SU1357657A1 - Vacuum deaerator - Google Patents

Description

The invention relates to a power system, in particular to vacuum deaerators.

The purpose of the invention is to improve the efficiency of deaeration under conditions of non-temporary loads.

The drawing shows a vacuum deaerator, general view.

The vacuum deaerator contains plates 2 and 3 installed in case 1 of the alternatively water-sprinkling and storage bays. The jet compartment 4 is enclosed between the plates 2 and 3. The housing 1 contains a branch pipe 5 for the supply of cold deaerated water, a branch pipe 6 for removal of deaerated water to the bottom 7 to disqualify. Pipe 8 supplies overheated water. The pipeline 8 contains the collector 9 for supplying superheated water under the bubble plate 3 and the collector for supplying water to the jet compartment 4. The collectors 9 and 10 are connected by a U-shaped pipe 11, while its lower section is located below the pipeline 8 to form a hydraulic seal.

Through the inlet pipe 5. Cold chemically softened water enters the partitioned water distribution plate by 2 n structures distributed in compartment 4, where it is heated to a temperature close to the saturation temperature, partially deaerated with steam that formed from the evaporation of water after heating. collector 10. Further, deaerated water mixed with

hot water enters the bubbling plate 3, where the final deaeration of water occurs. At low heat loads in the U-shaped m pipe 11 is a water column. In this case, the overheated water enters the collector under the plate 3, where it boils, and the resulting vapor through the holes of the plate 3 turbulently the water, creating a layer of mobile foam. In the unstable mass, due to the large surface of the contact surface and water, intensive deaeration passes. With increased tenil and hydraulic load, the flow of unregulated water also increases. In this case, the pressure drop increases under the plate 3. As a result, the water column in the U-shaped pipe 11 is discharged through the collector 10 into the jet compartment 4, where it boils up. Formed das heats cold water in streams to saturation temperature, condenses and provides primary heating and coarse water deaeration. The non-condensable gases and vapor are removed from the deaerator through nozzle 7. As the load decreases, the pressure drop under the plate 3 decreases and the pipe 11 is blocked by a column of accumulating water. Through the collector 10, no water enters the jet compartment 4, which achieves pressure control in the deaerator and eliminates water hammer and oxygen leakage into deaerated water, which is ultimately new deaeration efficiency.

Claims (1)

A VACUUM DEAERATOR containing a water distribution and bubbling torch installed in the housing, a jet compartment enclosed between them, a horizontal pipeline for supplying superheated water, manifolds communicated with it for supplying water to the bubbler plate and into the jet compartment, nozzles for supplying cold, removal of deaerated water and evaporation, characterized in that, in order to increase the efficiency of deaeration under conditions of variable loads, the deaerator is additionally equipped with a U-shaped pipe connecting e collectors. while its lower section is located below the pipeline for supplying superheated water. sl o o sl o SI