RU2760080C1 - Thermal deaerator (options) - Google Patents

Abstract

FIELD: heat power engineering.SUBSTANCE: thermal deaerator (options) is proposed, including a deaeration column mounted on a deaerator tank equipped with a low-pressure water distribution device - a self-regulating jet nozzle. The jet nozzle is made in the form of two cases installed coaxially one inside the other, the outer of which has outlets, the inner case is equipped with a water supply fitting and a hole in its lower part located below outlets of the outer case. A movable spring-loaded hollow cylinder is installed between the outer and inner cases.EFFECT: claimed technical solution allows, depending on the hydraulic load of the deaerator, to change the location of the hollow spring-loaded cylinder inside the nozzle and, accordingly, the number of holes, through which water flows, resulting in the operation of the nozzle in all the necessary range of hydraulic loads with minimal change in hydraulic resistance and constant quality of water spraying.2 cl, 4 dwg

Description

The invention relates to the field of heat power engineering, in particular to thermal deaerators, designed to remove corrosive gases from the feed water of steam generators with simultaneous heating, and can be used in the schemes of power plants of thermal power plants, nuclear power plants and boiler houses.

Known is a thermal deaerator consisting of a deaerator tank and a deaeration column containing jet trays and a water distribution device including one or more jet nozzles, and a jet splitter is concentrically installed on the nozzle, made in the form of a perforated cylindrical shell d: D and nozzle diameters D = (1.2 ÷ 3.0) d (RU 2031084 C1, ⁶ C02F 1/20, B01D 3/20, publ. 03/20/1995).

The disadvantage of the known deaerator, as well as the reason that prevents the achievement of the desired technical result in full when using the said known device, is that in the case of supplying the initial water with a reduced flow rate to the deaerator, for example, under variable loads and sliding pressure in the deaerator body, it is possible that steam inside the body of the jet nozzle through the holes for the water outlet and further into the water supply pipelines, as well as the formation of a film when the water jets run down the surface of the divider is possible. This, in turn, can lead to malfunctions of the nozzle, water hammer, and deterioration of heat and mass transfer in the deaerator between water and heating steam.

A thermal deaerator is known, including a deaeration column installed on a deaerator tank with a low-pressure water distribution device placed in it - a jet nozzle, while the jet nozzle is made in the form of two coaxially installed, one inside the other, housings, the outer one of which has outlet openings, and the inner one is equipped with a fitting for water supply and an opening in its lower part located below the outlet openings of the outer casing. (RU 2486406 C2, F22D 1/50, publ. 06/27/2013).

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

The disadvantages of the known deaerator, taken as a prototype, is that, in the case of supplying initial water to the deaerator with a reduced flow rate, for example, under variable loads and sliding pressure in the deaerator body, water jets flow down the outer nozzle body, forming a film on its surface, which leads to deterioration of heat and mass transfer in the deaerator between water and heating steam, which in turn leads to a deterioration in the operation of the deaerator as a whole.

The applicant's analysis of the prior art, including a search for patent and scientific and technical sources of information, as well as the identification of sources containing information about analogues of the claimed invention, made it possible to establish that the applicant did not find a technical solution characterized by features identical or equivalent to the proposed ones.

Determination from the list of identified prototype analogues as the closest technical solution in terms of a set of features made it possible to identify in the claimed device a set of essential distinctive features in relation to the technical result perceived by the applicant, set forth in the following claims.

Therefore, the claimed invention meets the “novelty” criterion of patentability.

To verify the compliance of the claimed invention with the condition "inventive step", the applicant conducted an additional search for solutions known from the prior art. The search results showed that the proposed invention does not follow in an obvious way for a specialist from the prior art and determined by the applicant.

The claimed technical solution allows, depending on the hydraulic load of the deaerator, to change the location of the hollow spring-loaded cylinder inside the nozzle and, accordingly, the number of holes through which the water flows out, as a result of which the nozzle operates in the entire required range of hydraulic loads with minimal change in hydraulic resistance and constant spray quality water, to exclude the flow of water jets over the surface of the outer nozzle body when operating at minimal hydraulic loads, to ensure high-quality, uniform water spraying in a wide range of hydraulic loads, as well as to reduce the mass and size characteristics of the deaerator, which in turn allows to reduce capital costs in the manufacture of the deaerator and costs on building structures.

The proposed thermal deaerator (option 1) includes a deaeration column installed on a deaerator tank, equipped with a low-pressure water distribution device - a jet nozzle, while the jet nozzle is made in the form of two bodies installed coaxially one inside the other, the outer of which has outlet openings, the inner body is equipped with a nozzle for water supply and an opening in its lower part located below the outlet openings of the outer casing, and a movable spring-loaded hollow cylinder is installed between the outer and inner casing.

