SU1186890A1 - Steam trap - Google Patents

Abstract

A CONDENSER, containing a mixer, connected to the lifting and lowering pipes with a separator, a condensate supply manifold, characterized in that, in order to increase efficiency, the trap is equipped with a Laval nozzle, in the input part of which tangential channels are made, and a conical shell with a concave side surface, and the inlet nozzle communicates with the collector, the nozzle exit part is placed in the lower part of the mixer, the conical shell is installed in the mixer between the lifting pipe and the Laval nozzle, with is larger base shell rigidly mounted on the inner surface of the mixer. From € 00 05 00 with

Description

The invention relates to pipe fittings, namely, devices for draining condensate from steam-consuming apparatuses.

The purpose of the invention is to increase efficiency by improving the steam separation process and increasing productivity.

The drawing shows the trap, osh, i view.

The steam trap contains a mixer 1 connected by a lift 2 and lower 3 pipes to a separator 4. The condensate drain valve is equipped with a Laval nozzle 5, inlet communicated with a collector 6. In the input part of the Laval nozzle there are tangential channels 7, the output part of the nozzle is placed at the bottom of the mixer 1 and provided through holes 8. In mixer 1, between the nozzle 5 and the lifting tube 2, there is a conical shell 9, the larger base of which is rigidly fixed on the inner surface of the motor 1. The smaller shell 9 turns It is connected to the exit from the nozzle 5. The condensate is removed by means of a nozzle 10.

The steam trap works as follows.

The condensate from the heat-consuming apparatus enters under pressure through the tangential channels 7 into the cylindrical part of the Laval nozzle 5, twists and passes its expanding part, where a rotating annular flow of steam and condensate is formed. The withdrawn flow from the Laval nozzle 5 enters the annular space between the side surface of the mixer 1 and the shell 9, in which the steam flow rate drops due to deceleration, and the steam condenses. In the mixer 1, a reverse vortex flow is formed moving towards the main along the inner side surface, squeezes the main flow flame towards the wall and enters the shell 1 along the axis of the mixer 1, where it expands and hits the end surface of the mixer 1, retards, condenses and enters a second time in the riser 2. In the shell 9, the kinetic velocity of the stream is converted into pressure energy, due to which the condensate rises upward in the riser 2 and enters the separator 4. Through the nozzle 10 a part of the condensate is due to The centrifugal force goes into the condensate line, and the other enters the standpipe 3 and then flows into the vacuum zone located at the bottom of the mixer 1. Through the holes 8, the condensate flows into the inner central part of the Laval nozzle 5 and mixes with the swirling steam flow. In this case, numerous vapor condensation centers appear in the steam flow. By installing the Laval nozzle 5 in the riser 2, the velocity head is used, which is used to suck recirculating condensate and vigorously mix it with fresh condensate. The mixture of fresh and cooled condensate receives movement upstream of the riser 2, thereby eliminating the possibility of circulating overturning, i.e. movement of the reverse flow through pipe 3 upwards.

Claims (1)

A CONDENSATOR trap containing a mixer connected by a riser and a down pipe to a separator, a condensate supply manifold, characterized in that, in order to increase efficiency, the condensate trap is equipped with a Laval nozzle, in the inlet part of which there are tangential channels, and a conical shell with a concave side surface, and on the inlet nozzle is communicated with the collector, the outlet of the nozzle is located in the lower part of the mixer, a conical shell is installed in the mixer between the riser and the Laval nozzle, while shee base shell rigidly mounted on the inner surface of the mixer. b s P -from? I p -from? I H