KR20200030164A - Flare system of offshore fixed platform - Google Patents

Abstract

The present invention discloses a flare system for a marine structure. According to one aspect of the present invention, provided is the flare system for a marine structure, which includes: a flare knock-out (KO) drum storing dangerous substances discharged from an LNG storage facility and separating the same into gas and liquid; a flare stack supplied with the gas separated through the flare KO drum to combust the same; and a wire mesh provided on the flare KO drum so that liquid droplets contained in the gas collides therewith to induce agglomeration of the liquid droplets.

Description

Flare system of offshore fixed platform

The present invention relates to a flare system for offshore structures, and more particularly, to a flare system for offshore structures capable of effectively removing moisture contained in the gas being burned.

Generally, a storage tank for storing cryogenic liquefied natural gas is formed on an offshore platform, a liquefied natural gas carrier, and the like.

A large amount of boil-off gas (BOG) is generated in the storage tank due to heat transfer from outside and movement of the hull, which increases the pressure inside the liquefied natural gas storage tank, and in the worst case The storage tank itself may explode. Therefore, it is necessary to adjust the pressure of the storage tank to an appropriate pressure level.

To this end, in the case of a conventional liquefied natural gas carrier, the liquefied natural gas storage tank uses boiled gas as fuel for a dual fuel engine, or incinerates the gas by using a gas incinerator (GCU) To deal with.

On the other hand, with the introduction of floating offshore liquefied natural gas production and storage facilities (LNG FPSO), it has the same concept as liquefied natural gas carriers, and uses waste gas generated from LNG production facilities and excessive gas due to unexpected situations during operation A flare system is in operation for the purpose of incineration.

The flare system is also called an emergency release equipment or an exhaust gas combustion tower, and it is an abnormality such as leakage, fire, operation change, facility failure, etc. in facilities such as reactors, towers, vessels, tanks, and safety valves ( Emergency) refers to all facilities for collecting dangerous substances, safely burning them, and discharging them into the atmosphere when dangerous substances (flammable gas, flammable substances, toxic substances, etc.) are generated due to an emergency. Such a flare system may consist of a flare header, a flare knock-out drum, a seal drum, and a flare stack.

The flare stack is a stack type incineration tower among flare systems.It is composed of a stack support, a main burner tip, a filer burner, and an ignition device.The flare header is a main pipe that collects the fluid discharged from a safety valve, etc. into groups and sends it to the flare stack. to be. In addition, the flare KO drum is a facility for separating and collecting the liquid (preventing the risk of burning the gas containing the droplet) so that the liquid contained in the discharge such as the safety valve does not flow with the gas to the flare stack. The seal drum is designed to prevent flames from the flare stack from propagating to the flare system, or to prevent air from being sucked from the flare stack when a slight vacuum is formed in the flare header. That is, the dangerous substances generated in the LNG tank flow into the flare KO drum through piping, and the dangerous substances are separated into gas and liquid inside the flare KO drum, and the gas is supplied to the flare stack through the flare header and burned.

In the above flare system, the flare KO drum separates gas and liquid through a specific gravity difference to recover condensate of a liquid component contained in the gas. This is because if a certain amount of moisture is contained in the flare gas and flows into the flare stack, smoke is generated, causing air pollution, and may scatter or explode during combustion.

However, since the flare KO drum separates the gas and the liquid only through the specific gravity difference, the gas may contain moisture, and when the dangerous substance is rapidly introduced into the flare KO drum, it can be removed in a state requiring moisture contained in the gas. There will be no.

On the other hand, flare KO drums are economically beneficial as the amount of condensate recovered increases. Accordingly, there is a need for a method for increasing the amount of condensate recovered from the flare KO drum and effectively removing the droplets contained in the gas to smokeless combustion.

The flare system for offshore structures according to an embodiment of the present invention can effectively prevent the occurrence of explosion and smoke generated during combustion by effectively removing droplets contained in the gas provided to the flare stack through the flare KO drum, as well as flare KO Make it possible to improve the performance of the drum.

