RU2013147156A - MULTI-TUBE STEAM TURBINE INSTALLATION WITH A CAPILLARY CONDENSER - Google Patents

Abstract

A multi-tube steam turbine installation with a capillary condenser, comprising * an evaporation chamber located along the direction of steam, consisting of vertical evaporation sleeves connected by open ends to the lid of the separation section, the inner surface of which is covered with a grid of strips of porous material, at the top of which there is a distribution manifold equipped with nozzles, placed in the center of the entrance to the evaporation sleeves, and a drop eliminator is placed below, under which a steam connection is arranged connected to the steam inlet of the working chamber, made in the form of a power turbine housing, inside which there is a power turbine wheel mounted on a shaft connected externally to the working body, the steam outlet of which is connected to the inlet of the cover of the distribution section of the condensation chamber, in the center of which a cylindrical tank with perforated walls, in which a feed pump is placed, the shaft of which is connected coaxially with the wheel shaft of the power turbine, and the discharge pipe is connected to the distribution collector of the evaporation chamber, characterized in that the bottom of the condensation chamber is covered with a capillary condenser, which consists of several perforated sheets stacked on top of each other, forming a condensation zone and a layer of porous lyophilic material forming a condensate collector, and the perforated sheets of the condensation zone are laid with a gap between each other, covered with a layer of lyophilic material or made of it, the holes in them are made in the form of conical capillaries arranged in such a way that small

Claims (1)

A multi-tube steam turbine installation with a capillary condenser, comprising * an evaporation chamber located along the direction of steam, consisting of vertical evaporation sleeves connected by open ends to the lid of the separation section, the inner surface of which is covered with a grid of strips of porous material, at the top of which there is a distribution manifold equipped with nozzles, placed in the center of the entrance to the evaporation sleeves, and a drop eliminator is placed below, under which a steam connection is arranged connected to the steam inlet of the working chamber, made in the form of a power turbine housing, inside which there is a power turbine wheel mounted on a shaft connected externally to the working body, the steam outlet of which is connected to the inlet of the cover of the distribution section of the condensation chamber, in the center of which a cylindrical tank with perforated walls, in which a feed pump is placed, the shaft of which is connected coaxially with the wheel shaft of the power turbine, and the discharge pipe is connected to the distribution collector of the evaporation chamber, characterized in that the bottom of the condensation chamber is covered with a capillary condenser, which consists of several perforated sheets stacked on top of each other, forming a condensation zone and a layer of porous lyophilic material forming a condensate collector, and the perforated sheets of the condensation zone are laid with a gap between each other, covered with a layer of lyophilic material or made of it, the holes in them are made in the form of conical capillaries arranged in such a way that small the holes of the conical capillaries of the previous sheet are located against the large holes of the conical capillaries of the subsequent sheet, the large holes of the conical capillaries are directed towards the distribution section, in the last perforated sheet the small holes of the conical capillaries are in contact with the porous material of the condensate collector laid on the inner surface of the bottom of the condensation chamber, in the center of the capillary a cylindrical hole is arranged in the capacitor, in which a restrictive ring is placed, behind discontinuity condensation zone for transport ring made of the lyophilic porous material is connected to the lyophilic porous material condensate collector covered with a cylindrical cage with perforated walls forming a cylindrical tank.