SU1652784A1 - Industrial water supply system - Google Patents

Abstract

The invention relates to the field of energy and can be used in cooling systems for condensers of thermal power plants and nuclear power plants. The aim of the invention is to increase the efficiency of the system by improving the removal of air from the water discharge chambers. The technical water supply system contains condensers 1 and 2 installed one above the other, with chambers 3 and 4 of the water supply and chambers 5 and 6 of the water outlet. Pressure conduits 7 and 8 are connected to chambers 3 and 4, respectively, and drainage conduits 9 and 10 to chambers 3 and 4, and drainage conduits 9 and 10 to chambers 5 and 6. Branch pipes 11 and 12 of the outlet are connected to the upper zones of the latter of air. The system is equipped with air discharge pipes 13 and 14 connected to drain conduits 9 and 10. The system includes a water jet ejector 15 with a supply pipe 16 and a discharge pipe 17. The pipe lines 16 and 17 are connected respectively to the pressure conduit 7 and the lower zone pipe 14 air release. The internal volume of the ejector 15 is connected to the nozzles 11 and 12. 1 Il. TO

Description

ABOUT

ate yu

VI 00

The invention relates to energy and can be used in cooling systems for capacitors of thermal power plants and nuclear power plants.

The purpose of the invention is to increase the efficiency of the system by improving the removal of air from the water discharge chambers.

The drawing shows a diagram of a technical water supply system.

The technical water supply system contains an upper condenser 1 and a lower condenser 2 with a chamber 3 supplying water to the upper condenser 1, a chamber 4 supplying water to the lower condenser 2, a chamber 5 diverting water from the upper condenser 1 and a chamber b diverting water from the lower condenser 2. Discharge conduit 7 is connected to the upper condenser chamber 4, and the pressure conduit 8 to the lower condenser 2 chamber 5.

The drain conduit 9 is connected to the chamber 5 of the upper condenser 1, and the drain conduit 10 is connected to the chamber 6 of the lower condenser 2. To the upper zones of the chambers 5 and 6, respectively, are connected a branch pipe 11 for exhausting air from chamber 5 and a branch pipe 12 for exhausting air from chamber 6. The system is equipped an air outlet pipe 13 communicated with a drain conduit 9, and an air outlet pipe 14 communicated with a drain conduit 10.

The system includes a water-jet ejector 15 with an inlet pipe 16 and a discharge pipe 17. The pipelines 16 and 17 are connected by a respective pressure conduit 7 and the lower zone of the air outlet pipe 14. The internal volume of the ejector 15 is connected to the nozzles 11. Armature 18 is installed on the connecting lines from nozzles 11, and armature 19 is installed on pipe 16.

The system works as follows.

Water is pumped by circulating pumps (not shown) through pressurized water lines.

7 and 8 to the upper condenser 1 and the lower condenser 2 and is discharged through the drainage conduits 9 and 10. The armature 18 and 19 is open. Under the influence of the Rej differential by pipeline 16

water enters the ejector 15 and creates a vacuum in the upper zones of chambers 5 and 6, which ensures the removal of air from the latter. Next, through the pipeline 17, the air-water mixture is removed to the air outlet pipe 14.

The need for air to enter the pipe 14 is dictated by the possible negative effect of air plugs in the drain conduits. This circumstance provides additional

effect in the work of the ejector as a result of the use of the principle of airlift, increasing the Rej.

Tubes 13 and 14 serve to release air from the system during start-up and breakdown of the vacuum.

in condensers when circulating pumps stop.

Claims (1)

The invention The technical water supply system, containing condensers with water supply and drain chambers, installed one above the other, pressure and drain conduits connected to the respective chambers of each condenser, air discharge pipes connected to the upper zones of the water diversion chambers, in order to increase work efficiency by improving the air removal from the water discharge chambers, the system is additionally equipped with air exhaust pipes connected to the upper and lower drainage conduits on condensers and ejectors with conductive supply and outlet duct connected respectively with the pressure conduit of the upper condenser and the lower zone of the air outlet pipe of the lower condenser, the ejector being connected to the air exhaust pipes.