SU950998A1 - Heat exchanger - Google Patents

Description

(54) HEAT EXCHANGER

The invention relates to heat exchangers installed in low pressure regenerative schemes of power and steam turbines and intended for heating feedwater with steam taken from the intermediate stages of the turbine.

A heat exchanger is known, comprising a housing with nozzles for supplying steam and water, draining water from the non-condensing gases, a two-pipe pipe system placed inside the housing and a horizontal partition with openings installed in the lower part of the first water passage housing, which divides the annulus to the condensation compartment and condensate cooler, equipped with a pipe outlet of the last 1.

in this heat exchanger through the holes in the horizontal partition, designed to drain condensate to the cooler, in case of abrupt position of the normal level of condensation. the flow of heating steam can flow to the tubes of the heat exchange surface of the condensate cooler;

preheater, which does not provide for the possibility of changing the value of the heat exchange surface of the condensate cooler in the process of its operation.

The aim of the invention is to increase the economy and reliability.

This goal is achieved by the fact that the heat exchanger additionally

10 is provided with shells installed in the openings of the partition on both its sides, covering one or more pipes with the formation of channels for condensate drainage into the cooler, 15 than in parts of the shells placed above the partition in the condensation compartment, a perforation is made with an increasing section of the heat exchanger , and between the lower cut

20 of the shell and the bottom tube plate is filled.

Figure 1 shows the heat exchanger, a longitudinal section; in figure 2 a longitudinal section aa-a in figure 1.

25

The heat exchanger includes a housing 1 with nozzles 2-5 supplying steam and water, draining water and sucking non-condensing gases, respectively, the upper and lower tube boards 6

30 and 7 located inside the housing 1

a two-way pipe system 8 and a horizontal partition 9 with openings 10 installed in the lower part of the housing 1 of the first run of water, dividing the annular space into the condensation compartment 11 and the cooler

12 condensate fitted with a pipe

13 withdrawal of the latter. The heat exchanger is also additionally provided with shells 14 installed in the openings 10 of the partition 9 on either side thereof, covering one or more pipes of the system 8.

With the formation of channels 15 for draining condensate to cooler 12, the portions 16 placed above partition 9 in condensation compartment 11 are perforated 16 with cross section increasing along the height of the heat exchanger, and between the lower section of shells 14 and bottom tube plate 7 gap 17.

The heat exchanger has upper and lower water chambers 18 and 19, adjacent to the upper and lower tube plates b and 7, guiding partitions 20 and a water indicating device 21.

The heat exchanger operates as follows.

Feedwater flows through the nozzle 3 into the lower water chamber 18, through the pipes of the first stroke of the pipe system 8 rises into the back water chamber 19, from where it passes through the pipes of the second stroke of the pipe system 8 into the lower water chamber 18 and is discharged through the nozzle the steam is supplied to the heat exchanger through the nozzle 2 by guide baffles 20, distributed along the height of the bundle of the tube system 8, the tubes of the second and then the first feedwater pass through, are condensed and flow down to the horizontal partition wall 9.

When a certain level is reached, the condensate enters through the perforations 16 of the first trough of the shells 14 and, moving through the channels 15, is cooled on the cuts in the surface of the pipe system 8 placed in the condenser 12 of the condenser.

With an increase in the level of condensate, the latter passes into the perforation 16 of the second, third, etc. of the shells of the shells. This increases the surface area involved in cooling the condensate. At the maximum level of condensate above the horizontal partition 9, the latter enters the channels 15 both through perforation 16 and through the upper sections of the shells 14.

The level of condensate above the horizontal partition 9 is fixed by the water-indicating device 21..

The stack through the channels 15 condensate through the gap 17 between the bottom section of the shells 14 and the bottom tube plate enters the cooler 12, from where, finally cooled, it is discharged through the nozzle 9.

Placing 9 shells 14 covering one or more pipes of system 8 in the openings of the horizontal septum makes it possible to change the value of the heat exchange surface as the level of condensate changes

chiller 12, the functions of which in this case are performed by sections of pipes located in shells 14.

In this case, leaks of heating steam to cooler 12 are eliminated, fluctuations of the condensate level are not dangerous .j, there are no hydraulic shocks and it is possible during the operation of the heat exchanger to regulate the amount of heat exchange surface involved in the cooling process.

A heat exchanger comprising a housing with nozzles for supplying steam and water, draining water, suction of non-condensable gases, upper and lower tube plates, a two-way tube system placed inside the housing and a horizontal partition with openings installed in the lower part of the first-stroke water body, dividing the annulus A condensing condensate cooler and condensate cooler equipped with a nozzle for discharging the latter, characterized in that, in order to improve efficiency and reliability, the heat exchanger is additionally equipped with shells, installed on the both sides of the partition walls, covering one or more pipes with the formation of channels for condensate drain into the cooler, and in parts of the shells placed above the partition in the condensation compartment perforations are made with the section increasing in the height of the heat exchanger and between the bottom section the shell and the bottom tube plate is filled.

Sources of information taken into account in the examination

1. Polynovsky Ya.L. et al. on the design of high-pressure chamber heaters for high-power

power units.-Electrical stations (m., Energie), 1977, 2, p. 22-23.

Claims (1)

Claim A heat exchanger comprising a housing with nozzles for supplying steam and water, water drainage, non-condensable gas suction, upper and lower tube boards, a two-way pipe system located inside the housing, and a horizontal baffle with openings installed in the lower part of the body of the first water passage dividing the annular space on the compartment condensation and condensate cooler, equipped with a branch pipe for draining the latter, characterized in that, in order to increase efficiency and reliability, the heat exchanger is additionally equipped with shells, installation oval in the openings of the partition on both sides, covering one or more pipes with the formation of channels for condensate drainage into the cooler, moreover, in the parts of the shells located above the partition, perforation is performed in the condensation compartment with a cross section increasing in height of the heat exchanger, and between the lower cut of the shell and the bottom tube plate is a gap.