KR101224922B1 - LNG regasification plant - Google Patents

Abstract

The present invention relates to an LNG regasification plant.
According to an aspect of the present invention, in the LNG regasification plant, a suction drum for storing LNG supplied from the LNG storage tank, a high pressure pump for pumping the LNG supplied from the suction drum to a high pressure, and the high pressure pump A vaporizer for vaporizing the boosted LNG, an evaporation gas discharge line from the high pressure pump to the LNG storage tank, an evaporation gas discharge line provided with a discharge valve, and a level detection for measuring the level of LNG in the high pressure pump And a valve control device for controlling the discharge valve according to a detection result of the level detecting unit.

Description

LG regasification plant

The present invention relates to an LNG regasification plant.

Liquefied natural gas (hereinafter referred to as "LNG") is a colorless transparent liquid obtained by cooling methane-based natural gas to about -162 ° C. and liquefying it. / 600. ≪ / RTI > Therefore, it is very efficient to transport liquefied LNG when transporting natural gas. For example, an LNG carrier that can transport (transport) LNG is used.

Recently, LNG carriers that can supply natural gas from the sea to consumers by installing a separate regasification facility have emerged, and are configured to perform the same role as a land LNG terminal by mounting a regasification facility on an offshore structure. There is also.

LNG regasification facilities for offshore structures including such vessels include suction drums that temporarily store and supply LNG in order to facilitate and stabilize the control of LNG to be regasified, high pressure pumps and high pressure pumps that can boost LNG to high pressure. It may include a regasification unit consisting of a vaporizer for vaporizing the LNG boosted by.

The high pressure pump should be supplied with LNG that has been sufficiently cooled in the suction drum, and some of the LNG may be evaporated by the heat generated from the high pressure pump. The boil-off gas generated from the high pressure pump may be discharged to the suction drum or the LNG storage tank.

However, the above-described conventional techniques have the following problems.

If the regasification unit is filled with LNG and maintains the standby state for a considerable time without regasification operation, the LNG temperature in the high pressure pump naturally rises, and thus the supercooled state cannot be maintained. At this time, when driving the high-pressure pump of the regasification unit in the atmosphere, excessive boil-off gas is generated, and excessively generated boil-off gas is not discharged properly, and the level in the high-pressure pump is drastically lowered. There was this.

In addition, even if it is necessary to perform additional cool down on the high pressure pump without filling the LNG, excessive boil-off gas is generated and the suction drum pressure increases as it flows into the suction drum, and the LNG level in the suction drum rapidly increases. There was also a problem that the operation is stopped due to the suction drum level trip.

Embodiments of the present invention to provide an LNG regasification plant that can effectively discharge the excessively generated boil-off gas in the high pressure pump.

According to an aspect of the present invention, in the LNG regasification plant, a suction drum for storing LNG supplied from the LNG storage tank, a high pressure pump for pumping the LNG supplied from the suction drum to a high pressure, and the high pressure pump A vaporizer for vaporizing the boosted LNG, an evaporation gas discharge line from the high pressure pump to the LNG storage tank, an evaporation gas discharge line provided with a discharge valve, and a level detection for measuring the level of LNG in the high pressure pump And a valve control device for controlling the discharge valve according to a detection result of the level detecting unit.

In addition, to provide a LNG regasification facility further comprises a temperature sensor for measuring the temperature of the boil-off gas passing through the boil-off gas discharge line, and a temperature controller for receiving the detection signal of the temperature sensor to control the discharge valve. Can be.

In addition, the high pressure pump is connected in parallel so as to correspond to each of the plurality of vaporizers, it is possible to provide a LNG regasification facility consisting of a plurality so that the level sensing unit and the discharge valve respectively corresponds to the high pressure pump.

The method may further include a first gas line having a first valve installed therein, wherein the boil-off gas may move from the high pressure pump to the suction drum. It is possible to provide an LNG regasification plant that is connected to branch from one valve and the high pressure pump.

