KR20200005201A - Flare stack apparatus - Google Patents

Abstract

Disclosed is a flare stack apparatus. The flare stack apparatus according to the present embodiment comprises: a gas inlet unit provided to allow a combustible gas to rise along an inner wall while forming a swirl flow; a blocking unit disposed at an upper part of the gas inlet to remove droplets contained in the combustible gas in which the swirl flow is formed; and a combustion unit disposed at an upper part of the blocking unit to combust the combustible gas from which the droplets have been removed. The blocking unit may be provided to block air backfired from the combustion unit.

Description

Flare Stack Device {FLARE STACK APPARATUS}

The present invention relates to a flare stack device, and more particularly to a flare stack device that can improve the combustion efficiency of the flare system.

As the use of various resources increases rapidly with industrialization, the development of resources such as crude oil and natural gas has emerged as a very important problem. Recently, special ships equipped with equipment for exploration and drilling, such as drill ships, semi-submersible drilling rigs and offshore working vessels such as floating production storage & offloading units (FPSOs), etc. It has been developed to carry out exploration and mining for the production of various resources from the deep sea.

Crude oil or natural gas produced through this drilling operation is transported from the production facilities of the seabed to the above-mentioned marine work vessel through a facility such as a riser. The crude oil or natural gas transported in this way may be separated into, for example, crude oil or gaseous water through a refining process, and the separated crude oil or gas may be offloaded to a separate carrier such as a tanker. Can be transported on land.

In addition, during the refining process, toxic or less productive gas or oil is burned in the air through a combustion device such as a flare tower. The flare tower collects inflammable gases that are to be incinerated from various facilities. The collected gas is not a pure gas, but contains a large amount of impurities and collects a viscous gas.

In order to incinerate these combustible gases better, the incineration target gases are collected in a knockout drum to remove moisture and then sent to a flare stack to be incinerated.

The present embodiment is to provide a flare stack device that can efficiently remove the droplets present in the combustible gas.

The present embodiment is to provide a flared stack device that can effectively handle the smoke generated from the combustion process.

The present embodiment is to provide a flare stack device that can minimize the risk of explosion by preventing the flow of flame back to the inside.

The present embodiment is to provide a flared stack device that can smoothly adjust the flow of flammable gas.

The present embodiment is to provide a flared stack device for stably supplying crude oil from a ship to a carrier.

According to an aspect of the present invention, a gas inlet provided to rise while forming a swirl flow along the inner wall, the gas inlet is disposed on top of the gas inlet, to remove the droplets contained in the flammable gas formed swirl flow It is disposed above the blocking portion and the blocking portion, including a combustion unit for burning the combustible gas from which the droplets are removed, the blocking unit may be provided by blocking the air backfired from the combustion unit.

The gas inlet may be provided to have a predetermined thickness along the inner circumferential surface.

The gas inflow part may be provided including a plurality of inflow paths spaced at predetermined intervals and arranged diagonally.

The blocking unit may be provided in the form of a protrusion protruding from the inner wall, and collided with the droplet to provide the droplet down along the inner wall.

It may be provided further comprising a; drain portion for collecting the liquid discharged to the outside.

The flare stack apparatus according to the present embodiment has the effect of improving the performance of the flare system by treating the droplets present in the combustible gas.

The flare stack apparatus according to the present embodiment has an effect of effectively blocking waste materials that may be generated from droplets.

The flare stack apparatus according to the present embodiment has an effect of minimizing a phenomenon in which a flame generated from a combustion process flows backward.

The flare stack device according to the present embodiment has an effect of separately preparing a configuration for collecting droplets to facilitate a smooth flow of flammable gas.

Flare stack apparatus according to the present embodiment has the effect that can be safely and easily transported crude oil or gas produced in the offshore working vessel.

1 is a side view schematically showing a flare stack apparatus according to the present embodiment.
2 is a plan view showing a state of the gas inlet according to the embodiment seen from above.
3 is a side view schematically showing a gas inlet according to the present embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as an example to sufficiently convey the spirit of the present invention to those skilled in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. Parts not related to the description are omitted in the drawings in order to clearly describe the present invention, in the drawings, the width, length, thickness, etc. of the components may be exaggerated for convenience. Like numbers refer to like elements throughout.