According to an aspect of the present invention, a flare KO (Knock out) drum for storing gaseous and liquid gas by storing dangerous substances discharged from an LNG storage facility; A flare stack receiving and burning the separated gas through the flare KO drum; And a wire mesh provided with the flare KO drum to collide droplets contained in the gas to cause agglomeration of the droplets. A flare system for a marine structure may be provided.

In addition, the flare KO drum is provided with a plate pack made of a plurality of plates to increase the collision area with the droplets contained in the gas to cause agglomeration of the droplets. It can be spaced apart.

In addition, the wire mesh may be disposed between a plurality of plates spaced apart at regular intervals.

In addition, the plurality of plates may be provided to have a zigzag shape in a direction in which the gas is moved.

According to another aspect of the present invention, the plate pack is formed to have a predetermined length in a direction in which the gas is moved, and a plurality of first plates arranged to be spaced apart from each other and a first plate between the first plates facing each other. A plurality of second plates disposed at right angles to the plate may be provided.

In addition, the plurality of second plates may be provided such that a wire mesh is disposed between the plurality of first plates and a passage through which gas moves is formed in a zigzag manner.

The flare system for an offshore structure according to an embodiment of the present invention can easily remove a droplet present in a gas by providing a wire mesh in the flare KO drum to collide with the droplet contained in the gas to cause aggregation of the droplet. It has an effect.

In addition, by providing a plate pack composed of a plurality of plates together with a wire mesh, the collision area between the surface of the plate pack and the droplets is increased to induce the aggregation of the droplets, thereby effectively removing the droplets.

In addition, by effectively removing and recovering the droplets contained in the gas, it is possible to prevent explosion during gas combustion in the flare stack, and also to prevent a smoke phenomenon to minimize air pollution.

In addition, it is configured to provide a plate pack and a wire mesh with a simple structure in the flare KO drum, thereby minimizing an increase in the manufacturing cost of the flare system, as well as improving the performance of the flare KO drum, economically increasing the gain, The flare stack can be prevented from failing.

The present invention will be specifically described by the following drawings, but these drawings represent preferred embodiments of the present invention and should not be construed as limiting the technical idea of the present invention only to the drawings.
1 is a configuration diagram schematically showing a flare system for an offshore structure according to an embodiment of the present invention.
2 is a view showing a plate pack and a wire mesh provided in a flare KO drum of a flare system for offshore structures according to an embodiment of the present invention.
3 is a view showing another embodiment of the plate pack and the wire mesh provided in the flare KO drum of the flare system of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following examples are presented to sufficiently convey the spirit of the present invention to those of ordinary skill in the art. The present invention is not limited to the embodiments presented herein, but may be embodied in other forms. The drawings may omit the illustration of parts irrelevant to the description in order to clarify the present invention, and the size of components may be exaggerated to facilitate understanding.

1 is a configuration diagram schematically showing a flare system for an offshore structure according to an embodiment of the present invention, and FIG. 2 is a plate pack provided on a flare KO drum of a flare system for offshore structure according to an embodiment of the present invention, and It is a figure showing a wire mesh.

1 and 2, the flare system 1 according to an aspect of the present invention is separated through a flare KO drum 10 and a flare KO drum 10 for separating dangerous substances into gas and liquid. It includes a flare stack 20 to be supplied with gas for combustion. At this time, the gas-liquid separation and combustion process through the flare system 1 is a known technique and detailed description will be omitted.

The flare KO drum 10 stores dangerous substances discharged from offshore structures, such as LNG storage facilities, and separates them into gas and liquid. The gas-liquid separated liquid is collected under the flare KO drum 10 and recovered according to the operation of the pump 11 and the valve 12. In addition, the gas-liquid separated gas may be supplied to the flare stack 20 for combustion or may be recovered and reused through the flare gas recovery device 30.

The flare KO drum 10 may be provided with a plate pack 100 and a wire mesh 200 to effectively remove and recover moisture contained in the gas when gas-liquid is separated.

The plate pack 100 is provided with a plurality of plates 110 to increase the collision area with the droplets contained in the gas to induce agglomeration of the droplets. The plurality of plates 110 may be arranged to be spaced apart from each other so that the flow path of the gas is changed. According to the drawing, the plurality of plates 110 may be formed to have a zigzag shape, respectively, to increase the contact area with the gas. At this time, the plurality of plates 110 is preferably disposed to have a predetermined length in the direction in which the gas is moved. Thus, it is possible to easily collect and recover the droplets contained in the gas when gas-liquid separation from the flare KO drum 10.

