KR102576199B1 - LNG Regasification System and LNG Regasification Method - Google Patents

Abstract

The present invention relates to an LNG regasification system and an LNG regasification method, and more particularly, to an effective suction of a high-pressure pump by storing LNG directly in a buffer unit of a high-pressure pump in an LNG storage tank without storing it in a recondenser or a suction drum. It relates to an LNG regasification system and an LNG regasification method in which water head (NPSH) is easily secured.
The LNG regasification method according to the present invention includes the steps of storing LNG and BOG discharged from an LNG storage tank in a buffer unit of a high pressure pump; Pressurizing the LNG stored in the buffer unit; and regasifying the pressurized LNG, wherein the LNG discharged from the LNG storage tank is directly stored in the buffer unit of the high-pressure pump, and the BOG discharged from the LNG storage tank is re-condensed in a recondenser. After that, it is not stored in the recondenser but stored in the buffer unit of the high-pressure pump.

Description

LNG Regasification System and LNG Regasification Method {LNG Regasification System and LNG Regasification Method}

The present invention relates to an LNG regasification system and an LNG regasification method, and more particularly, to an effective suction of a high pressure pump by directly storing LNG in a buffer unit of a high pressure pump in an LNG storage tank without storing it in a recondenser or a suction drum. It relates to an LNG regasification system and an LNG regasification method in which water head (NPSH) is easily secured.

In general, natural gas is produced in a state of liquefied natural gas (LNG) liquefied at a cryogenic temperature at a production site and then transported over a long distance to a destination by an LNG carrier. LNG is obtained by cooling natural gas to a cryogenic temperature of about -163 ° C. at atmospheric pressure, and its volume is reduced to about 1/600 of that of gaseous natural gas, so it is very suitable for long-distance transportation through sea.

The LNG carrier is for loading and unloading LNG to a place on land by carrying LNG and operating the sea, and for this purpose, it includes an LNG storage tank capable of withstanding the extremely low temperature of LNG. Typically, such an LNG carrier unloads LNG in an LNG storage tank to an onshore terminal in a liquefied state, and the unloaded LNG is regasified by an LNG regasification facility installed in the onshore terminal and then supplied to a consumer.

Such an LNG regasification facility of an onshore terminal is known to be economically advantageous when installed in a place where there is a stable demand for natural gas because the natural gas market is well formed. However, in the case of a destination where demand for natural gas is seasonal, short-term, or periodically limited, installing an LNG regasification facility in an onshore terminal is economically disadvantageous due to high installation and management costs.

In particular, when the LNG regasification facility of an onshore terminal is destroyed due to natural disasters, even if an LNG carrier arrives at the destination with LNG, this LNG cannot be regasified, so the existing LNG regasification facility of an onshore terminal has limitations. Have.

Accordingly, in order to regasify LNG at sea and supply natural gas to an onshore terminal, an LNG regasification system (LNG RV; LNG Regasification Vessel) or floating LNG storage and A floating storage and regasification unit (FSRU) was developed.

In such an LNG regasification system or a floating LNG storage and regasification facility, the liquefied natural gas in the liquefied natural gas storage tank is supplied to a vaporizer to be vaporized. Conventionally, BOG or LNG discharged from the liquefied natural gas storage tank is It was stored in the buffer volume provided in the suction drum and supplied to the high-pressure pump.

By this function, even when the supply of LNG from the liquefied natural gas storage tank is not smooth, it is possible to export the gas at the same flow rate to the demand place. For example, in a situation where four feed pumps in a liquefied natural gas storage tank are operated, one feed pump is out of order and only three are used to supply LNG. , One pump installed in redundancy must be operated, and the buffer volume must supply LNG as much as the amount of LNG that the pump can supply for one minute if it takes 1 minute to operate it (start-up). .

However, during maintenance of the recondenser or suction drum, LNG could be supplied by temporarily using the bypass pipe connected to the high-pressure pump, but there was a limit to this because the high-pressure pump did not have a buffer volume.

