SU1168773A1 - Steam-liquid heat exchanger - Google Patents

Abstract

PARO-LIQUID HEAT EXCHANGER containing a water chamber placed in a housing divided by a partition into inlet and outlet parts, connected to the last U-shaped tubes fixed in a tube plate, pipes for supplying steam and condensate drain, condensate cooler, in the casing of which a portion of first-stroke tubes , a condensate trap placed in the lower part of the case, characterized in that, in order to increase the efficiency of the heat exchanger, all the tubes of the first turn are placed in the casing in the upper part of their length, with The coolant is connected to the condensate collector through additionally installed lifting tubes connected to the bottom of the casing, in the inlet part of the water chamber a sealed compartment is provided with a discharge pipe, and in the tube plate with a version for communicating the latter with the internal space of the casing. At Od 00 00

Description

The invention relates to a power system and heat exchangers and can be used in the systems of regenerative heating of the main condensate of steam turbines of nuclear and thermal power plants (nuclear power plants and thermal power plants), water heating in network heaters due to heat taken from the steam during its condensation and overheating of the condensate heating couple.

The purpose of the invention is to increase the efficiency of the heat exchanger.

The drawing shows a vapor-liquid heat exchanger, a longitudinal section.

The heat sink contains a water chamber 1 with nozzles 2 and 3 of the inlet and outlet of heated water, respectively, body 4, system of i-shaped tubes 5, tube plate 6 with a hole 7, above which partitions 8 are installed, forming a compartment 9, with a branch pipe attached to it pipe 10 for the outlet of the heating steam condensate. A casing 11 is welded to the tube plate 6, forming together with a part of the first-stroke heating tubes 5 a condenser condenser 12. To the bottom of the casing 11, lifting pipes 13 are hermetically connected, the lower ends of which are located below the level of the heating steam condensate, accumulating in the condensate collector 14, located in the lower part of the housing 4, on which water-indicating glass 15 with the upper 16 and lower 17 fittings are installed. The case 4 is connected to the nozzles of the steam supply 18, emergency drain condensate heating steam 19 and exhaust air 20.

The heat exchanger operates as follows.

The flow of heated water enters through the nozzle 2 of the inlet to the inlet of the water chamber 1, passes through the system of tubes 5 and leaves the nozzle 3 of the outlet

FROM HEAT EXCHANGER. Heating steam enters housing 4 through nozzle 18. Water is heated in a system of tubes 5 when steam condenses on the heat exchange tubes 5 and in the zone of condensate cooler 12 due to its supercooling relative to the saturation temperature of the heating steam. In the initial period of operation, the condensate is accumulated in the condensate collector 14 located in the lower part of the housing 4. When

 reaching a certain load, when the difference between the pressure in the housing 4 and the pressure in the apparatus (not shown), where this condensate is discharged through the nozzle 10, reaches a value greater than the total hydraulic resistance of the lifting pipes 13, the condenser condenser 12, the condensate discharge pipeline along with the installed the shut-off and control valves (not indicated) are on it, condensate enters the lifting pipes 13, then the heating surface of the condenser 12 chiller passes and through the opening 7 in the tube plate enters the compartment to 9 of the water chamber 1, from where it is withdrawn from the heat exchanger through the branch pipe 10.

Placing the condenser condenser 12 only on the initial section of the tubes of the heating surface of the first turn increases the temperature head in it and, while maintaining all other conditions, reduces the size of the heating surface of the cooler 12 by 15-25%. The installation of the lifting tubes 13 excludes, in normal operation, the condensate filling of a part of the heating surface, which in this case is put into operation in the condensation mode, which makes it possible to increase the heating of the heated water and increase the efficiency of the heat exchanger.

Thus, the efficiency of the heat exchanger is improved.

Claims (1)

VAPO-LIQUID HEAT EXCHANGER containing a water chamber located in the casing, divided by a partition into the inlet and outlet parts, connected to the latter U-shaped tubes fixed in the tube plate, a steam cut and condensate drain duct, a condensate cooler, in the casing of which a part of the first-stroke tubes is installed condensate collector located in the lower part of the housing, characterized in that, in order to increase the efficiency of the heat exchanger, all the tubes of the first stroke are placed in the casing in the upper part of their length, while the casing it is single with the condensate collector through additionally installed lifting pipes connected to the bottom of the casing, a sealed compartment equipped with a branch pipe is made in the inlet of the water chamber, and a hole for communicating the latter with the casing interior is made in the tube plate.