1 is a side view schematically showing a flare stack device 100 according to the present embodiment.

Referring to FIG. 1, the flare stack apparatus 100 according to the present exemplary embodiment includes a gas inlet 110, a blocking unit 120, and a combustion unit (not shown).

More specifically, the flare stack apparatus 100 according to the present embodiment, the gas inlet 110 and the upper portion of the gas inlet 110 is provided so that the flammable gas 10 rises while forming a swirl flow along the inner wall A combustion unit disposed in the combustion unit 10 to remove the droplets contained in the flammable gas 10 in which the swirl flow is formed, and the combustion unit combusts the combustion unit 10 in which the droplets are removed. It includes a portion (not shown).

At this time, the blocking unit 120 is provided to block air backfired from the combustion unit (not shown).

That is, according to the present embodiment, by forming the blocking unit 120 in the lower portion of the combustion unit (not shown) burning the combustible gas 10, as shown in Figure 1, to burn the combustible gas 10 in the air It is possible to effectively block a phenomenon in which air including the flame 20 such as dust or soot and external air generated in the process flows back into the flare stack device 100.

As such, the risk of explosion can be minimized by constructing a flare stack device 100 that can effectively block the backflow phenomenon of the flame 20, that is, the backfire phenomenon or the inflow of external air. Thus, the flare stack apparatus 100 may be installed at various positions of the vessel regardless of the dangerous zone of the marine working vessel, and as a result, the crude oil or gas that has been drilled from the marine working vessel is moored at sea. Can be transported more safely and easily to a separate carrier, such as a tanker.

Meanwhile, although the blocking part 120 illustrated in FIG. 1 illustrates a shape inclined upwardly from a wall surface as an example, the blocking part 120 is not necessarily limited thereto. Although not specifically illustrated, the blocking part 120 may include various shapes, for example, a disk shape such as a disk in a horizontal direction or an inclination downward from a wall surface.

2 is a plan view showing the gas inlet 110 according to the present embodiment as seen from above, and FIG. 3 is a side view schematically showing the gas inlet 110 according to the present embodiment.

Hereinafter, referring to FIGS. 1 to 3, each configuration of the flare stack apparatus 100 according to the present embodiment will be described in more detail.

The flare stack device 100 is a cylindrical member protruding upward, such as a chimney, and is a device that combusts flammable gas 10 made of waste gas discharged through the flare stack device 100 in the atmosphere.

In addition, as shown in FIG. 1, a combustion unit (not shown) that burns the combustible gas 10 generated during the refining process such as crude oil or natural gas and releases the same into the atmosphere is shown in FIG. 1. Can be prepared. At this time, the combustion process may proceed by ignition of the combustible gas 10 by the ignition device provided in the combustion unit (not shown).

Although not specifically illustrated, the flare stack apparatus 100 is connected to a refinery (not shown) for refining and processing crude oil or natural gas through a gas inlet 110, and supplies waste gas from the facility. It can be formed to receive.

On the other hand, the flare tower collects the flammable gas 10 to be incinerated from the various facilities, the collected gas is not a gas in a pure state, a large amount of impurities are contained in the gas having a viscosity state. In order to incinerate the combustible gases 10 better, the incineration target gases are collected in a knockout drum, and after the moisture is removed, the flammable gas 10 is sent to a flare stack to be incinerated.

The knockout drum is installed to separate and remove droplets of mist on the mist included in the combustible gas 10. If the droplets in the combustible gas 10 are not completely removed from the knockout drum, a combustion unit (not shown) is used. There is a problem in that a large amount of flame 20 can be generated.

Therefore, in order to minimize the amount of flame 20 generated by the combustion process, the flare stack apparatus 100 according to the present embodiment is a gas provided to additionally remove droplets contained in the flammable gas 10 even inside the flare stack. Inlet 110 is included.

2 and 3, the gas inlet 110 is provided to have a predetermined thickness along the inner circumferential surface of the flare stack apparatus 100. In addition, the gas inlet 110 includes a plurality of inflow paths 111 provided in an oblique direction and spaced apart at predetermined intervals.

The combustible gas 10 supplied to the gas inlet 110 rises while forming a swirl flow along the inner wall of the flare stack device 100 while passing through the plurality of inflow paths 111.

