CZ14741U1 - Separator with inclined cylindrical sieve - Google Patents

Description

Technical field

The technical solution relates to a solid impurities separator from fluids flowing in the pipeline, in particular to the separation of solid impurities and water from the steam before the steam turbines, which is formed by a body with an inserted cylindrical sieve placed behind the inner space of which a dirt collector is formed.

Background Art

So far, the separators are produced according to FIG. 1, where a cylindrical screen 2 is mounted in the inclined side neck 13, body 1, the screen 2 is fastened in the body by means of a closure 3 which simultaneously blinds the side neck 13.

There are several drawbacks to this solution:

Steam with impurities flows into the sieve via the inlet neck. In Network 2, only dirt larger than the holes in the mesh is captured temporarily. Due to the steam rotation in the net, the dirt in the net swirls, damages the sieve, and reduces abrasion until they reach dimensions smaller than the holes in the net and pass into the turbine. After a prolonged period of operation, the sieve is damaged so that the sieve ruptures and the sieve debris, even with accumulated dirt, enters the turbine.

The water does not remove this separator at all.

The essence of the technical solution

The above-mentioned drawbacks are largely eliminated by the separator according to the present invention, wherein an opening is formed between the end of the screen and the side-neck closure in the wall of the side neck, to which a trench is attached, in which both impurities and water can be stored removed.

Function description

The dirt vapor enters the separator housing 6 through the inlet orifice. It continues into the inner space of the sieve 2. The steam passes through the holes in the net 2 into the outlet neck 12. A portion of the reflected minor impurities, all larger impurities and water continue from the inner space of the sieve to the cup 4. Water is drained through the side neck 42, the solid impurities are periodically removed during the shutdown after dismantling the flange 41.

Larger dirt can not swirl in the net, damage it and shrink until penetration, because they are placed in a calm at rest. The part (about half) of the smaller impurities that bounced on the first screen sweep will no longer be able to penetrate through the sieve since they will fall into the soda where they are stored. The water, especially at the start-up phase, is collected in the basin from where it is discharged through the side neck 42.

This separator prevents turbine crashes and increases blading life while maintaining turbine efficiency and performance.

Image overview

Fig. 1 shows an old separator embodiment.

Fig. 2 is a separator according to the present invention.

Example of execution

The separator of Fig. 2 consists of a body 6 with an inlet neck 11, an outlet neck 12 and a lateral neck 3. A sieve 2 is inserted in the housing, the front side 21 of which is connected to the inlet port 11a

The back side 22 facing the closure 3 is connected through an opening in the side neck wall to the cup 4. The cup 4 is provided with a water outlet side 42 and a flange 44 for removing solid impurities. The cup 4 may be straight or bent according to the spatial possibilities in the vicinity of the separator.

The closure 3 of the side neck 13 may be a pressure-tight closure, a flange, or may be bottom-welded as the risk of damaging the screen and the need to inspect or replace it is reduced by the use of a cup 4.

Claims (1)

PROTECTION REQUIREMENTS Dirt separator with an inclined cylindrical sieve, in particular for removing impurities from a fluid stream flowing in a conduit, characterized in that the rear side (22) of the sieve (2) 10 is connected to the sludge (4) through an opening in the side throat wall (13). ), the front side (21) of the screen (2) being connected to the inlet throat (11) of the body (1) and the space around the screen (2) in the side throat (13) is connected to the outlet throat (12) of the body (1).