RU2306427C1 - System of regenerative heating of water in steam-turbine plants (versions) - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: invention can be used in heat exchange devices of regenerative systems designed for water heating owing to condensing of steam on pipes of heat exchange surfaces. Vertical partition in form of cup enclosing pipes of heat exchange surfaces is installed in heaters over pipe plate. Outer size of cup is smaller than outer size of partitions of pipe system. Said vertical partition forms, together with housing, outer and inner condensate collectors, ejector is installed on condensate drain pipes from heaters with larger pressure into heaters with smaller steam pressure in housing after regulating valve, and inner condensate collector of heater last in direction of heated water flow is connected by pipeline with fitted on regulating valve or limiting plate with smaller pressure steam heater in housing. System of regenerative water heating of steam-turbine plants, design version 2, includes heaters installed successively in direction of heated water flow with steam inlet, condensate inlet and outlet branch pipes, and pipe system with horizontal partitions with lower arrangement of distributing water chamber with heated water inlet and outlet branch pipes, pipe plate, and housing of heaters are connected between pipelines with regulating heaters with higher pressure of steam in housing into heaters with smaller pressure of steam in housing, and inner condensate collectors of heaters with higher pressure of steam in housing are connected by pipelines, with fitted on regulating valves or limiting plate, with adjacent housings of heaters with lower steam pressure in housing.

EFFECT: increased economy of heat exchanger owing to prevention of flooding of heat exchange surface arranged directly over pipe plate by steam condensate.

3 cl, 2 dwg

Description

The invention relates to the field of energy and can be used in heat exchangers of regenerative systems, heat supply systems designed to heat water by condensation of steam on the pipes of the heat exchange surface.

A known scheme for the removal of heating steam condensate from a surface heat exchanger housing containing a pipe system with horizontal partitions, the steam condensate from which flows to its level located with the same height over the entire area of the tube plate, the housing with steam inlet pipes, steam condensate, steam condensate outlet, the lower distribution water chamber with the inlet and outlet pipes of the heated water installed under the tube plate, steam condensate accumulates above the tube plate, - through a pipeline with adjustable yuschim valve in the heat exchanger with a lower pressure in the housing. (Industry catalog. Heat transfer equipment of steam turbine plants, part I, 20-89-09 - M .: TSNIITEITYAZHMASH, 1989, p. 82, fig. 70, p.23, fig. 16)

A disadvantage of the known heat exchanger is the presence of an adjustable level of condensate above the tube plate, which leads to the need for flooding of the lower sections of the vertical pipes of the heat exchange surface, excluding them from active heat transfer in the steam condensation mode.

A known scheme for the removal of heating steam condensate from a surface heat exchanger housing containing a pipe system with horizontal partitions, the steam condensate from which flows to its level, located with different heights (thickness) over the entire area of the tube plate, a housing with steam inlet, steam condensate, outlet pipes steam condensate, the lower distribution water chamber with the inlet and outlet nozzles of the heated water installed under the tube plate, which is composed of the central part - the disk and peripheral - flat to condensate displaced vertically relative to each other, above the flat ring of the tube plate in the annular gap between the body and the cylindrical shell connecting the two parts of the tube plate, accumulates heating steam condensate draining from the central part (disk) of the tube plate, from where this condensate flows through a pipe with the control valve on it is diverted to another heat exchanger with less pressure in the housing. (Industry catalog. Heat exchange equipment of steam turbine plants, part I, 20-89-09 - M .: TSNIITEITYAZHMASH, 1989, p. 83, fig. 71, p. 22, fig. 15)

By the totality of the features, this known technical solution is the closest to the claimed one and is taken as a prototype.

A disadvantage of the known surface heat exchanger, adopted as a prototype, is the increase in the mass of the heater due to the need to increase the diameter of the casing in order to create a gap in which the condensate of the heating steam accumulates, and the inability to control the quality of the welds of the tube plate welding (disk) to the vertical cylindrical shell connecting both parts of the tube plate, disc and flat ring.

