SU1015232A1 - Condenser - Google Patents

Abstract

1. A CONDENSER containing a grounded housing, a high-voltage electrode installed inside the housing coaxial to the latter, and nozzles for steam supply and condensate drain, characterized in that, in order to ensure the autonomy of its operation, the high-voltage electrode is made in the form of a hollow cylinder, one of the bases of which is perforated , and on the other there is a steam supply pipe, and inside the cylinder on bearings insulated from it, an additional grounded shaft is installed with successively placed on it along d izheni vapor mixture inekom and brushes (rollers) forming the movable contact with the cylinder. 2. A capacitor according to claim 1, characterized in that, in order to increase the reliability of operation by eliminating breakdown, a high-voltage adjustable resistor is additionally installed between the high-voltage electrode and the housing. (L ate 1C with you

Description

The invention relates to a power system, mainly to those areas where electric fields are used to intensify heat transfer processes, and can be used in radio electronics, electrical engineering, chemical technology, etc.

Known film-evaporative heat exchanger containing a housing, inside of which are mounted finned tubes fixed in tube sheets. Heat transfer intensification is achieved by creating a corona discharge in the annular gas space of the heat exchanger. In this case, due to the blowing of the film surface by electric wind, a more intense heat transfer to the gas medium occurs [1]. .

The disadvantages of this device are the large energy consumption for creating a corona discharge, commensurate with the magnitude of the heat flux, and the limited scope of the corona discharge. For example, this method of intensifying heat transfer is ineffective in condensation, since the temperature of the vapor and the surface of the condensate film are almost the same.

Closest to the proposed one is a capacitor containing a grounded housing, a high voltage electrode mounted inside the housing coaxially to the latter, and steam supply and condensate discharge pipes. The high voltage electrode is connected to a high voltage source located separately from the capacitor [2].

A disadvantage of the known capacitor is the presence of a high voltage source located outside the capacitor. With this arrangement of the high voltage source, it is impossible to ensure the automatic operation of the capacitor.

The purpose of the invention is the autonomy of the capacitor.

This goal is achieved by the fact that in a capacitor containing a grounded housing, a high-voltage electrode installed coaxially to the latter inside the housing, and steam supply and condensate discharge pipes, the high-voltage electrode is made in the form of a hollow cylinder, one of the bases of which is perforated, and a supply pipe is installed on the other steam, moreover, inside the cylinder, on bearings isolated from it, an additionally grounded shaft is installed with a screw sequentially placed on it along the steam of the gas mixture and shields (rollers) forming a movable contact with the cylinder.

Between the high-voltage electrode and the housing _5, a high-voltage adjustable resistor can be additionally installed.

The drawing shows a capacitor, a longitudinal section.

Inside the grounded housing 1 cooled outside, a high-voltage electrode is installed coaxially to it, made in the form of a hollow cylinder 2, one of the bases 3 of which is perforated, and on the second there is a pipe 4 for supplying steam ₁₅ inside the cylinder 2. A grounded shaft B is installed on bearings 5 with it along the movement of the vapor-gas mixture by a screw 7 and brushes (rollers) 8, elastically adjacent to the inner surface of the cylinder 2. Bearings 5 are fixed 20 in the cage 9 with holes 10 for the passage of steam. The cages 9 are made dielectric for the electrical isolation of the bearings 5 from the cylinder 2. The cylinder 2 is grounded through a high-voltage resistor 11. The capacitor housing 2 and the high-voltage electrode ^{25 are} made of metal. The condensate discharge pipe is formed by the housing 1 and the cylinder 2.

The capacitor works as follows.

₃₀ Steam is fed into the hollow cylinder 2 of the high-voltage electrode and drives the screw 7, which transmits the rotation of the brushes (rollers) through the shaft 6. When the brushes 8 rub against the inner surface of the cylinder 2, an electric field is created in the gap between the cylinder ₃₅ rum 2 of the housing 1 due to tribo-charges, which acts on the condensate film, thinning it due to spraying. By reducing the thermal resistance of heat transfer from the side of the condensate film 40, the heat transfer process is substantially intensified.

If a large amount of charge accumulates on a high-voltage electrode, breakdown is possible. To eliminate this phenomenon nezhe4 desirable to ₅ and serves as a high voltage resistor 11, through which drain excess charges to the ground.

The creation of an electric field in the capacitor due to tribo charges allows you to abandon the external source of high 50 voltage, which ensures the autonomy of the capacitor.

Claims (2)

1. A CAPACITOR containing a grounded housing, a high-voltage electrode installed coaxially to the latter inside the housing, and steam supply and condensate drain pipes, characterized in that, in order to ensure its autonomy, the high-voltage electrode is made in the form of a hollow cylinder, one of the bases of which perforated, and on the other there is a steam supply pipe, and inside the cylinder on bearings isolated from it there is additionally a grounded shaft with sequentially placed on it in the direction of travel steam-gas mixture with a screw and brushes (rollers) forming a movable contact with the cylinder. 2. The capacitor in π. 1, characterized in that, in order to increase reliability by eliminating breakdown, between the high-voltage electrode and the housing is additionally installed high-voltage _ adjustable resistor. § sl e s u>