KR101295663B1 - Ship mounted with settling tank for oil-water segregation - Google Patents

Abstract

The present invention relates to a vessel provided with a settling tank for oil-water separation, the settling tank for temporarily storing the condensate supplied from the fixed marine facility; A main storage tank for finally storing the condensate supplied from the settling tank; And a slop tank disposed in close contact with the settling tank to separate water and impurities through the oil / water separation line, and communicated between the settling tank and the slop tank and separated by the specific gravity of the settling tank. It is characterized in that the transport pipe is installed to transfer water and impurities to the slop tank.

Description

SHIP MOUNTED WITH SETTLING TANK FOR OIL-WATER SEGREGATION

The present invention relates to a ship, and more particularly, to a ship provided with an oil-tight settling tank capable of efficiently separating the water in the settling tank provided in the FSO ship from the condensate.

In general, FSO (Floating Storage and Offloading) refers to a vessel for storing crude oil or LPG excavated in an oil field and supplying it to an oil tanker.

In the FSO vessel, a condensate in which water and gas, which has passed FIXED PLATFORM, is first separated into a gaseous state in the underground reservoir and is converted into a liquid under ground conditions. Storage tank for storing) is provided.

As described above, a vessel equipped with a storage tank for storing the condensate has an individual loading type that directly loads each main storage tank, and is stored in a plurality of settling tanks that are temporary loading tanks. It is divided into SETTLING TANK LOADING TYPE which loads into a storage tank.

As shown in Figure 1, the settling tank (SETTLING TANK, 10) is located in the center of the FSO vessel (S), located adjacent to the main storage tank 20, fixed marine equipment (not shown) It performs only the temporary storage function of the condensate supplied from, and does not separate the function of separating impurities (water).

In addition, the FSO vessel (S) is used for the purpose of separating and draining the water remaining in the empty settling tank 10, in particular, condensate, water and impurities, etc. later to receive only the condensate Separate and recycle, and a separate slop tank (SLOP TANK) 30 for discharging the remaining water and impurities, etc. is provided.

In particular, the slop tank 30 is generally used to separate the condensate and water by using a specific gravity difference.

Among the tanks provided in the FSO vessel S configured as described above, the settling tank 10 has no function of separating condensate and water, so that water remains in the tank, and thus the settling tank 10 There was a problem causing corrosion of the pipe to be connected.

In addition, when the condensate in which the separation process is omitted is stored in the main storage tank 20, the volume of the main storage tank 20 is unnecessarily increased, which makes it difficult to store pure condensate components.

In addition, when inspecting the components of the condensate when the condensate is supplied from the FSO vessel S to the tanker, the condensate contains a high amount of water and impurities, which is disadvantageous in terms of cost.

Accordingly, the present invention has been made to solve the above problems, an object of the present invention, pure condensate to separate the water and impurities by installing an oil and water separation line in the settling tank having only a temporary storage function of the condensate To store only the ingredients.

In order to achieve the above object, a ship equipped with a sewage tank for oil / water separation according to the present invention includes a settling tank for temporarily storing condensate supplied from a fixed marine facility; A main storage tank for finally storing the condensate supplied from the settling tank; And a slop tank disposed in close contact with the settling tank to separate water and impurities through the oil / water separation line, and communicated between the settling tank and the slop tank and separated by the specific gravity of the settling tank. It is characterized in that the transport pipe is installed to transfer water and impurities to the slop tank.

The settling tank and the slop tank are characterized in that the neighboring side of the ship is installed along the longitudinal direction of the ship.

The transfer pipe is characterized in that the inlet is formed in the lower portion of the settling tank, the outlet is formed in the slop tank of the position higher than the inlet.

The outlet of the conveying pipe extending to the slop tank is characterized in that it is configured to be in close contact with the tank wall.

The settling tank is characterized in that the water level sensor is installed to detect the condensate and the boundary between the water and impurities so that only water and impurities can be transferred to the slop tank.

The settling tank is characterized in that the pump for drainage is installed so that the condensate separated from water and impurities are transferred to the main storage tank.