A thermal deaerator (option 2) is proposed, including a low-pressure water distribution device - a jet nozzle, while the jet nozzle is made in the form of two bodies installed coaxially one inside the other, the outer one of which has outlet openings, the inner body is equipped with a fitting for water supply and an opening into it the lower part, located below the outlet openings of the outer casing, and a movable spring-loaded hollow cylinder is installed between the outer and inner casings. In this case, the low-pressure water distribution device is located directly on the deaerator tank.

The invention is illustrated in the drawings, where FIG. 1 shows a general view of a thermal deaerator (option 1), Fig. 2 - node A according to FIG. 1, fig. 3 is a general view of a thermal deaerator (option 2), in Fig. 4 - node A according to FIG. 3.

The thermal deaerator (option 1) contains a deaeration column 2 installed on the deaerator tank 1, with a low-pressure water distribution device located in it in the form of a jet nozzle 3. Nozzle 3 is made in the form of two bodies 4 and 5 installed coaxially one inside the other, bodies 4 and 5. The outer body 4 has outlet openings 6, and the inner body 5 is equipped with a water supply connection 7 and an opening 8 in its lower part. Hole 8 is located below the outlet holes 6 of the outer casing 4. In the space between the outer casing 4 and the inner casing 5 there is a movable spring-loaded hollow cylinder 9. On the casing of the deaerator tank 1 there is a heating steam supply nozzle 10 and a deaerated water outlet 11. deaeration column 2 is fitted with a choke 12.

The thermal deaerator (option 2) contains a low-pressure water distribution device installed directly on the deaerator tank 1 in the form of a jet nozzle 3. The nozzle 3 is made in the form of two bodies 4 and 5 installed coaxially one inside the other. The outer body 4 has outlet openings 6, and the inner 5 equipped with a nozzle for water supply 7 and a hole in its lower part 8. Hole 8 is located below the outlet holes 6 of the outer casing 4. In the space between the outer casing 4 and the inner casing 5 there is a movable spring-loaded hollow cylinder 9. On the deaerator tank 1 there is a heating supply steam 10 and the deaerated water outlet 11. To remove the vapor, the 12 is installed on the deaerator tank 1.

Deaerator (option 1) works as follows. The initial flow of water to be deaerated enters the inner body 5 of the nozzle 3 of the deaeration column 2 through the nozzle 7 and fills the outer body 4. Flowing out from the outlet openings 6 of the body 4 of the nozzle 3 in the form of jets and drops, the water is then drained into the deaerator tank 1, where goes through the following stages of processing. Depending on the hydraulic load of the deaerator and the pressure in the nozzle body, the arrangement of the spring-loaded hollow cylinder 9 inside the nozzle 3 changes and, accordingly, the number of outlet openings 6 through which water flows out. Heating steam is supplied to the deaerator through the nozzle 10. Deaerated water is removed from the tank 1 through the nozzle 11. The vapor is removed through the nozzle 12 in the deaeration column 2.

Deaerator (option 2) works as follows. The initial flow of water to be deaerated enters the inner body 5 of the nozzle 3 through the nozzle 7 and fills the outer body 4. Flowing out from the outlet openings of the body 4 of the nozzle 3 in the form of jets and drops, the water in the deaerator tank 1 goes through the processing stages. Depending on the hydraulic load of the deaerator and the pressure in the nozzle body, the arrangement of the spring-loaded hollow cylinder 9 inside the nozzle 3 changes and, accordingly, the number of outlet openings 6 through which water flows out. Heating steam is supplied to the deaerator through the nozzle 10. Deaerated water is discharged from the tank 1 through the nozzle 11. The vapor is removed through the nozzle 12 in the deaerator tank 1.

Claims (2)

1. Thermal deaerator, including a deaeration column installed on the deaerator tank, equipped with a low-pressure water distribution device - a jet nozzle made in the form of two bodies installed coaxially one inside the other, the outer one of which has outlet openings, and the inner body is equipped with a connection for water supply and a hole in its lower part located below the outlet openings of the outer casing, characterized in that a movable spring-loaded hollow cylinder is installed between the outer and inner casing. 2. Thermal deaerator, including a low-pressure water distribution device - a nozzle made in the form of two bodies installed coaxially one inside the other, the outer one of which has outlet openings, and the inner body is equipped with a water supply connection and an opening in its lower part located below the outlet openings of the outer casing, characterized in that a movable spring-loaded hollow cylinder is installed between the outer and inner casing, while the water distribution device is installed directly on the deaerator tank.

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