In addition, according to one aspect of the present invention, by providing the wire mesh 200 in the flare KO drum 10, it is possible to more effectively remove the droplets contained in the gas. The wire mesh 200 serves to induce agglomeration of droplets due to impulse of droplets contained in the gas. The wire mesh 200 may be disposed between a plurality of plates 110 spaced apart at regular intervals. Accordingly, since the droplets contained in the gas flowing between the plurality of plates 110 collide with the surfaces of the wire mesh 200 and the plate 110 and the aggregation of the droplets occurs, the droplets existing on the gas can be effectively removed. There will be.

On the other hand, the plate pack 100 as described above is shown and described as being provided as a plurality of plates 110 having a zigzag form, but is not limited thereto, and if the area in contact with the gas-liquid separated gas is increased in any form You may have it. For example, another embodiment of the plate pack 100 'is shown in FIG. 3.

Referring to FIG. 3, the plate pack 100 ′ according to another aspect of the present invention includes the first between a plurality of first plates 111 disposed to be spaced apart from each other and a first plate 111 facing each other. A plurality of second plates 112 disposed at right angles to the plate 111 is provided.

The plurality of first plates 111 are formed to have a predetermined length in a direction in which the gas is moved. According to the drawing, each first plate 111 has a straight shape arranged in a vertical direction. Between each of the first plates 111 is used as a passage through which gas is moved, and the wire mesh 200 is disposed between each of the first plates 111.

The plurality of second plates 112 may be provided to move in a zigzag manner when gas is moved between the plurality of first plates 111. That is, the plurality of second plates 112 are disposed to be offset from each other on the first plate 111 on the surfaces facing each other, and may be formed so as not to contact with the neighboring first plates 111. The passage through which the gas is moved is provided in a zigzag manner due to the coupling structure between the first plate 111 and the second plate 112, and the area in contact with the gas is increased, so that the droplets contained in the gas and each plate 111, 112) and can effectively induce droplet aggregation. That is, it is possible to effectively remove the moisture contained in the gas.

On the other hand, the wire mesh 200 is disposed in a passage provided in a zigzag manner by the first plate 111 and the second plate 112, and the droplets contained in the gas flowing between the plurality of plates 111 and 112 are wire mesh. It collides with the surface of the 200 and each plate 111 and 112, and aggregation of droplets occurs, so that droplets present in the gas can be more effectively removed.

As described above, although the present invention has been described by limited embodiments and drawings, the present invention is not limited by this, and the technical idea of the present invention and the following will be described by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the equivalent scope of the claims to be described.

1: flare system
10: flare KO drum
20: flare stack
100, 100 ': Plate pack
200: wire mesh

Claims (6)

A flare KO (Knock out) drum that stores dangerous substances discharged from an LNG storage facility and separates gas and liquid into gas and liquid;
A flare stack receiving and burning the separated gas through the flare KO drum; And
The flare KO drum is provided with a wire mesh that causes droplets contained in a gas to collide with droplets; a flare system for a marine structure. According to claim 1,
The flare KO drum is provided with a plate pack made of a plurality of plates to increase the collision area with the droplets contained in the gas to induce droplet aggregation.
The plurality of plates is a flare system for offshore structures which are arranged to be spaced apart from each other so that the flow path of the gas is changed. According to claim 2,
The wire mesh is a flare system for offshore structures disposed between a plurality of plates spaced apart at regular intervals. According to claim 2,
The plurality of plates is a flare system for offshore structures provided to have a zigzag shape in a direction in which gas is moved. According to claim 2,
The plate pack is formed to have a predetermined length in a direction in which the gas is moved, and a plurality of first plates disposed at regular intervals from each other, and a plurality of agents disposed at right angles to the first plate between the first plates facing each other. Flare system for offshore structures with 2 plates. The method of claim 5,
The plurality of second plates is a flare system for an offshore structure in which a wire mesh is disposed between the plurality of first plates and gas passages are formed in a zigzag manner.

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