The settling tank is characterized in that the drain pipe is further installed to guide the condensate flowing through the inlet to the conveying line located below the condensate when the condensate reaches the same level as the upper end.

The settling tank is characterized in that the bubble generation line for promoting the separation of the condensate and water through the inert gas is installed.

According to the vessel provided with the settling tank for oil / water separation according to the present invention having the above-described configuration, since only pure condensate from which water and impurities are separated can be stored in the settling tank, corrosion of pipes that may be caused by water is prevented. It can prevent.

In addition, the condensate can be additionally stored in the settling tank except water and impurities, which is advantageous in terms of cost.

1 is a schematic configuration diagram showing the arrangement of the storage tank provided in the FSO vessel according to the prior art.
Figure 2 is a schematic diagram showing the arrangement of the storage tank provided in the FSO ship according to the present invention.
3 is a schematic diagram illustrating an oil / water separation line installed in a settling tank and a slop tank according to the present invention.
4 is a schematic configuration diagram illustrating an oil level sensor installed in the settling tank according to the present invention.
5 is a schematic configuration diagram showing a transport line installed in the settling tank according to the present invention.
6 is a schematic configuration diagram showing a bubble generation line installed in the settling tank according to the present invention.

Hereinafter, the configuration of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic configuration diagram showing an arrangement state of a storage tank provided in the FSO vessel according to the present invention.

In addition, Figure 3 is a schematic configuration diagram showing the oil-water separation line installed in the settling tank and the slop tank according to the present invention, Figure 4 is a schematic configuration diagram showing the oil level sensor installed in the settling tank according to the present invention. 5 is a schematic configuration diagram showing a transfer line installed in the settling tank according to the present invention, and FIG. 6 is a schematic configuration diagram showing a bubble generation line installed in the settling tank according to the present invention.

As shown in Figure 2 and 3, the FSO ship (S) according to the present invention, a plurality of settling tank 10 for temporarily storing the condensate (C) supplied from a fixed offshore facility (not shown) A plurality of main storage tanks 20 are installed and are configured to finally store the condensate C supplied from the settling tank 10, and are arranged in close contact with the settling tank 10. 30) is installed.

At this time, the settling tank 10 and the slop tank 30 are installed adjacent to the rear side of the FSO ship (S) along the longitudinal direction of the ship (S).

According to the present invention, since the FSO ship (S) generally does not have a main engine on the stern side, the weight of the stern side is smaller than the bow side, so that the stern side floats, and the settling tank 10 is moved to the stern side. By being located at the peripheral position of the slop tank 30, it is possible to stably float the FSO vessel (S) with respect to the sea surface.

As shown in FIG. 3, the settling tank 10 and the slop tank 30 are positioned adjacent to each other, and the oil and water separation line (not shown) installed in the slop tank 30 is the settling tank. The same applies to (10).

At this time, the settling tank 10 and the slop tank 30 in communication with each other is provided with a feed pipe 40 which is an oil separation line.

According to the present invention, the transfer pipe 40 has an inlet formed in the lower portion of the settling tank 10, the outlet is formed in the slop tank 30 of the position higher than the inlet, the settling tank 10 ), Only water W and impurities from which the condensate C is separated are transferred to the slop tank 30.

Condensate (C) stored in the settling tank (10) is also stored with water (W) and impurities, the kendensate, water (W) and impurities are separated by a specific gravity difference, the condensate ( C) is received above the settling tank 10, and water (W) and impurities are received below the settling tank 10, and thus located below the settling tank 10 by the transfer pipe 40. Water W and impurities are transferred to the slop tank 30.

At this time, the discharge pipe 40 is extended to the slop tank 30 and positioned so that oil vapor is not generated from water (W) and impurities transferred to the slop tank 30, and the discharge port is in close contact with the tank wall.

Thus, the water (W) and impurities discharged through the outlet of the transfer pipe 40 flows down the tank wall to prevent the generation of oil vapor in the slop tank 30 to prevent the gas explosion due to the oil vapor. Prevent.

As such, the water W and the impurities stored in the slop tank 30 are transferred to the water ballast tank (not shown) by the drain pump (not shown) or discharged to the sea.

