SU1216553A1 - Heat exchanger - Google Patents

Description

The invention relates to circuit-exchangers installed in steam turbine regeneration systems, heat supply systems and designed to heat water with steam taken from intermediate turbine stages or steam from industrial boilers;

The aim of the invention is to improve the efficiency of operation by more complete removal of non-condensing gases.

The drawing shows a heat exchanger, a longitudinal section.

The heat exchanger contains a water chamber 15 placed above the body 2 with the pipe system 3, covered in the bottom part of the tray 4 with perforations 5 in its bottom 6 and along the periphery of the colony 7, the bottom edge of which is. with the formation of a safety gate 8, it is inserted into an annular pallet 9, forming, with a tray 4, a gap 10 for steam passage, and the perforation 5 in the bottom 6 of the tray 4 is displaced in CTopoiry of the gap 0, and in the wall of the pallet 9 from the side opposite the perforation 5 in the bottom 6 of tray 4, is made with an opening P, the lower edge of which is connected by a dense jumper 12, with THIS tray 4. In addition, the heat exchanger is equipped with a device 13 d.1t of discharge of non-condensation of lean gases / vodha) and pipes 14 and 15 gave steam and condensate drain respectively

During the operation of the heat exchanger, water from the water chamber 1 enters the pipe system 3 and, having made several passages J with it, exits the heat exchanger. Pogok heating steam through the pipe i4 on the body 3 post2165532

It goes into the annular space and condenses on the pipe system 3. Almost all of the condensate enters the hydraulic lock 8 and then through the opening

5 11 in the wall of the tray 9 is poured into the tray 4 connected by a dense bridge 12 with the lower edge of the opening 11. Thus, all the condensation of the heating steam passes through the flooded part of the pipe system 3 in the tray 4, supercooling and through the perforations 5 in the bottom 6 of the tray 4 is drained to the level of condensate in housing 2. Considering that through tray 4

15 all the steam condensate passes through, it is possible not only to increase the number of perforations 5 in the bottom 6 of the tray 4, but also to arrange them so that at the same time as

20 increases flooding of the piping system 3 to increase the amount of condensate subcooling, increase the heat output of the mixing air cooler, which creates

25 conditions for maximum condensation of steam from the vapor-air mixture. This makes it possible to increase the speed of the steam flow along the entire path of its movement in the annular space,

30 After being released from the annular space, the steam-vapor mixture enters the mixing air cooler 5 formed by jets of subcooled condensate flowing out

35 from the perforations 5 of the bottom 6 of the tray 4. The vapor from the mixture is intensively condensed on the jets, the concentration of non-condensable gases increases, which allows them to be more fully removed from

40 annular space, thereby. Increased efficiency of the heat exchanger.

Claims (1)

HEAT EXCHANGER containing a water chamber located above the housing, with a pipe system enclosed in the lower part of the tray, with a perforation in its bottom and around the periphery of the casing, the lower edge of which is formed with a water seal, into an annular tray forming a passage gap with the tray steam, moreover, the perforation in the bottom of the tray is displaced toward the specified gap, characterized in that, in order to increase the efficiency of work by more fully removing non-condensable gases, in the wall of the pallet from the side, opposite perforations in the tray bottom, an opening is formed, the lower edge of kotoro- SS connected with this dense lintel tray. 0} Joint venture Od 121655.3