KR102123301B1 - Condensate recovery unit - Google Patents

Abstract

According to the present invention, disclosed is a condensate recovery device. The condensate recovery device according to an embodiment includes: a pressure vessel having a first outlet at the bottom and a second outlet at the top; and a diffuser which is formed in the shape of a pipe, is inserted and installed in the middle of the pressure vessel in a direction parallel to the ground, has a plurality of holes formed in a direction toward the first outlet, and has one side connected to a condensate supply pipe.

Description

Condensate recovery device {CONDENSATE RECOVERY UNIT}

The present disclosure (Disclosure) relates to a condensate recovery device installed in a plant facility or the like.

In general, condensed water means condensate of water vapor generated from a heat exchanger or when a pressure vessel or retort is heated with water vapor, and condensate contains a large amount of thermal energy. It is said to be.

Subsequently, an example of a condensate recovery device is published in Korean Patent Publication No. 10-1339668. Referring to the above-mentioned publication, the condensate recovery device (hereinafter referred to as ``conventional condensate recovery device'') published in the above-mentioned publication has an interior space and an inlet through which condensate is introduced and the condensate that has been introduced A housing provided with an outlet to allow discharge; A condensate guide member installed in a receiving space in the housing, dividing the inlet and outlet, and having a lower portion open; At least one steam collecting plate installed above the condensate guide member on the inlet side; At least one perforated plate installed under the condensate guide member on which the steam collecting plate is installed; An overflow pipe having one end located at an inner lower portion of the housing and the other end connected to an outlet formed on an inner side wall of the housing; And a pressure regulating tube to reduce pressure so that condensed water discharged through the outlet can flow to the condensate recovery line.

On the other hand, in a large-scale plant facility, on the other hand, various types of condensate with different pressures (high pressure, medium pressure, low pressure, etc.) are generated. The conventional condensate recovery device is useful for treating condensate having one pressure. However, it is not useful for treating two or more types of condensate with different pressures at once. Because, when two or more types of condensed water having different pressures are directly mixed, a large explosion may occur due to thermal shock, because in the conventional condensate recovery device, there is no configuration capable of resolving the above-described explosion.

KR 10-1339668 B1 (2013.12.10. Announcement)

It is to provide a condensate recovery device. In particular, to provide a condensate recovery device capable of stably treating two or more types of condensate having different pressures.

An apparatus for recovering condensed water according to an embodiment includes: a pressure vessel having a first outlet formed at the bottom and a second outlet formed at the top; And, in the form of a pipe, the middle portion of the pressure vessel is inserted and installed in a direction parallel to the ground, having a plurality of holes formed in a direction toward the first outlet, one side is a diffuser connected to the condensate supply pipe; includes .

In addition, the steam trap coupled to the first outlet; And, a check valve coupled to the second outlet; may further include.

In addition, the other side of the diffuser protrudes to the outside of the pressure vessel, and a flange portion may be formed at the other end of the diffuser.

The condensate recovery device according to the embodiment is equipped with a diffuser, and can stably treat two or more types of condensate having different pressures (meaning to separate steam and water).

In addition, when the condensate recovery device according to the embodiment is used, the low-pressure steam generated from the low-pressure condensate can be recovered and utilized by using the high-pressure steam generated from the high-pressure condensate to be heated and generated. There will be.

1 is a schematic configuration diagram of a condensate recovery device 100 according to an embodiment.

Hereinafter, the condensate recovery apparatus 100 according to the embodiment will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a condensate recovery device 100 according to an embodiment.

Referring to FIG. 1, the condensate recovery apparatus 100 according to the embodiment may include a pressure vessel 110 and a diffuser 120, and further include a steam trap 130 and a check valve 140.

The pressure vessel 110 refers to a container that holds a gas or liquid having a pressure exceeding atmospheric pressure therein, and a first outlet 112 through which water is discharged is formed at the bottom of the pressure vessel 110, and steam is formed at the top. A second outlet 114 through which is discharged is formed.

A steam trap 130 and one or more gate valves GV may be provided at the first outlet 112. The steam trap 130 functions to automatically discharge only water to the outside when some of the steam in the tube becomes water due to condensation. The gate valve GV functions to control the flow rate, and may be provided between the first outlet 112 and the steam trap 130 and on the rear side of the steam trap 130.