On the other hand, as shown in Figure 4, the settling tank 10 is provided with an oil level sensor 50.

The oil level sensor 50 detects a boundary between the condensate C, water W, and impurities, and the valve 90 is operated by a separate controller (not shown) to operate the water (W) and Only impurities are controlled to be transferred to the slop tank 30.

As shown in FIG. 5, the condensate C, which is stored in the settling tank 10 and separated from water (W) and impurities, is disposed along the transfer line 70 by an oil pump (not shown). It is transferred to the main storage tank (20).

In the figure, a configuration in which the drain pipe 60 installed perpendicular to the settling tank 10 is transferred to the main storage tank 20 along the transfer line 70 is illustrated.

Here, the drain pipe 60 is vertically connected to the transfer line 70, the condensate (C) flowing through the inlet when the condensate (C) reaches the water level coinciding with the upper end of the lower down Guided to the transfer line 70 located in.

The drainage pump and the drainage pump do not have a big difference in configuration, and in this embodiment, their names are changed to distinguish them based on the object to be pumped.

As shown in FIG. 6, the settling tank 10 uses the inert gas (INERT GAS) to cut off the surface bond generated between the condensate (C) and the water (W) to condensate (C). And a bubble generating line 80 composed of a bubble inlet pipe 81 and a bubble discharge pipe 82 for promoting separation of water and water (W).

The bubble inlet pipe 81 extends to the bottom surface of the settling tank 10, and bubbles of inert gas exiting through the through hole (not shown) of the bubble inlet pipe 81 are not separated while being lifted. The condensate (C) and water (W) in the state coupled to the surface is separated.

As such, the bubbles separating the condensate (C) and the water (W) in the surface-bonded state rises in the air above the condensate and is discharged to the outside through the bubble discharge pipe (82).

On the other hand, the valve 90 is applied to the conveying pipe 40, the conveying line 70 and the bubble generation line 80 as an solenoid valve for controlling the discharge of the fluid flowing through each line, the valve 90 It is desirable to open and close the automatically controlled.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, Various modifications to the embodiments are also within the scope of the claims of the present invention.

S: Vessel 10: Settling Tank
20: main storage tank 30: slop tank
40: transfer pipe 50: water level detection sensor
60: drain pipe 70: transfer line
80: bubble generation line 90: valve

Claims (8)

A settling tank for temporarily storing condensate supplied from the stationary marine facility;
A main storage tank for finally storing the condensate supplied from the settling tank; And
Is disposed close to the settling tank and includes a slop tank for separating water and impurities through the oil and water separation line,
The settling tank for oil / water separation is installed in communication between the settling tank and the slop tank, and a transfer pipe is installed to transfer water and impurities of the settling tank separated by the specific gravity difference to the slop tank. Ship.
The method of claim 1,
The settling tank and the slop tank is provided with a water settling tank for oil and water separation, characterized in that the neighboring side is installed in the longitudinal direction of the ship on the rear side of the ship.
The method of claim 1,
The transport pipe is a vessel having an oil and water settling tank, characterized in that the inlet is formed in the lower portion of the settling tank, the outlet is formed in the slop tank of the position higher than the inlet.
The method of claim 3,
The discharge port of the conveying pipe extending to the slop tank is provided with a oil and water settling tank characterized in that the close contact with the tank wall.
5. The method according to any one of claims 1 to 4,
The settling tank is provided with an oil level separation settling tank, which detects a condensate and a boundary between water and impurities so that only water and impurities are transferred to the slop tank. Ship.
The method of claim 5,
The settling tank is a vessel provided with an oil settling tank for oil and water separation, characterized in that the pump for drainage is installed so that the condensate separated from water and impurities are transferred to the main storage tank.
The method of claim 5,
In the settling tank, when the condensate reaches the same level as the upper end, the condensate is introduced to the condensate flowing through the inlet port is further installed, characterized in that the drain pipe is installed to guide the transfer line located below Vessel with tank.
The method of claim 5,
The settling tank is a vessel provided with a settling tank for oil and water separation, characterized in that the bubble generation line for promoting the separation of condensate and water through an inert gas is installed.

Images