotational liquid is quenched in the lower and tangential connection of the connecting pipes 3 in the lower parts of the separator 1. Gas and liquid are discharged from the evaporating kindling unit, respectively, from the upper and lower parts of the separator 1.

The opposite direction of the connecting and drain pipes tangentially connected to the second separator leads to a decrease in the rotation rate of water in the lower part of the separator, and. as

a consequence, a decrease in secondary fluid entrainment.

The location of the elbow of the first separator above the connecting pipes, and the connecting pipes in the same plane with the axis of the elbow, allows the effect of squeezing the liquid under the action of centrifugal forces and the wall of the separator opposite to the pipes to reduce the amount of liquid entering the connecting pipes, and thereby thereby increasing the efficiency of the first separator.

The implementation of the connecting pipes is equally small and installed in parallel allows not only to improve the manufacturability of the structure due to the same pipe sizes, but also determines the location of their ends in a row along the generatrix of the second separator. The latter disperses the gas-liquid mixture inlets along the height of the second separator, which allows. to lay part of the liquid on the walls to the upper connecting pipe, where

maximum flow velocity over the cross section of the separator. Therefore, at the same maximum speed, you achieve a decrease in the thickness of the falling film and, as a result, a decrease in the secondary entrainment of liquid in

second separator.

Thus, the totality of the features of the claims, reducing secondary entrainment, as a result, increases the efficiency of separation

kindling unit.

Claims (1)

SUMMARY OF THE INVENTION Separating kindling assembly comprising two centrifugal interconnected connecting pipes separator, the first of which is made in the form of a bend and is equipped with a supply pipe and a drain pipe, with the exception that in order to increase efficiency, the connecting and drain pipes are connected one opposite to the other, tangentially directed oppositely to the other, the elbow of the first separator is located above the connecting pipes, made equal and parallel to each other, and their axes are located in the same plane with the axis of the elbow. FIG. Z