A check valve 140 and a gate valve GV may be provided at the second outlet 114. The check valve 140 allows only the steam having a predetermined pressure or higher to be selectively discharged to the second outlet 114. The gate valve GV functions to control the flow rate, and may be provided on the rear side of the check valve 140.

The diffuser 120 is in the form of a pipe in which a plurality of holes 122 are regularly formed on the surface, and is inserted and installed in a direction parallel to the ground in the middle of the pressure vessel 110. One side of the diffuser 120 is connected to the condensate supply pipe.

The diffuser 120 functions to spray condensate. Particularly, when two or more types of condensate having different pressures are sprayed through one diffuser 120, the moment the condensate is sprayed, the bonding area between the condensates is widened, so that two or more types of condensate with different pressures are mixed When the thermal shock and noise appearing is minimized.

On the other hand, the hole 122 of the diffuser 120 is preferably formed only in the direction toward the first outlet 112. As one example, the hole 122 may be formed only in the lower portion corresponding to half of the diffuser 120. Since the inside of the diffuser 120, the steam is located at the top, the water is located at the bottom, if the hole 122 is formed only in the lower half of the diffuser 120, spraying of condensate through the diffuser 120 Is made more smoothly.

Further, according to the experiment, when the value of the sum of the areas of the plurality of holes 122 is configured to correspond to the cross-sectional area value of the diffuser 120, the function of the diffuser 120 is maximized.

The other side of the diffuser 120 protrudes to the outside of the pressure vessel 110, and a flange portion 124 may be further formed at the other end of the diffuser 120. In this case, the user may easily manage the interior of the diffuser 120 through the flange portion 124.

The operation of the condensate recovery device 100 according to the embodiment will be described.

First, through the condensate supply pipe connected to one side of the diffuser 120, condensate is supplied. At this time, the condensate may be two or more types of condensate having different pressures.

Subsequently, through a plurality of holes 122 formed in the diffuser 120, condensed water is sprayed into the pressure vessel 110. At this time, when two or more types of condensed water having different pressures are sprayed into the plurality of holes 122, the moment of spraying, after being granulated, spread evenly into the inside of the pressure container 110, and two or more types having different pressure Thermal shock and noise appearing when condensate is mixed is minimized.

Subsequently, the low-pressure steam generated in the low-pressure condensate is a high-pressure steam generated in the high-pressure condensate, and the predetermined pressure steam generated while being heated is discharged through the check valve 140, which is another process of the plant equipment. Can be utilized in In addition, water with a lower temperature is discharged through the steam trap 130, and hot water discharged through the steam trap 130 may be supplied to a water supply tank or the like.

On the other hand, the user will be able to manage the diffuser 120 through the flange portion 124 on a regular basis.

The condensate recovery apparatus 100 according to the embodiment is equipped with a diffuser 120, and can stably treat two or more types of condensate having different pressures (meaning to separate steam and water).

In addition, when using the condensate recovery apparatus 100 according to the embodiment, the low-pressure steam generated from the low-pressure condensate is recovered by heating the high-pressure steam generated from the high-pressure condensate while heating the steam to a predetermined pressure. You can use it.

The present disclosure may be variously modified (applied) by those skilled in the art without departing from the technical spirit.

Therefore, the claims of the present disclosure should be interpreted broadly based on the technical ideas contained throughout the description of the invention and the drawings.

100: condensate recovery device
110: pressure vessel
112: first outlet
114: second outlet
120: diffuser
122: Hall
124: flange
130: steam trap
140: check valve
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GV: Gate valve

Claims (3)

As a condensate recovery device,
A pressure vessel having a first outlet formed at the bottom and a second outlet formed at the top; And,
In the form of a pipe, the diffuser is installed in the middle portion of the pressure vessel in a direction parallel to the ground, has a plurality of holes formed in a direction toward the first outlet, and one side is connected to at least two or more condensate supply pipes-the Each of the two or more condensate supply pipes supply condensate having different pressures-including,
The diffuser, when two condensed water having different pressures are mixed, sprays the generated steam while the condensed water having a relatively low pressure is heated inside the pressure vessel,
A condensate recovery device for recovering the steam through the second outlet.
According to claim 1,
Steam trap coupled to the first outlet; further comprising, condensate recovery device.
According to claim 1,
A check valve coupled to the second outlet; further comprising, condensate recovery device.

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