SU1454781A1 - Deaeration plant - Google Patents

Abstract

The invention relates to a power system and m. used for heating and deaerating water. The purpose of the invention is to improve the quality of deaeration when performing a deaerator; centrifuge-vortex. type The installation contains a deaerator, a storage tank (E) 12 and a booster cooler 24, communicated by pipe 22 to the deaerator housing, BE E 12 has one or more dispersing devices 13, made in the form of perforated pipes, communicated with pipelines 14 with shut-off organs 15. The steam space E 12 is also communicated with the pipeline 22 for the regulator-mounted body 23 installed on it. The regulator 23 allows maintaining the expansion in E 12 lower than in case 1 of the deaerator that provides secondary boiling in E 12 of water supplied through the device 13, thereby increasing the quality of deaeration. 1 hp ff. with (L with 4 sd 4 00

Description

The invention relates to a power system and industrial heat engineering, and can be used to preheat and deaerate the feed and supply water of steam boilers and heat networks.

The purpose of the invention is to improve the quality of deaerahdsh when performing a deaerator centrifugal-vortex type.

FIG. 1 shows a deaerator, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a section BB in FIG. one; in fig. 4 - deaerated installation.

The deaeration unit contains a centrifugally vortex type deaerator, which has a cylindrical body 1 with end caps 2 and 3, and the upper one has a branch pipe A which removes lacquer gases. In case 1, a partition 5 is installed, which divides it into inlet (upper) and outlet (lower) compartments, equipped with tangential nozzles 6 and 7, respectively, for supplying deaerated and discharging deaerated liquid. The partition; 5 may have an annular shell 8. The side wall of the housing 1 in the zone of the inlet compartment is hollowed out and communicated with the inlet compartment by means of -. . Holes or tangential; nozzles 9. The bottom part 2 is provided with a pipe 10 for draining the liquid during repair. The internal cavity of the side wall of the entrance compartment communicates with the pipe 11 connected to the source of the deaerated medium. The installation also contains a storage capacity 12, inside the

25 deaerator (the absolute pressure in the deaerator should be greater than in tank 12), deaerated liquid through tangential nozzles 7 is delivered to dispersants t3 in tank 12. Since the pressure in tank 12 is lower than in deaerator, the liquid that falls into zone of reduced pressure, boils, forming additional evaporation. In this case, the liquid is freed from the remnants of aggressive gases. If the deaerated liquid has bound carbon dioxide in the form of bicarbonates, sparging of the deaerating medium through the bubbling devices 16 is organized to remove it.

the second of which are dispersing mouths ... ...

Services 13, made in a perforation tube - Through a pipe 20, de-aerated liquid pipes and communicated with duckness are sent to the consumer. If: cuttings 7 drain pipelines 14. On pipelines 14, shut-off bodies 15 are installed (on one of them the installation of a shut-off valve is not necessary). Inside the tank 12 a bubbling device 16 can be installed, designed to remove bound carbon dioxide and a partition J

: 17, 18, and 19 to provide 50 ° 8 in the chamber formed by the shell of the equal circulation. The container is equipped with 8, housing 1 and partition 5, always with branch pipe 20 and liquid outlet pipe 21, which is connected to the regulator body 23 for suction of gases from the de-aerator 23. Pipe 55 leads 22 to the atmosphere through the vapor cooler 24; (If the mode of operation of the installation atmo-reproducibility varies over a wide range, then, to maintain the optimum speed of rotation of the fluid in the deaerator and the speed of its exit from the dispersing devices 13, the corresponding part of the locking bodies 15 and 28 overlap. Application in the housing shell deaerator

yes, there is a liquid, and an aerating agent is bubbled through it. This improves the quality of deaeration at all, including the smallest loads. The organization of the secondary boiling of the liquid in the storage tank makes it possible to improve the quality of deaeration.

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ferny) or with an ejector (if the installation is vacuum). The evaporator 24 is fed through pipe 26, and coolant is removed through line 27. The nozzles 6 through the shut-off bodies 28 are in communication with the pipeline 29 to supply deaerated water.

The operation of the deaeration plant is carried out as follows.

The deaerated fluid enters the inlet compartment of the deaerator body 1 through the tangential nozzles 6 and acquires a rotational motion.

5 The deaerating medium through the nozzle 11, a hollow side wall, orifices (nozzles) 9 also enters the inlet compartment of the deaerator and barbates through a rotating layer of deaerated liquid. Exhaust gases with a certain amount of steam through pipe 4 through conduit 22 are directed to cooling unit 24 of the unit. The regulator body 23 can regulate the pressure in

5 deaerator (the absolute pressure in the deaerator should be greater than in tank 12), deaerated liquid through tangential nozzles 7 is generated in dispersing devices t3 in tank 12. Since the pressure in tank 12 is lower than in deaerator, the liquid that falls into zone of reduced pressure, boils, forming additional evaporation. In this case, the liquid is freed from the remnants of aggressive gases. If the deaerated liquid has bound carbon dioxide in the form of bicarbonates, sparging of the deaerating medium through the bubbling devices 16 is organized to remove it.

..

 Through the pipe 20, the deaerated liquid is directed to the consumer. If a

Through the pipe 20, the deaerated liquid is directed to the consumer. If a

8 in the chamber formed by the shell 8, the housing 1 and the partition 5 of all

the capacity of the plant varies over large limits, in order to maintain the optimum speed of rotation of the fluid in the deaerator and the speed of its exit from the dispersing devices 13 overlap the corresponding part of the locking bodies 15 and 28. When installed in the shell of the deaerator

8 in the chamber formed by the shell 8, the housing 1 and the partition 5 of all

yes, there is a liquid, and an aerating agent is bubbled through it. This improves the quality of deaeration at all, including the smallest loads. The organization of the secondary boiling of the liquid in the storage tank makes it possible to improve the quality of deaeration.

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Claims (2)

1. A deaeration plant, containing a deaerator connected to the gas exhaust pipeline with a deaerated water outlet pipe, communicated by a pipeline with a storage tank, which is additionally installed in the steam space of the additional deaeration stage by arranging an additional deaeration stage. dispersing device, made in the form of a perforated pipe and connected to the drain pipe. 1454781 and the steam space of the tank is communicated with the gas exhaust pipeline for an additional regulator installed on the latter. 2.Installation according to claim 1, distinguished by the fact that it is equipped with at least one additional branch pipe for discharging de-aerated water, a drain pipe with a stop valve and a disperser in the form of a perforated pipe, the latter being placed in the steam space containers and communicated with an additional pipe outlet of deaerated water through an additional drain; pipeline with a stop valve. F 149.1 FIG. 2