SU580334A1 - Protective screen - Google Patents

Description

one

The invention relates to the field of heat and power engineering and can be used to protect elements of power plants against unacceptable temperature stresses.

Known are cellular through and hollow-bottom cellular screens that are installed to protect the walls of steam turbine elements from thermal stresses and simultaneously play the role of seals 1.

The cell structure of the screen does not provide resistance to flow pulsation and limits the reduction in flow rate.

Also known are screens consisting of thin metal sheets between which a heat insulating gasket is installed, the sheets are located at an equidistantly protected wall and are attached to it. Cooling steam 2 is fed into the space between the screen and the wall.

However, such screens require a supply of cooling steam and are susceptible to destruction due to the pulsation of the steam flow along the outer sheet.

To reduce the temperature stresses and increase the reliability of the screens and the installation, the outer metal sheet in the proposed design is perforated, and the gasket is in the form of layers of metal mesh.

FIG. 1 shows the screen setup in

steam turbine cylinder; in fig. 2 - screen mounting part (node I); in fig. 3 - fastening the grid to the cylinder (view A).

The protective screen consists of a series of metal mesh layers 1, superimposed on the protected wall 2, covered with a perforated metal sheet 3 and attached to the protected wall 2 by bolts 4.

The protective screen works as follows.

During start-up, the thin walls of the cylinder are heated to a higher temperature faster than the massive flanges, which may lead to unacceptable temperature stresses in the wall of the cylinder.

Due to the deterioration of the heat transfer conditions from the vapor to the wall in the installation zone of the protective screen, the heating of the wall is slowed down and the temperature difference between the wall and the flange is reduced.

The resistance of the screen to pressure fluctuations of the washing flow is based on the presence of large flow areas in the mesh layers, which makes it impossible for steam to flow from (or into) the bulk of the mesh layers into the main flow (or out of it) without significant pressure drops.

Layers of metal mesh 1, compressed perforated sheet 3, have sufficient rigidity.