KR101895781B1 - Method for controlling and managing the level of tank for floating unit - Google Patents

Abstract

The present invention relates to a tank liquid level control system for a floating ocean structure capable of effectively controlling or controlling the liquid level of each tank in a forced transfer of liquefied gas to a tank side for a floating offshore structure by a pump.
A tank liquid level control system for a floating offshore structure according to the present invention comprises: a flash drum for gas-liquid separating a liquefied gas generated by a liquefaction facility; A run down line connected to the plurality of tanks in the flash drum; A transfer pump installed on the run-down line for forcibly transferring the liquefied gas from the flash drum to a plurality of tanks; A flow control valve disposed downstream of the transfer pump for controlling a flow rate of the liquefied gas transferred along the run-down line; And a control unit for controlling the operation of the transfer pump and the flow rate control valve by measuring the liquid level of the flash drum and the liquid level in the plurality of tanks and using the respective liquid level values.

Description

TECHNICAL FIELD [0001] The present invention relates to a method for controlling a tank level for a floating structure,

The present invention relates to a tank liquid level control method for a floating type offshore structure capable of effectively controlling or controlling the liquid level of each tank in a forced transfer of liquefied gas to a tank side for a floating offshore structure by a pump.

Natural gas is transported in a gaseous state via land or sea gas pipelines or transported to a remote location where it is stored in an LNG carrier in liquefied gas such as liquefied natural gas (LNG) or liquefied petroleum gas (LPG). Liquefied natural gas is obtained by cooling natural gas to a cryogenic temperature (approximately -163 ° C), and its volume is reduced to approximately 1/600 of that of natural gas, making it well suited for long distance transport through the sea.

Floating offshore structures are floating in the sea for the treatment of LNG. They are LNG RV (Regasification Vessel), LNG FPSO (Floating, Production, Storage and Offloading), LNG FSRU (Floating Storage and Regasification Unit) -LNG plant.

On the other hand, the liquefied gas such as LNG, LPG and the like is produced by the production facility and then decompressed to a proper pressure for storage in the flash drum, and after unnecessary gas components are removed, the liquefied gas is stored in a plurality of storage tanks tank.

However, since the state of the liquefied gas transferred through the flash drum is easily changed due to the influence of heat, it is difficult to appropriately adjust or control the level of the liquefied gas stored in each storage tank. As a result, The balance of the hull of the floating offshore structure can not be maintained effectively, and the durability of each tank is greatly deteriorated.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a tank liquid level control method for a floating type offshore structure capable of accurately and efficiently controlling and controlling the liquid level of a tank in which liquefied gas is stored .

According to an aspect of the present invention, there is provided a method of manufacturing a liquefied natural gas (LPG), comprising: a flash drum (10) for gas-liquid separating liquefied gas generated by a liquefaction facility; A run down line 17 connected to the plurality of tanks in the flash drum 10; A transfer pump (11) installed on the run down line (17) for forcibly transferring the liquefied gas from the flash drum (10) to the plurality of tanks (2)); A flow control valve (12) disposed downstream of the feed pump (11) for controlling the flow rate of the liquefied gas delivered along the run down line (17); And a control unit for controlling the operation of the transfer pump (11) and the flow rate control valve (12) by measuring the liquid level of the flash drum (10) and the liquid level in the plurality of tanks (2) (20) for controlling the tank liquid level of the floating structure.

The control unit 20 includes a first level transmitter 21 installed at one side of the flash drum 10 to measure and transmit the level of the flash drum 10; A plurality of second level transmitters (22) installed in each of the plurality of tanks (2) to measure and transmit the level of each tank; And a rundown master controller 25 electrically connected to the first liquid level transmitter 21, the plurality of second liquid level transmitters 22, the feed pump 11, and the flow control valve 12 side individually , The rundown master controller 25 receives the liquid level value of the flash drum 10 and the liquid level value of each tank 2 from the first liquid level transmitter 21 and the plurality of second liquid level transmitters 22 And controls the transfer pump (11) and the flow control valve (12).

The transfer pump 11 is configured to have a VFD (Variable Frequency Diverter) motor. The transfer pump 11 pumps the liquefied gas into the plurality of tanks 2 according to a set point using the VFD motor. To be transported to the transporting device.

And the set value is determined by the signal value from the run-down master control unit (25).

The transfer pump 11 is installed on the topside side of a floating offshore structure and the tank 2 is disposed in a lower hull of a floating offshore structure.