The claimed solution allows, due to the installation on the tube plate along the external contour of the pipe arrangement on it, a vertical partition in the form of a cup and the execution of horizontal partitions of the pipe system with external dimensions larger than the external contour of the vertical partition in the form of a cup, the main part of the steam condensate is removed from the gap between the casing and the vertical partition (external condensate collector) into the heat exchanger with lower steam pressure in the casing, as well as provide an autonomous drain of the heating steam condensate from the internal volume (internal condensate collector) and at the same time completely eliminate the flooding of the lower sections of all pipes of the heat exchange surface by this condensate. Condensate can be removed from the inner volume of the cup by condensate draining through a pipe connected to an ejector installed on the steam condensate supply pipe from the heater with a higher vapor pressure, and also by condensate draining through a pipe with a restrictive washer or control valve installed on it into a heater with a lower vapor pressure in the housing.

On the pipe surface removed from beneath the condensate level in the internal condensate collector, the total value of the heating surface can be reduced and the cost of the heat exchanger can be reduced or, when its surface is switched on in condensation mode, the heat load is increased and the final temperature of the heated water is increased. Thus, the claimed solution allows to increase the efficiency of the heat exchanger by eliminating the condensate flooding of steam of the heat exchange surface located directly above the tube plate.

A system for regenerative heating of water in steam turbine plants is proposed (option 1), which includes heaters installed sequentially along heated water with a steam inlet, condensate inlet and outlet pipe located on the body, a pipe system with horizontal partitions in it, with a lower distribution water chamber with inlet pipes and the outlet of the heated water, the tube plate, the heater bodies are interconnected by pipelines with control valves installed on them for cascading steam condensate drain from heaters with steam pressure in the casing higher to heaters with steam pressure in the casing less, while in the heaters a vertical baffle is installed in the form of a cup, covering pipes of the heat exchange surface, the outer size of which is less than the external size of the baffles of the pipe system, in the heaters forming together with the body the external and internal condensate collectors, on the condensate drain pipelines from heaters with a higher pressure into heaters with a lower vapor pressure in orpuse the control valve installed ejector inner condensate preheater with a lower vapor pressure in the housing is connected to the ejector and an inner condensate latter during the heated water heater is connected with a conduit mounted thereon a control valve or restrictive washer with lower pressure steam in the heater housing.

A system of regenerative heating of water in steam-turbine installations is proposed (option 2), which includes heaters installed sequentially along heated water with a steam inlet, condensate inlet and outlet pipe located on the body, a pipe system with horizontal partitions in it, with a lower distribution water chamber with inlet pipes and the outlet of the heated water, the tube plate, the heater bodies are interconnected by pipelines with control valves installed on them for cascading steam condensate drain from heaters with steam pressure in the casing higher to heaters with steam pressure in the casing lower, while the internal condensate collectors of heaters with steam pressure in the casing are more connected by pipelines with control valves installed on them or restrictive washers with adjacent heaters casing with steam pressure in the case smaller.

The invention is illustrated by drawings, in which Fig. 1 shows a first embodiment, Fig. 2 shows a second embodiment of a proposed system for regenerative heating of water in steam turbine plants.

The system of regenerative water heating in steam turbine plants (option 1) includes sequentially installed heaters for heated water. Each heater includes a housing 1 with a steam inlet 2 connection pipe, steam inlet 3 and steam condensate outlet 4 installed on it, a pipe system 5 with horizontal guide walls installed therein 6. A pipe board 7 and a distribution water chamber 8 with an inlet pipe are installed under the pipe system 5 9 and the outlet pipe 10 of the heated water. The heater housings are interconnected by pipelines 11 with control valves 12 installed on them for cascade discharge of steam condensate from heaters with steam pressure in the housing higher into heaters with a gift pressure in the housing less. In the heaters above the tube plate 7, a vertical partition 13 is installed in the form of a cup, covering the pipes of the heat exchange surface, the external size of which is less than the external size of the partitions 6 of the pipe system 5. The vertical partition 13 in the form of a cup forms, together with the housing 1, the outer 14 and the inner 15 condensate collectors. An ejector 16 is installed on the condensate drain pipelines 11 from the higher pressure heaters to the heaters with lower vapor pressure in the housing behind the control valve 12. The internal condensate collector 15 of the heater with lower vapor pressure in the housing is connected through the pipe 17 through the pipe 18 with the ejector 16. The internal condensate collector 15 the latter along the heated water of the heater is connected by a pipe 19 with a restrictive washer 20 mounted on it or a control valve with a heater of lower pressure pair in the case.