In addition, it is connected to the rear end of the high-pressure pump on the LNG supply line for transporting the LNG from the LNG storage tank to the carburetor to provide a path for the LNG to move to the suction drum, the LNG circulation line is installed a second valve It can provide a LNG regasification plant further comprising.

The apparatus may further include a third gas line guiding a portion of the natural gas vaporized in the vaporizer to the suction drum, and a third valve installed in the gas line to adjust the amount of natural gas introduced into the suction drum. LNG regasification facilities can be provided.

Embodiments of the present invention can stably perform the regasification operation by effectively discharging the excessively generated boil-off gas in the high pressure pump.

1 is a block diagram showing an LNG regasification plant according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram showing an LNG regasification plant according to an embodiment of the present invention.

As shown in FIG. 1, the LNG regasification plant 100 according to an embodiment of the present invention includes a suction drum 110 for storing LNG supplied from the LNG storage tank 1 and a suction drum. The high pressure pump 120 for pumping the LNG supplied from the high pressure 110, the vaporizer 130 for vaporizing the LNG boosted by the high pressure pump 120, and the evaporated gas from the high pressure pump 120 LNG storage tank ( 1) valve control for receiving the detection signal of the level detection unit 150 and the level detection unit 150 to measure the LNG level of the boil-off gas discharge line 140, the high pressure pump 120 to be discharged to the side Apparatus 160 may be included and may be applied to both regasification installations installed on offshore structures as well as ships.

The suction drum 110 temporarily stores LNG supplied through the LNG supply line 170 from the LNG storage tank 1 to be supplied to the high pressure pump 120. Here, the LNG supply line 170 provides a path for LNG to be vaporized from the LNG storage tank 1 via the suction drum 110, the high pressure pump 120, the vaporizer 130.

The high pressure pump 120 pumps the LNG supplied from the suction drum 110 at a high pressure to supply the vaporizer 130.

The vaporizer 130 receives the LNG boosted by the high-pressure pump 120 through the LNG supply line 170, and vaporizes it to supply to the required destination (2), by vaporizing the LNG and the side into which the LNG is introduced The fourth valve 131 and the fifth valve 132 are respectively provided on the discharge side.

The boil-off gas discharge line 140 is provided to discharge the boil-off gas from the high pressure pump 120 to the LNG storage tank 1 side, and a discharge valve 141 for opening and closing the flow of the boil-off gas is installed. Therefore, by opening the discharge valve 141, the boil-off gas in the high pressure pump 120 is discharged to the LNG storage tank 1 side along the boil-off gas discharge line 140.

The level detecting unit 150 is installed inside the housing of the high pressure pump 120 to measure the level of the high pressure pump 120, that is, the liquid level of LNG, and outputs a detection signal thereof to the valve controller 160.

The valve control device 160 receives the detection signal of the level detecting unit 150 and controls the discharge valve 141. As a result, the internal pressure of the high pressure pump 120 rises due to excessive evaporation gas, thereby increasing the high pressure pump 120. When the LNG level in the decrease, the discharge valve 141 is opened so that excess boil-off gas in the high pressure pump 120 is discharged to the LNG storage tank 1 side through the boil-off gas discharge line 140.

For example, the valve control device 160 may adjust the discharge valve 141 to discharge the boil-off gas when the water level is lowered to the intermediate level of the pump. The reference level can be appropriately adjusted according to the model, size and structure of the pump.

The LNG regasification plant 100 according to an embodiment of the present invention measures the temperature of the boil-off gas passing through the boil-off gas discharge line 140 and outputs a detection signal to the temperature detecting unit 180 and the temperature detecting unit ( It may further include a temperature controller 190 for receiving the detection signal of the 180 to control the discharge valve (141). The temperature sensing unit 180 may be installed at the highest portion of the boil-off gas discharge line 140.