 The plurality of branch lines 18 are branched to the run down line 17 and the plurality of branch lines 18 are connected to the plurality of tanks 2 individually.

According to another aspect of the present invention, there is provided a rundown line (10) connecting a flash drum (10) for gas-liquid separation of a liquefied gas generated by a liquefaction facility and a plurality of tanks (2) A transfer pump 11 and a flow rate control valve 12 which are controllable by a run-down mast controller 25 are provided in the control unit 17 and the rundown master controller 25 controls the level of the liquid level of the flash drum 10 And controlling the liquid level of each of the plurality of tanks (2) to simultaneously control the transfer pump (11) and the flow control valve (12) to adjust the liquid level of the plurality of tanks (2) Provides a tank level control system for offshore structures.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a system for controlling the level of a tank for a floating offshore structure according to an embodiment of the present invention; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples can be modified in various forms, and the scope of the present invention is not limited to the following examples.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 shows a system for controlling the level of a tank for a floating offshore structure according to an embodiment of the present invention.

As shown, the liquid level control system for a tank for a floating offshore structure according to an embodiment of the present invention includes a flash drum 10 for flashing gas-liquid separation of a liquefied gas generated by a liquefaction facility 5, A rundown line 17 connected from the drum 10 to a plurality of tanks 2 and a rudder line 17 provided on the rundown line 17 for forcibly transporting the liquefied gas from the flash drum 10 to the plurality of tanks 2 A flow control valve 12 disposed downstream of the transfer pump 11 for controlling the flow rate of the liquefied gas transferred along the run down line 17, A control unit 20 for controlling the operations of the transfer pump 11 and the flow control valve 12 by using the respective liquid level values after measuring the liquid level of the drum 10 and the liquid level in each tank 2 .

A topside for the refining and storage of the liquefied gas is installed in the upper part of the hull of the floating offshore structure, and a liquefaction facility 5 for producing the liquefied gas is disposed in the upper facility.

The liquefaction facility 5 has a heat exchanger or the like for liquefying the gas and the liquefied gas produced in the liquefaction facility 5 is supplied to the flash drum 10 side.

The flash drum 10 is disposed on the topside side of the floating marine structure and the plurality of tanks 2 are disposed on the lower hull of the floating marine structure.

The flash drum 10 can be configured to gas-liquidize the supplied liquefied gas, and the flash drum 10 can be configured to return the flash gas separated therein to the liquefaction facility 5 side. A run down line 17 is extended to the lower end side of the flash drum 10 and a run down line 17 is connected to a plurality of the tanks 2 side.

On the other hand, in the rundown line 17, a plurality of branch lines 18 are branched, and each branch line 18 is connected to each tank 2. Particularly, each branch line 18 is connected to each tank 2 And is configured to be drawn in close to the bottom surface.

The transfer pump 11 is installed on the upper equipment side of the floating offshore structure and the transfer pump 11 is installed in the middle of the run down line 17. The transfer pump 11 is connected to the flash pump 10 Liquefied gas is forced to be delivered to each tank (2).

Particularly, the feed pump 11 is structured with a VFD (Variable Frequency Diverter) motor 11a. The feed pump 11 uses a VFD motor 11a to feed a liquefied gas to a plurality of Tank 2 at a constant flow rate.

The set value of the transfer pump 11 is input directly to the transfer pump 11 by the operator or inputted to the rundown master controller 25 to be described later and the rundown master controller 25 controls the transfer pump 11 The feed pump 11 can be operated by sending a signal value.

It is also possible to appropriately change the set value of the transfer pump 11 using the measured level of the flash drum 10 and the liquid level value in each tank 2 and control the operation of the flow rate control valve 12, May be controlled.

The flow control valve 12 is disposed on the downstream side of the feed pump 11 on the run down line 17 and has an opening ratio to regulate the flow rate of the liquefied gas conveyed through the run down line 17. [ .

The flow rate of the liquefied gas can be maintained in a constant state and can be transferred to the plurality of tanks 2 by the interaction of the transfer pump 11 and the flow control valve 12. [

The control unit 20 includes a rundown master controller 25 and a first level transmitter 21 is installed on one side of the flash drum 10 to measure the level of the flash drum, And the second level transmitters 22 are respectively installed in each of the plurality of tanks 2 to measure the level of the liquid in each tank 2 and transmit the measured liquid level to the rundown master controller 25 side send.

