SU1673805A1 - Liquid trap - Google Patents

Abstract

The invention relates to refrigeration engineering, in particular, to devices for separating channel liquid from refrigerant vapor in refrigeration units. The purpose of the invention is to increase the efficiency of liquid separation. For this, the high voltage electrode 8 is made in the form of a perforated cylinder, and the grounded also perforated electrode 12 is placed inside it, the housing 1 is grounded, and the charging device 3, in which the particles of the channel fluid are charged, is installed in the inlet 2. When these particles enter the cavity of the housing 1, in which an electric field is created, they settle on the walls of the housing and on the electrode 12. 1 sludge.

Description

The invention relates to refrigeration, in particular to devices for separating a dropping liquid from refrigerant vapor in refrigeration units.

The purpose of the invention is to increase the efficiency of liquid separation.

The drawing schematically shows a liquid separator.

The liquid separator comprises a housing 1, a nozzle 2 for entering the refrigerant vapor with a charger 3 installed in it, a nozzle 4 for exiting the refrigerant vapor, nozzles 5-7, respectively, for connecting valves, draining and receiving liquid refrigerant, a high-voltage perforated cylindrical electrode 8, installed on dielectric holders 9, to which a high-voltage potential line 10 is connected, passing through a dielectric sleeve 11, a perforated cylindrical grounded electrode 12, mounted on a metal eskih racks 13. The movement direction of the refrigerant gas shown by arrows 14, and the motion of liquid drops arrow 15. The housing 1 is electrically connected to the ground electrode 12 via the metal pillar 13, thereby housing 1 is grounded electrode. The charger 3 is made in the form of a needle, from the sharp tip of which there is a cold emission of charges that fill the entire space of the inlet pipe 2.

The liquid separator operates as follows.

Turn on the power source (not shown). Potential is supplied, for example, positive, to the charger 3. Next, potential, also positive, is applied to the high-voltage electrode 8. As a result, an electric field is created inside the housing 1 between the last, negative-potential, high-voltage electrode 8 with a positive potential and a grounded electrode 12 s negative real potential. Then, when you turn on the refrigeration unit, in which the liquid separator is installed, the vapor with the dropping liquid enters the pipe 2, where the particles of the dropping liquid are charged. Steam together with the charged particles of the dropping liquid enters the housing 1, where it loses speed and changes the direction of movement. Passing between the electrodes 8 and 12 and the housing 1, the particles of dropping liquid under the action of electric forces move to the surface of the housing 1 and to the surface of the grounded electrode 12, getting on the indicated surfaces, the fluid particles coagulate and flow by gravity to the lower part of the housing 1. Passing through the internal volume of the electrode 12, the particles of the dropping liquid also under the action of electric forces move to the surface of this electrode, where they coagulate and flow down. At this time, refrigerant vapor, its; free from the dropping liquid, they rise to the upper part of the housing 1, from where they exit through the nozzle 4. The liquid refrigerant accumulated in the lower part is removed through the nozzle 6.

Claims (1)

Claim A liquid separator comprising a housing with nozzles for supplying a vapor-liquid mixture and a liquid discharge located in its lower part, and a vapor outlet pipe in its upper part, in which a high-voltage and grounded perforated cylindrical electrodes are coaxially mounted, and the nozzle for supplying a vapor-liquid mixture is equipped with a charging device, characterized in the fact that. in order to increase the efficiency of the liquid-separation, the high-voltage electrode is made in the form of a perforated cylinder and a grounded electrode is placed inside it, while the housing is also grounded.