The temperature controller 190 is a discharge valve 141 when the temperature of the boil-off gas in the boil-off gas discharge line 140 is a predetermined temperature, for example, cryogenic temperature close to or close to LNG by the detection signal output from the temperature sensor 180. ) To prevent LNG from being discharged to the boil-off gas main line 250 through the boil-off gas discharge line 140.

For example, when the temperature detected by the temperature sensor 180 is -140 ° C, the temperature controller 190 may determine that LNG is mixed with the boil-off gas and close the discharge valve 141.

LNG regasification plant 100 according to an embodiment of the present invention is connected in parallel to correspond to each of the plurality of high-pressure pump 120 and the plurality of vaporizers 130, the level detection unit 150 and the discharge The valve 141 may be formed in plurality so as to correspond to the high pressure pump 120, respectively. Therefore, as in the present embodiment, the LNG supply line 170 has a first branch line 171 branched from the suction drum 110 in a plurality, and the high pressure pump 120 and the vaporizer 130 are connected to the first branch line 171. Are respectively installed, and the fourth valve 172 is installed at the front end of the high pressure pump 120 for each of the first branch lines 171.

The boil-off gas discharge line 140 is connected to the second branch line 142 branching from the first gas line 210, and the discharge valve 141 may be installed in the second branch line 142. In addition, the level sensing unit 150 may be installed for each high pressure pump 120. Here, the valve control device 160 is provided in plurality to correspond to each of the high-pressure pump 120, as in this embodiment, or made of a single to receive a detection signal from each of the level sensing unit 150 to receive each of the discharge valve 141 It can also be controlled independently.

On the other hand, the boil-off gas discharge line 140 may be configured to be directly connected to the high pressure pump 120, otherwise, it may be connected to branch from the first gas line 210 as in this embodiment.

The first gas line 210 provides a path for the boil-off gas generated basically from the high pressure pump 120 to move to the suction drum 110, and the first valve 211 for opening and closing the flow of the boil-off gas. Is installed, it may be connected so that the boil-off gas discharge line 140 is branched between the first valve 211 and the high pressure pump 120.

LNG regasification plant 100 according to the present invention is connected to the rear end of the high-pressure pump 120 on the LNG supply line 170 LNG circulation line 220 for providing a path for moving the LNG to the suction drum 110 It may further include, the LNG circulation line 220 is provided with a second valve 221 for regulating the flow of LNG. In addition, the boil-off gas main line 250 is provided to provide a path for the boil-off gas generated in the suction drum 110 to move to the LNG storage tank (1) side. In addition, a third gas line 230 may be installed to provide a path for the vaporized gas between the vaporizer 130 and the required destination 2 to move toward the suction drum 110 for adjusting the suction drum pressure. On the line 230 is provided a third valve 231 for opening and closing the flow of the boil-off gas.

Referring to the operation of the LNG regasification plant according to the present invention having such a configuration as an example.

In the present invention, when the regasification unit 240 including the high pressure pump 120 and the vaporizer 130 is made of a single, it is possible to immediately resume the regasification operation in the standby state, made of a plurality of regasification unit 240 In this case, a dedicated boil-off gas discharge line 140 and an apparatus for controlling the discharge of the boil-off gas through the same are applied to drive the re-gas unit 240 in the air without affecting the re-gas unit 240 in operation.

That is, when LNG is filled in a single regasification unit 240 and the standby state is maintained for a considerable time without regasification operation, or LNG is filled in some of the regasification units 240 of the plurality of regasification units 240. In the case where the operation standby state is maintained for a long time, the LNG temperature in the high pressure pump 120 naturally rises, and thus the supercooled state cannot be maintained. At this time, when the high-pressure pump 120 of the regasification unit 240 in the atmosphere is generated excessive evaporated gas.

