SU1090964A1 - Regenerative heater for steam turbine - Google Patents

Abstract

1. REGENERATIVE HEATER of the STEAM TURBINE, comprising a housing, a condensate collector and a compartment separated by a partition, and a heating compartment with a condensate supply collector and a vertical, steam supply pipe with a non-return valve installed on it, condensate discharge pipes and non-condensable gases, about 200 tons and less And with the fact that, in order to improve efficiency, the check valve is designed as a coaxially installed. each of the two perforated cones at the vertices of each other and enclosed in a pipe of elastic material, while the annular cavity between the pipe and the walls of the pipe is connected via a pipe to the vapor space of the condensate collector. 2. A heater according to Claim 1, characterized in that the perforated cones are provided with fins formed along their forming.

Description

The invention relates to the power industry and can be used in regenerative heaters of steam turbines of powerful power units.

A regenerative preheater is known in the power industry, comprising a housing with nozzles for supplying steam, cooling water and condensate and non-condensing gases, a heating compartment with a condensate supply collector and a condensate separator separated from the heating compartment by a Cl 3 partition.

A disadvantage of the preheater is the possibility of a significant increase in pressure inside the preheater when condensate boils up, which can lead to the penetration of humidified steam into the turbine and its outflow.

A regenerative steam turbine preheater is known, comprising a housing, a condensate trap, separated by a partition, and a heating compartment with a condensate collector and a vertical steam inlet with a reverse valve installed on it. In this heater, it is possible to stop the steam supply when boil up condensate f 2 j.

A disadvantage of the preheater is the presence of a large-sized rotary non-return valve on the steam pipe, which leads to a significant increase in the dimensions of the preheater, an increase in the hydraulic resistance of the steam pipe. In addition, there is wear on the valve mating surfaces.

The purpose of the invention is to increase the efficiency of the heater.

The goal is achieved by the fact that in a regenerative steam turbine preheater containing a housing, a condensate trap and a heating compartment with a condensate supply collector and a vertical steam supply pipe with a check valve installed on it, the condensate drain pipes and non-condensable gases are installed. in the form of a pair of two perforated cones coaxially installed inside the nozzle with the tips of each other and Ipyfiy prisoners made of elastic material, When this ring

the cavity between the pipe and the walls of the pipe is connected by pipeline to the vapor space of the condensate trap.

In addition, the perforated cones are equipped with ribs along their edges.

FIG. 1 shows the proposed heater, longitudinal section; FIG. 2 is a section A-A in FIG. 1.

The regenerative steam turbine heater includes a housing 1, which is divided by a partition 2 into a condensate collector 3 and a condensate heating compartment 4 with a vertical pipe 5 supplying steam and perforated plates 6, a check valve made in the form of two perforated cones 7 installed coaxially inside the pipe 5 with each other to a friend and placed between the perforated cones 7 and the pipe 5 of the elastic pipe 8 fixed at the base of the cones 7. The annular cavity 9 between the pipe 5 and the elastic pipe 8 connects by pipeline

10 with the steam space of the condensate trap 3. The condensate trap 3 is connected to the heating compartment 4 by means of a cup 11 and equalizing pipes 12. The perforated cones 7 are equipped with special fins 13, which ensure the perimeter constancy in the radial sections of the cones 7.

In case 1 there is a collector 14 for supplying condensate with a pipe 15 for removing condensate and a pipe 16 for removing non-condensable gases.

The heater works as follows.

When the power unit is started up, cold condensate enters the collector 14, from where it gets to the plates 6 and then to the lower part of the heating compartment 4 to form three cascades of jets, in which it also heats and deaerts. Next, the heated condensate through the holes in the partition 2 and glasses

11 goes into the condensate trap 3 and is discharged from the preheater through nozzle 15. The steam from the turbine take-off enters the preheater (into the heating compartment A) through a check valve. By the vapor pressure, the elastic pipe 8 is pressed against the walls of the pipe 5, and the steam through the perforated cones 7 unimpeded into the compartment

4 heating, in conjunction with cascaE1 house jets. The non-condensable gases, which collect under the partition 2, through the equalizing pipes 12 enter the compartment 4 and are discharged from it through the pipe 16 together with the residual steam. In some modes of operation, condensate boils up, accompanied by the formation of large quantities of steam. The vapor pressure in the condensate tray 3 becomes greater than the pressure in the pipe 5 and the compartment 4, and the steam supply to the preheater is stopped. The pressure in the annular cavity 9 of the check valve, connected via pipe 10 to the condensate collector 3, is determined by the pressure in the condensate collector 3 and becomes greater than the pressure inside the steam pipe 5. As a result, the flexible pipe 8 lies on the perforated cones 7, completely

Fig. 44 intersects the flow area of the nozzle 5. The presence of special ribs 13, made on the surface of the cones 7 in the amount of three pieces, allows the flow area of the nozzle 5 to overlap without deforming the elastic pipe 8. Thus, after the valve pt erejects, the possibility of falling is triggered. the steam formed during the boiling up of condensate and containing moisture incorporation from the preheater into the turbine, which could lead to a crash (collapse of the blade apparatus) of the turbine, and the absence of rubbing parts (fast iznashivayuschihs) in inverse-valve improves the durability of the preheater, which indicates povshenii economical construction.

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Claims (2)

1. REGENERATIVE STEAM TURBINE HEATER, comprising a housing located in the housing and separated by a condensate collector partition and a heating compartment with a condensate supply manifold and a vertical one. a steam inlet pipe with a non-return valve installed on it, condensate and non-condensable gas discharge pipes, with the fact that, in order to increase efficiency, the non-return valve is made in the form of a coaxial installation. inside the pipe for supplying a pair of two perforated cones with their vertices to each other and enclosed in a pipe made of elastic material, while the annular cavity between the pipe and the pipe walls is connected via a pipeline to the steam space of the condensate collector. 2. The heater according to claim 1, characterized in that the perforated cones are provided with ribs made along their generators. > ί