Registered Patent Publication No. 10-0678851 (2007.01.29)

The present invention is to solve the conventional problems as described above, and does not store LNG in a recondenser or a suction drum, but directly stores LNG in the buffer unit of the high pressure pump in the LNG storage tank to increase the effective suction head (NPSH) of the high pressure pump. Its purpose is to facilitate acquisition.

According to one aspect of the present invention for achieving the above object, storing the LNG and BOG discharged from the LNG storage tank in the buffer unit of the high pressure pump; Pressurizing the LNG stored in the buffer unit; and regasifying the pressurized LNG, wherein the LNG discharged from the LNG storage tank is directly stored in the buffer unit of the high-pressure pump, and the BOG discharged from the LNG storage tank is re-condensed in a recondenser. After that, it provides an LNG regasification method that is not stored in the recondenser but stored in the buffer unit of the high-pressure pump.

The LNG in the LNG storage tank is pressurized by the feed pump of the LNG storage tank and stored in the buffer unit of the high-pressure pump, and the BOG in the LNG storage tank is compressed by the BOG compressor and recondensed in the recondenser, Preferably, it is not stored in the recondenser but stored in the buffer unit of the high-pressure pump.

The BOG discharged from the high-pressure pump is preferably returned to the LNG storage tank or re-condensed in the re-condenser and stored again in the buffer unit of the high-pressure pump.

According to another aspect of the present invention, a re-condenser for condensing BOG generated from the LNG storage tank; a high-pressure pump pressurizing the LNG supplied from the LNG storage tank; and a vaporizer for regasifying the LNG boosted by the high-pressure pump and supplying the LNG to a consumer, wherein the high-pressure pump has a buffer unit for buffering the LNG, and the LNG discharged from the LNG storage tank is directly stored in the buffer unit. and the BOG discharged from the LNG storage tank is re-condensed in the re-condenser and then stored in the buffer unit without being stored in the re-condenser.

A level measurement unit for measuring the level of LNG in the high-pressure pump, and when the level of LNG detected by the level measurement unit is lower than a preset level, BOG generated from the high-pressure pump is transferred to the LNG storage tank or the recondenser. It is desirable to supply

a first BOG line supplying BOG generated from the high-pressure pump to the LNG storage tank; It is preferable to include; and a first control valve installed in the first BOG line to adjust the flow rate of BOG.

a second BOG line supplying BOG generated from the high pressure pump to the recondenser; It is preferable to include; and a second control valve for adjusting the flow rate of BOG installed in the second BOG line.

When some of the plurality of feed pumps of the LNG storage tank are damaged and the supply of LNG to the high-pressure pump is not smooth, and the LNG level of the buffer unit is rapidly lowered, NG discharged from the vaporizer is supplied to the buffer unit It is preferable to compensate for the pressure of the buffer part.

According to another aspect of the present invention, a re-condenser for condensing BOG generated from the LNG storage tank; a high-pressure pump pressurizing the LNG supplied from the LNG storage tank; And a vaporizer for regasifying the LNG boosted by the high-pressure pump and supplying it to a consumer, wherein the LNG supplied for re-vaporization from the LNG storage tank is directly stored in the buffer unit of the high-pressure pump without passing through the re-condenser. , LNG regasification system is provided.

When some of the plurality of feed pumps of the LNG storage tank are damaged and the supply of LNG to the high-pressure pump is not smooth, and the LNG level of the buffer unit is rapidly lowered, NG discharged from the vaporizer is supplied to the buffer unit It is preferable to compensate for the pressure of the buffer part.

According to the present invention, the method of storing LNG directly in the buffer unit of the high pressure pump in the LNG storage tank without storing it in the recondenser or suction drum is compared to the method of storing LNG in the recondenser or suction drum and then supplying it to the high pressure pump. There is an effect that it is easy to secure the effective suction head (NPSH) of the pump.

In addition, since it does not go through a recondenser or a suction drum, there is no need for related pipes or valves, so there is an economical effect.

In addition, since the volume of the buffer unit provided in the high-pressure pump increases and the amount of LNG level reduction for the same discharge flow rate is small compared to the prior art, the LNG level control of the buffer unit becomes easier.