When the internal pressure of the high pressure pump 120 rises due to the generated boil-off gas, the LNG flow rate sucked from the suction drum 110 is reduced, and the LNG level in the housing of the high pressure pump 120 is lowered. The control device 160 opens the discharge valve 141, so that the excess boil-off gas in the high pressure pump 120 is discharged to the LNG storage tank 1 side through the boil-off gas discharge line 140 to the high pressure pump 120 The internal pressure of the is lowered, the LNG suction flow rate of the high pressure pump 120 is restored again, the LNG level in the high pressure pump 120 is increased.

When the LNG level in the high pressure pump 120 rises above an appropriate level, the valve control device 160 closes the discharge valve 141, thereby blocking the discharge of the boil-off gas through the boil-off gas discharge line 140. Let's go.

On the other hand, despite the increase in the LNG level in the high pressure pump 120, when the valve control device 160 malfunctions, the LNG is introduced into the first gas line 210 through the boil-off gas discharge line 140, etc. In order to prevent the temperature detecting unit 180 detects that the temperature in the boil-off gas discharge line 140 is very low or close to LNG, the temperature controller 190 closes the discharge valve 141 by the temperature controller 190 to prevent inflow of LNG. Blocking to prevent damage to the main line 250 and the like.

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, You will understand. For example, those skilled in the art can change the material, size, etc. of each component according to the application field, or combine or replace the previous embodiments in a form that is not clearly disclosed in the embodiments of the present invention, but this also It does not depart from the scope of the invention. Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, and that such modified embodiments are included in the technical idea described in the claims of the present invention.

1: LNG storage tank 2: required
110: suction drum 120: high pressure pump
130: carburetor 131: fifth valve
132: sixth valve 140: boil-off gas discharge line
141: discharge valve 142: second branch line
150: level detection unit 160: valve control device
170: LNG supply line 171: first branch line
172: fourth valve 180: temperature sensing unit
190: temperature controller 210: first gas line
211: first valve 220: LNG circulation line
221 second valve 230 third gas line
231 third valve 240 regasification unit
250: main line of boil-off gas

Claims (6)

In LNG regasification plant,
A suction drum for storing LNG supplied from the LNG storage tank,
A high pressure pump for pumping the LNG supplied from the suction drum at a high pressure;
A vaporizer and a vaporizer for vaporizing the LNG boosted by the high pressure pump;
An evaporation gas discharge line provided to discharge the boil-off gas from the high pressure pump to the LNG storage tank, and having a discharge valve;
A level sensing unit for measuring the level of LNG in the high pressure pump;
Valve control device for discharging the boil-off gas from the high pressure pump to the storage tank by controlling the discharge valve when the level of the LNG detected by the level detection unit is lower than the reference level
LNG regasification plant comprising a. The method of claim 1,
A temperature sensing unit measuring a temperature of the boil-off gas passing through the boil-off gas discharge line;
A temperature controller that receives the detection signal of the temperature sensing unit to control the discharge valve
LNG regasification plant further comprising. The method of claim 1,
The high-pressure pump is connected in parallel so as to correspond to each of the vaporizer composed of a plurality, LNG regasification facility consisting of a plurality so that the level sensing unit and the discharge valve respectively correspond to the high-pressure pump. The method of claim 1,
It provides a path for the evaporation gas to move from the high pressure pump to the suction drum, further comprising a first gas line is installed a first valve,
The boil-off gas discharge line is connected to the LNG regasification facility branched from the first valve and the high pressure pump in the first gas line. The method according to any one of claims 1 to 4,
The LNG circulation line, which is connected to the rear end of the high pressure pump on the LNG supply line for transferring LNG from the LNG storage tank to the vaporizer, provides a path for the LNG to move to the suction drum, and a second valve is installed.
LNG regasification plant further comprising. The method of claim 1,
A third gas line guiding a portion of the natural gas vaporized in the vaporizer to the suction drum;
LNG regasification plant further comprises a third valve installed in the gas line to control the amount of natural gas flowing into the suction drum.

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