The rundown master controller 25 is electrically connected to the first liquid level transmitter 21, the plurality of second liquid level transmitters 22, the feed pump 11 and the flow control valve 12 via the signal line 26 Respectively.

With this configuration, the rundown master controller 25 outputs the liquid level value of the flash drum 10 and the liquid level value of each tank 2 from the first liquid level transmitter 21 and the plurality of second liquid level transmitters 22, respectively And controls the opening and closing of the flow control valve 12 to control the operation and the setting value of the transfer pump 11 by using each of the liquid level values so as to be stable to the plurality of tanks 2 It is possible to transfer the flow rate and minimize the occurrence of two phases (liquid / gas phase) due to the phase change of the liquefied gas, thereby facilitating adjustment and control of the fluid.

The present invention can effectively maintain the balance of the floating structure of the floating structure by supplying the liquefied gas in a balanced manner to the plurality of tanks (2) through the control of the feed pump (11) and the flow control valve (12) There is an advantage that the durability of each tank can be increased.

A liquid level control system for a tank for a floating offshore structure according to another embodiment of the present invention includes a flash drum 10 for gas-liquid separating liquefied gas generated by a liquefaction facility, and a flash drum 10 for transporting liquefied gas from a flash drum 17 The transfer pump 11 and the flow rate control valve 12 which are controllable by the run-down mast controller 25 are installed in the rundown line 17 connecting the plurality of tanks 2 to be received and the rundown master controller 25 Receives the liquid level value of the flash drum 10 and the liquid level value of each of the plurality of tanks 2 and simultaneously controls the transfer pump 11 and the flow rate control valve 12 to adjust the liquid level of the plurality of tanks 2 It is possible.

The detailed description of each component is the same as that described in the above-described embodiment, so it is omitted here.

It goes without saying that the above-described detailed components can be added to this embodiment as well.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention will be.

2: tank 5: liquefaction plant
10: flash drum 11: transfer pump
12: Flow control valve 17: Run-down line
20: control unit 21: first liquid level transmitter
22: second liquid level transmitter 25: rundown master controller
26: Signal line

Claims (7)

A method of controlling a liquid level of a plurality of tanks installed in a floating offshore structure,
1) gas-liquid separation of a liquefied gas generated by a liquefaction facility by a flash drum 10, and storing gas-liquid separated liquefied gas in a plurality of tanks 2;
2) measuring the liquid level in the flash drum 10 and the liquid level in the plurality of tanks 2;
3) controlling the operation and setting of the transfer pump 11 by the liquid level value in the flash drum 10 and the liquid level value in the plurality of tanks 2 measured in the step 2); And
4) controlling the opening amount of the flow control valve 12 by the liquid level value in the flash drum 10 and the liquid level value in the plurality of tanks 2 measured in the step 2)
The liquefied gas separated by the flash drum 10 is forcibly transferred by the transfer pump 11 and the flow rate is controlled by the flow control valve 12 and then supplied to the plurality of tanks 2 Stored,
Wherein the tank balance is maintained by balancing the liquefied gas to the plurality of tanks (2). ≪ Desc / Clms Page number 13 > The method according to claim 1,
The control of the transfer pump 11 in the step 3) and the control of the flow control valve 12 in the step 4) are performed by the control unit 20,
The control unit (20)
A first liquid level transmitter (21) installed at one side of the flash drum (10) to measure and transmit the liquid level of the flash drum (10);
A plurality of second liquid level transmitters (22) installed in each of the plurality of tanks (2) to measure and transmit the liquid level of each tank (2); And
A rundown master controller (25) electrically connected to the first liquid level transmitter (21), the plurality of second liquid level transmitters (22), the feed pump (11), and the flow control valve (12) side; Lt; / RTI >
The rundown master controller 25 receives the level value of the flash drum 10 and the level value of each of the plurality of tanks 2 from the first liquid level transmitter 21 and the plurality of second liquid level transmitters 22 And controls the transfer pump (11) and the flow control valve (12). The method according to claim 1,
The transfer pump 11 includes a VFD (Variable Frequency Diverter) motor,
Wherein the transfer pump (11) transfers the liquefied gas to the plurality of tanks (2) in accordance with the set values using the VFD motor. The method of claim 2,
Wherein the set value is determined by a signal value from the rundown master controller (25). The method according to any one of claims 1 to 4,
The transfer pump 11 is installed on the topside of the floating offshore structure and the plurality of tanks 2 are arranged in the lower hull of the floating offshore structure, Tank level control method. delete delete

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