SU1652783A1 - Direct-contact condenser - Google Patents

Abstract

This invention relates to a power system and can be used in desalination plants. The aim of the invention is to increase the efficiency of condensation and reduce scale formation. The condenser contains a vertically mounted cylindrical bubbler (B) 1 with a steam distribution manifold (K) 2 placed in its lower part 2. B1 is equipped with a condensate drain connection 3 and a steam discharge connection 4. The condenser also contains a pump 5 connected inlet to nozzle 4, and outlet to K 2. The condenser is equipped with a condensate cooling circuit containing a condensate discharge pipe 6, a heat exchanger 7 and a condensate supply pipe with a pump 9. B 1 is equipped with a condensate discharge pipe 10 and a branch pipe 11 of its outlet connected to the respective pipelines. Inside B 1 above K 2, vertical partitions 12 are installed. The nozzle 10 is located under K2, and the nozzle 11 is located between the upper cut of the partitions 12 and the nozzle 3. 3 Il.

Description

The invention relates to a power system and can also be used in desalination plants.

The purpose of the invention is to increase the efficiency of steam condensation and reduce scale formation.

The drawing schematically shows the proposed capacitor.

The condenser contains a vertically mounted cylindrical bubbler 1 with a steam distribution manifold 2 located in its lower part. The bubbler 1 is equipped with a condensate removal pipe 3 and a steam outlet pipe 4. The condenser also contains a pump 5, connected at the inlet to the steam outlet 4, and at the outlet, to a steam distribution manifold 2. The condenser is equipped with a condensate cooling circuit containing a condensate discharge pipe 6, a heat exchanger 7 and a condensate supply pipe 8 with a pump

9. The bubbler 1 is equipped with a pipe 10 for supplying condensate and a pipe 11 for its removal connected to the corresponding pipelines of the condensate cooling circuit. Inside the bubbler 1, vertical partitions 12 are installed above the steam distribution manifold 2. A condensate drain pipe 11 is located in the lower part of the bubbler 1 under the steam distributor 2, and a condensate drain pipe 11 between the upper cut of the vertical partitions 12 and the installation location of the condensate removal pipe 3. The condenser also contains a pipe 13 for supplying steam. The heat exchanger 7 can be installed inside the housing 14, equipped with a pipe for draining the cooling medium and a pipe for its supply, on which a special pump 17 is installed.

Contact capacitor operates as follows.

The bubbler housing 1 is filled with condensate to the installation level of the condensate drain pipe 3. At the same time, the condensate cooling circuit with the heat exchanger 7 and pipelines 6 and 8 is also filled. The cooling medium is pumped through the housing 14 of the heat exchanger 7 with a pump 17. The condensate cooling circuit is turned on by pumping it using pump 9. From the steam-air space in the 5 upper part of the bubbler 1, the steam-air mixture is pumped out by pump 5 through the pipe 4, which enters the steam distribution manifold 2 and is fed between the vertical partitions 12.

The steam enters through the nozzle 13 and is also supplied to the manifold 2. The steam condenses during contact heat exchange, and its condensate is drained through the nozzle 3. The circulating condensate is used as the 15 intermediate heat transfer medium.

The steam supply to the bubbler is controlled so that the upper limit of the condensate temperature does not lead to the loss of scale from the cooling medium on the 20 outer surface of the heat exchanger 7,

Claims (1)

Claim A contact condenser containing a vertically mounted cylindrical bubbler with a steam distribution manifold located in its lower 25 part, equipped with a condensate removal pipe and a steam discharge pipe, and a pump connected at the input to the steam pipe, and at the output with a steam distribution pipe 30, characterized in that that, in order to increase the efficiency of steam condensation and reduce scale formation, the condenser is additionally equipped with a condensate cooling circuit 35 containing a condensate drain pipe one, a heat exchanger, a condensate inlet pipe with a pump, condensate inlet and outlet pipes connected to the corresponding pipelines of the condensate cooling circuit, and vertical partitions installed in the bubbler above the distribution manifold, the condensate inlet pipe being placed in the lower part of the bubbler under the steam distribution manifold, and branch pipe, condensate - between the upper section of the vertical partitions and the installation site of the condensate drain pipe. I