1 is a diagram illustrating an LNG regasification system according to an embodiment of the present invention.

Hereinafter, the configuration and operation of a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. In addition, the following examples may be modified in many different forms, and the scope of the present invention is not limited to the following examples.

1 is a diagram illustrating an LNG regasification system according to an embodiment of the present invention.

As shown in FIG. 1, the LNG regasification system 100 according to an embodiment of the present invention includes a recondenser 130 for recondensing BOG generated from an LNG storage tank 10, an LNG storage tank 10 ), and a high-pressure pump 110 for pressurizing LNG supplied from the high-pressure pump 110, and a vaporizer 120 for re-vaporizing the LNG boosted by the high-pressure pump 110 and supplying it to a consumer, and the high-pressure pump 110 includes a buffer for LNG. A buffer unit 119 is provided, and LNG discharged from the LNG storage tank 10 is directly stored in the buffer unit 119, and BOG discharged from the LNG storage tank 10 is recondensed in the recondenser 130. After that, it may be directly stored in the buffer unit 119 without being stored in the recondenser 130 .

The high-pressure pump 110 needs to be continuously supplied with LNG at a certain pressure so that the LNG level in the high-pressure pump 110 does not become lower than a predetermined value according to the amount of LNG discharged from the vaporizer 120.

Conventionally, when some of the plurality of feed pumps 116 of the LNG storage tank 10 are damaged and the supply of LNG is not smooth, the recondenser or the suction drum has a buffer volume so that the damaged feed pump cannot supply The amount of LNG required for the high-pressure pump was supplied as LNG stored in the buffer volume of the recondenser or suction drum as much as the amount of LNG. However, when the recondenser or the suction drum is not normally operated, there is a problem in that LNG cannot be smoothly supplied to the high-pressure pump.

In order to solve this problem, the present invention provides a buffer unit 119 having a buffer volume in the high pressure pump 110, so that even if the recondenser 130 does not normally supply LNG due to maintenance or the like, the high pressure pump 110 Regasification can be smoothly performed using LNG stored in the buffer unit 119 of ).

The capacity of the buffer unit 119 may vary according to the requirements of the ship owner. For example, if the ship owner presents the condition of supplying gas normally to the customer during the time when all 4 feed pumps fail, the capacity can be reduced by calculating the time and flow rate required to restart the 4 feed pumps. can decide

In addition, since the buffer unit 119 of the high-pressure pump 110 is provided, the recondenser 130 only serves to re-condensate BOG and does not need to have a buffer function to store LNG.

That is, the LNG discharged from the LNG storage tank 10 can be pressurized by the feed pump 116 and directly stored in the buffer unit 119 of the high pressure pump 110 through the first LNG supply line 115, BOG discharged from the LNG storage tank 10 is compressed in the BOG compressor 135 through the BOG supply line 131, condensed in the recondenser 130, and then passed through the second LNG supply line 132 to the first LNG It joins the supply line 115 and can be supplied to the buffer unit 119 of the high pressure pump 110 .

The recondenser 130 serves only to re-condensate BOG through heat exchange between BOG discharged from the LNG storage tank 10 and LNG supplied from the LNG storage tank 10, and immediately high pressure without storing the re-condensed LNG. It is discharged to the buffer unit 119 of the pump 110.

LNG stored in the buffer unit 119 of the high-pressure pump 110 is pressurized by the high-pressure pump 110 and supplied to the vaporizer 120 installed downstream of the high-pressure pump 110, and can be vaporized and then supplied to consumers. there is.

On the other hand, in order to process BOG generated in the buffer unit 119 of the high pressure pump 110, a level measuring unit 140 for measuring the LNG level inside the high pressure pump 110 may be included, and the level measuring unit ( When the level of LNG detected in 140 is lower than the predetermined level, BOG generated from the high-pressure pump 110 may be supplied to the LNG storage tank 10 or the recondenser 130 .