The system of regenerative water heating in steam turbine plants (option 2) includes sequentially installed heaters for heated water. Each heater includes a housing 1 with a steam inlet pipe 2 installed, steam inlet 3 and steam condensate outlet 4 installed on it, a pipe system 5 with horizontal guide walls installed therein 6. Under the pipe system 5, a pipe board 7 and a distribution water chamber 8 with an inlet pipe are installed 9 and the outlet pipe 10 of the heated water. The heater housings are interconnected by pipelines 11 with control valves 12 installed on them for cascade discharge of steam condensate from heaters with steam pressure in the housing higher to heaters with steam pressure in the housing less. In the heaters above the tube plate 7, a vertical partition 13 is installed in the form of a cup, covering the pipes of the heat exchange surface, the external size of which is less than the external size of the partitions 6 of the pipe system 5. The vertical partition 13 in the form of a cup forms, together with the housing 1, the outer 14 and the inner 15 condensate collectors. The internal condensate collectors 15 of the heaters with steam pressure in the housing 1 large through the pipe 17 are connected by pipelines 19 with restriction washers 20 mounted on them or control valves with adjacent heaters 1 bodies with lower steam pressure in the housing.

The system of regenerative heating of water in steam turbine plants works as follows

The stream of heated water enters the distribution water chamber 8 through the pipe 9 and then into the pipe system 5, where it is heated by condensing steam and removed from the heat exchanger through the pipe 10. Heating steam through the pipe 2 enters the housing 1 and is distributed over the entire height of the pipe system 5. Upon entering the annulus, the steam condenses and drains through the pipes of the heating surface to the horizontal guides 6. From the peripheral sections of the horizontal guides 6, the condensate drains to Ram external condensate 14 from which is removed through pipe 4, line 11, regulating valve 12, an ejector 16 to a heat exchanger with a lower steam pressure in the enclosure.

The partitions 6 along the external contour are larger than the external size of the cup 13, therefore, all the condensate of the heating steam along the outer edge of the horizontal partitions 6 flows to its level in the external condensate collector 14 and only a small part of the condensed steam on the heat exchange surface located under the first one (report from tube plate) with a horizontal partition, flows into the internal condensate collector 15. In the heat exchanger, non-condensable gases are vented. From the internal condensate collector 15, condensate is discharged through a pipe 17, a pipe 18, an ejector 16 connected to a pipe 3 of the same heater. The working fluid in the ejector 16 is steam condensate discharged from the heater with a higher pressure in the housing. From the last along the heated water of the heater steam condensate from the internal condensate collector 15 through the pipe 17, the pipe 19 with the restrictive washer 20 is discharged into the heater with a lower vapor pressure in the housing.

According to the second option, the system works similarly to the first option, except for the work associated with the installation of the ejector.

Condensate of heating steam from the internal condensate collector 15 of each heater is discharged through a pipe 17, a pipe 19 with a restrictive washer 20 installed on it into the housing 1 of the heat exchanger with lower vapor pressure in the housing.

Claims (2)

1. The system of regenerative heating of water in steam turbine installations, including successively installed heaters with steam inlet, condensate inlet and outlet pipes, a pipe system with horizontal partitions in it, with a lower distribution water chamber with heated inlet and outlet pipes water, a pipe board, while the heater bodies are interconnected by pipelines with control valves installed on them for cascade discharge steam condensate from heaters with a steam pressure in the casing large to heaters with a steam pressure in the casing less, characterized in that a vertical baffle is installed in the heaters above the tube plate in the form of a cup covering the tubes of the heat exchange surface, the external size of which is less than the external size of the baffles of the pipe system, forming together with the casing the external and internal condensate collectors, while on the condensate drain pipelines from heaters with high pressure to heaters with lower pressure an ejector is installed in the casing behind the control valve, and the heater’s internal condensate collector with a lower vapor pressure is connected by a pipeline to the ejector; in addition, the last condensate collector of the last heater water being heated is connected by a pipeline to the control valve installed on it or a restrictive washer with a smaller heater steam pressure in the housing. 2. A system of regenerative heating of water in steam turbine installations, including successively installed heaters with a steam inlet, condensate inlet and outlet pipe located on the body, a pipe system with horizontal partitions in it, with a lower distribution water chamber with heated inlet and outlet pipes water, a pipe board, while the heater bodies are interconnected by pipelines with control valves installed on them for cascade discharge steam condensate from heaters with steam pressure in the casing large to heaters with steam pressure in the casing lower, characterized in that the internal condensate collectors of heaters with steam pressure in the casing are large connected by pipelines with control valves installed on them or restrictive washers with adjacent heaters casing with lower pressure pair in the case.

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