SU547629A1 - Vertical steam heat exchanger - Google Patents

Description

(54) VERTICAL STEAM WATER HEAT EXCHANGER

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Isoooretation refers to heat exchangers, in particular, to vertical steam-water heat exchangers and can be used to preheat the feed water in heat and power plants and in boiler rooms.

A vertical steam heat exchanger is known, comprising a housing with a main tube bundle and an integrated condensate cooler 1. However, the condensate cooler, which is an autonomous heat exchanger with its tube bundle, is difficult to manufacture and has a large metal content.

A vertical steam-water heat exchanger is known, comprising a housing with tubes fixed to the tube plates and connected to the upper and lower water chambers, and a condensate cooler 2.

The condensate is cooled in this heat exchanger in the lower part of the shell annulus during condensate flooding a part of the surface of the tubes.

However, a well-known vertical steam heat exchanger has low condensate cooling efficiency due to low speed.

its flow in the annular space, as well as a small active surface of condensation.

The purpose of the invention is to intensify heat transfer.

For this, the condensate cooler is made in the form of a coil placed in the lower water chamber and communicated with the shell annulus through a condensate receiving chamber attached to the tube plate.

The drawing shows the proposed vertical steam heat exchanger. The heat exchanger consists of Kopnjca 1, the upper 2 and lower 3 water chambers, the upper 4 and lower 5 tube plates, tubes 6. The lower chamber 3 is equipped with a nozzle 7 for supplying heated water and a nozzle 8 for condensate. In the upper water chamber 2 there is a branch pipe 9 for discharging heated water. In the upper part of the housing 1 is located the pipe 10 for supplying heating steam. In the lower water chamber 3 there is a condensate cooler, made in the form of a coil 11, communicated with the shell annulus through a condensate receiving chamber 12 attached to the tube plate 5. The condensate level in the intertubular space is monitored by water-proof glass 13. Heating steam

it is fed through the pipe 10 into the shell annulus, and, condensing on the outer surface of the tubes 6, heats them; the condensate flows down and through the condensate receiving chamber 12 enters the coil And where it is cooled with water supplied to the lower water chamber 3. The cooled condensate is discharged through the nozzle 8. Heated water through the nozzle 7 is fed into the lower water chamber 3, outside the coil 11 and enters the tube 6, where it is heated and then discharged through the pipe 9 in the upper water chamber 2. Due to the significantly higher flow rate of condensate in the coil compared to the flow rate in the annular space, the effect Heat transfer rate when cooling condensate. In addition, the condensate is cooled in a coil, i.e. in the absence of its flooding of a part of the surface of the tubes, which makes it possible to increase the active surface of the condensation and, therefore, the heat output of the steam heat exchanger.

Claims (2)

Invention Formula A vertical steam heat exchanger comprising a housing with tubes fixed to the tube plates connected to the upper and lower water chambers, and a condensate cooler, characterized in that, in order to intensify the heat exchange, the condensate cooler is implemented in the form of a coil located in the bottom water chamber and communicated with the annular space of the housing through attached to the tube plate condensate receiving chamber. Sources of information taken into account in the examination: , 1. Copyright certificate № 317858, CL F 22 d / 32,1970. 2. Lebedev V "D" Heat exchange, drying and refrigeration units. M., Energie, 1972, p.14, fig. 1-2a. 73Conden I cam. eight