A first BOG line 111 for supplying BOG generated from the high-pressure pump 110 to the LNG storage tank 10 and a first control valve 112 installed in the first BOG line 111 to control the flow rate of BOG A second BOG line 113 for supplying BOG generated from the high pressure pump 110 to the recondenser 130 and a second BOG line 113 installed in the second BOG line 113 to adjust the flow rate of BOG A control valve 114 may be included.

BOG generated in the buffer unit 119 of the high pressure pump 110 is supplied to the LNG storage tank 10 through the first BOG line 111 or the second BOG line 113 branched from the first BOG line 111 ) It can be supplied to the recondenser 130 through.

The first control valve 112 and the second control valve 114 may be controlled by the valve control unit 145 according to the LNG level value of the high-pressure pump 110 measured by the level measuring unit 140 .

On the other hand, when some of the plurality of feed pumps 116 of the LNG storage tank 10 are damaged and the operation is stopped, the buffer unit 119 of the high pressure pump 110 is used to supply LNG, so the buffer unit 119 The level of LNG of is lowered, which affects the pressure drop, and vaporization may occur in the buffer unit 119. Since this adversely affects the impeller of the high-pressure pump 110, NG is branched from the NG discharge line 121 through which NG is discharged from the vaporizer 120 to compensate for the pressure of the buffer unit 119, and the NG to the high-pressure pump 110 It may include a pressure compensation line 151 supplied, and a third control valve 150 may be provided in the pressure compensation line 151 to adjust the amount of NG supplied.

NG discharged from the vaporizer 120 may compensate for the pressure of the buffer unit 119 of the high-pressure pump 110 in a high-pressure gas state.

The third control valve 150 may be controlled by the valve control unit 145 according to the LNG level value of the high-pressure pump 110 measured by the level measuring unit 145 .

In other words, the LNG level of the buffer unit 119 in the normal operation state is controlled by the first control valve 112 or the second control valve 114, and some of the pud pump 116 of the LNG storage tank 10 When the LNG level in the buffer unit 119 is rapidly lowered due to a breakdown in the supply of LNG, and the pressure in the buffer unit 119 rapidly decreases, the first control valve 112 or the second control valve 114 is used. Since the pressure cannot be compensated for by doing so, the pressure of the buffer unit 119 is compensated by supplying NG discharged from the vaporizer 120 to the buffer unit 119.

Meanwhile, the LNG regasification method according to the present invention includes the steps of storing LNG and BOG discharged from the LNG storage tank 10 in the buffer unit 119 of the high-pressure pump 110, pressurizing the LNG stored in the buffer unit 119 and regasifying the pressurized LNG, and the LNG discharged from the LNG storage tank 10 is directly stored in the buffer unit 119 of the high-pressure pump 110, and The discharged BOG may be recondensed in the recondenser 130 and then stored in the buffer unit 119 of the high pressure pump 110 without being stored in the recondenser 130 .

The LNG in the LNG storage tank 10 is pressurized by the feed pump 116 of the LNG storage tank 10 and stored in the buffer unit 119 of the high-pressure pump 110, and the BOG in the LNG storage tank 10 is BOG After being compressed by the compressor 135 and recondensed in the recondenser 130, it may be stored in the buffer unit 119 of the high pressure pump 110 without being stored in the recondenser 130.

BOG discharged from the high-pressure pump 110 may be returned to the LNG storage tank 10 or re-condensed in the recondenser 130 and stored again in the buffer unit 119 of the high-pressure pump 110.

The LNG regasification system and LNG regasification method according to the present invention do not store LNG in a recondenser or a suction drum, but store LNG directly in a buffer unit of a high-pressure pump in an LNG storage tank. It is easy to secure the effective suction head (NPSH) of the high-pressure pump compared to the method of supplying it to the high-pressure pump.

In addition, since it does not go through a recondenser or a suction drum, there is no need for related piping or valves, so there is an economic advantage accordingly.

In addition, since the volume of the buffer unit provided in the high-pressure pump is increased, the amount of LNG level reduction relative to the same discharge flow rate is small compared to the prior art, so there is an advantage in that the LNG level control of the buffer unit becomes easier.