The blocking part 120 is disposed above the gas inlet part 110 and is provided to additionally remove droplets included in the combustible gas 10 in which swirl flow is formed. The blocking unit 120 is provided in the form of a protrusion protruding from the inner wall of the flare stack device 100.

That is, the droplet contained in the combustible gas 10 has a relatively large inertia compared to the gas component, whereby the droplet moves to the wall surface and moves upward when the combustible gas 10 forms a swirl flow. Subsequently, the droplets collide with the blocking part 120 protruding from the inner wall, and the droplets colliding with the blocking part 120 are provided to descend along the inner wall.

At this time, if the droplets are not immediately processed, the movement of the combustible gas 10 may not be smooth by the droplets.

Therefore, the flare stack apparatus 100 according to the present exemplary embodiment may further include a drain part 130 generated in a combustion part (not shown) and collecting droplets accumulated in the lower part of the blocking part 120 to be discharged to the outside.

That is, droplets colliding with the blocking unit 120 and falling down are collected at the lower side of the blocking unit 120, and discharge holes may be formed at the lower portion of the blocking unit 120 to discharge the collected droplets to the outside. . By connecting the drain 130 to the discharge hole formed as described above, the droplets can be quickly and easily discharged to the outside.

On the other hand, when the air including the flame 20 and the external air generated in the combustion unit (not shown) is introduced into the flare stack device 100, the above-described air is present in the flare stack device 100 There is a risk that it may react with volatile raw materials and cause an explosion reaction.

Therefore, the blocking unit 120 according to the present exemplary embodiment is provided to block the inflow of air into the flare stack apparatus 100.

That is, the blocking unit 120 is installed below the combustion unit (not shown), so that the flame 20 such as dust or soot generated in the combustion unit (not shown) or the external air flare stacks. It is provided to minimize the risk of explosion by preventing backfire and dispersal to the lower side of the device 100.

For reference, the flame 20 in the present invention is a black amorphous micropowder material or various other causes caused by incomplete combustion or pyrolysis of these organics in the process of burning the combustible gas 10 including a hydrocarbon mixture such as waste gas. It is a concept that encompasses all the dust generated by them.

The flare stack device 100 according to the present embodiment has been described above. Hereinafter, a ship including the flare stack device 100 described above will be described as an embodiment.

In the case of the present embodiment, the configuration and operation of the flare stack device 100 is the same as or corresponding to the above-described embodiment, so duplicate description will be omitted.

Ships in the present invention, including, for example, a drill ship (drill ship) including all self-propelled ships capable of self-propelled, in addition to floating production storage & offloading unit, or FPSO Or floating offshore structures such as floating storage and regasification units (FSRUs).

The ship according to the present embodiment includes a hull and a flare stack device 100 installed on an upper portion of the hull.

For example, the hull may include a derrick (derrick) installed in the center of the deck, flare stack device 100 may be installed on top of this derrick.

In this way, by installing the flare stack device 100 on the top of the derrick, when the crude oil or gas, which has been drilled in a ship such as a drillship, is transferred to a separate carrier such as a tanker while mooring at sea, crude oil or gas Can be transported more safely and easily.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto and is intended by those skilled in the art to which the present invention pertains. Of course, various modifications and variations are possible within the scope of equivalents of the claims to be described.

10: flammable gas
20: flame
100: flare stack device
110: gas inlet
111: funnel
120: blocking unit
130: drain portion

Claims (5)

A gas inlet provided to allow the combustible gas to rise while forming a swirl flow along the inner wall;
A blocking unit disposed on the gas inlet unit to remove droplets contained in the flammable gas in which swirl flow is formed; And
And a combustion unit disposed above the blocking unit to combust the combustible gas from which the droplets have been removed.
The blocking part
Flare stack device for blocking the backfire from the combustion unit. The method of claim 1,
The gas inlet part
Flare stack device provided to have a predetermined thickness along the inner peripheral surface. The method of claim 2,
The gas inlet part
Flare stack device spaced at a predetermined interval and comprising a plurality of inflow paths arranged in diagonal lines. The method of claim 1,
The blocking part
It is provided in the form of a protrusion protruding from the inner wall,
And a flare stack device provided to collide with the droplets so that the droplets descend along the inner wall. The method of claim 4, wherein
And a drain portion collecting the droplets and discharging them to the outside.

Images