It is obvious to those skilled in the art that the present invention is not limited to the above embodiments and can be variously modified or transformed without departing from the technical gist of the present invention. it did

110: high pressure pump 111: first BOG line
112: first control valve 113: second BOG line
114: second control valve 115: first LNG supply line
120: vaporizer 121: NG discharge line
130: recondenser 131: BOG supply line
132: second LNG supply line 135: BOG compressor
140: level measuring unit 145: valve control unit
150: third control valve 151: pressure compensation line

Claims (10)

Storing LNG and BOG discharged from the LNG storage tank in the buffer unit of the high-pressure pump;
Pressurizing the LNG stored in the buffer unit; and
Regasifying the pressurized LNG; includes,
The LNG discharged from the LNG storage tank is directly stored in the buffer unit of the high-pressure pump, and the BOG discharged from the LNG storage tank is recondensed in the recondenser and is not stored in the recondenser, but in the buffer unit of the high-pressure pump is stored in
When some of the plurality of feed pumps of the LNG storage tank are damaged and the supply of LNG to the high-pressure pump is not smooth, and the LNG level in the buffer unit is rapidly lowered, the LNG boosted by the high-pressure pump is regasified and supplied to the demand place. , LNG regasification method for supplying NG discharged from a vaporizer to the buffer unit to compensate for the pressure of the buffer unit. The method of claim 1,
The LNG in the LNG storage tank is pressurized by the feed pump of the LNG storage tank and stored in the buffer unit of the high pressure pump,
BOG of the LNG storage tank is compressed by the BOG compressor and re-condensed in the re-condenser, and then stored in the buffer unit of the high-pressure pump without being stored in the re-condenser. The method of claim 1,
BOG discharged from the high-pressure pump is recovered to the LNG storage tank or re-condensed in the re-condenser and stored again in the buffer unit of the high-pressure pump. A recondenser for condensing BOG generated from the LNG storage tank;
a high-pressure pump pressurizing the LNG supplied from the LNG storage tank; and
A vaporizer for regasifying the LNG boosted by the high-pressure pump and supplying it to a customer;
The high-pressure pump is provided with a buffer unit for buffering LNG,
The LNG discharged from the LNG storage tank is directly stored in the buffer unit, and the BOG discharged from the LNG storage tank is recondensed in the recondenser and then directly stored in the buffer unit without being stored in the recondenser,
When some of the plurality of feed pumps of the LNG storage tank are damaged and the supply of LNG to the high-pressure pump is not smooth, and the LNG level of the buffer unit is rapidly lowered, NG discharged from the vaporizer is supplied to the buffer unit Compensating for the pressure of the buffer unit, LNG regasification system. The method of claim 4,
Including a level measuring unit for measuring the level of LNG in the high-pressure pump,
LNG regasification system for supplying BOG generated from the high-pressure pump to the LNG storage tank or the recondenser when the level of LNG detected by the level measuring unit is lower than a preset level. The method of claim 4,
a first BOG line supplying BOG generated from the high-pressure pump to the LNG storage tank; and
A first control valve installed in the first BOG line to adjust the flow rate of BOG; including, LNG regasification system. The method of claim 4,
a second BOG line supplying BOG generated from the high pressure pump to the recondenser; and
A second control valve installed in the second BOG line to adjust the flow rate of BOG; including a, LNG regasification system. delete A recondenser for condensing BOG generated from the LNG storage tank;
a high-pressure pump pressurizing the LNG supplied from the LNG storage tank; and
A vaporizer for regasifying the LNG boosted by the high-pressure pump and supplying it to a customer;
The LNG supplied for regasification from the LNG storage tank is directly stored in the buffer unit of the high pressure pump without passing through the recondenser,
When some of the plurality of feed pumps of the LNG storage tank are damaged and the supply of LNG to the high-pressure pump is not smooth, and the LNG level of the buffer unit is rapidly lowered, NG discharged from the vaporizer is supplied to the buffer unit Compensating for the pressure of the buffer unit, LNG regasification system. delete

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