KR101616333B1 - Lng regasification device - Google Patents

Abstract

The liquefied natural gas rejuvenation apparatus according to an embodiment of the present invention includes a steam turbine driven by steam, a fluid containing first natural gas generated by vaporizing liquefied natural gas stored in a storage tank, a steam discharged from the steam turbine And a gas turbine driven by a mixed gas containing a vaporizer discharged from the storage tank and a second natural gas discharged from the vaporizer.

Description

[0001] LNG REGASIFICATION DEVICE [0002]

The present invention relates to a liquefied natural gas regenerator.

In general, the ship will consume a lot of power. A gas turbine fueled by natural gas is used to cover the power required for the ship, and a steam turbine is installed at the rear end to produce additional electric power.

In order to increase the transportation efficiency of natural gas used for gas turbines, natural gas is cooled to -162 ° C to reduce its volume to one-sixth of that, and then the liquefied natural gas is stored in the storage tank and transported. Natural gas can be used as a fuel for a gas turbine after being vaporized in a vaporizer.

1 is a view showing an example of a combined power generation system 60 that generates electricity using a gas turbine 10 and a steam turbine 20. [ 1, the liquefied natural gas stored in the storage tank 30 is vaporized in the vaporizer 50 and then supplied to the gas turbine 10 to be used for generating electric power. The steam discharged from the steam turbine 20 is supplied to the condenser 40 and is heat-exchanged with the seawater, and then condensed and reused.

At this time, the vaporizer 50 can vaporize the liquefied natural gas using seawater, and the high-temperature vapor discharged from the steam turbine 20 can be condensed after heat exchange with seawater in the condenser 40.

Therefore, the seawater discharged from the vaporizer 50 is lowered in temperature by the liquefied natural gas, and the seawater passing through the condenser 40 is elevated in temperature by the steam, so that it may affect marine life when discharged into the ocean .

As described above, a method of reducing the influence of the combined-cycle power generation system 60 on the ocean and using the steam discharged from the steam turbine 20 is being attempted.

In the prior art, the condensate of the vapor discharged from the steam turbine and the liquefied natural gas in the condenser is condensed into the working fluid, and the liquefied natural gas is vaporized, and the condensed working fluid in the condenser is discharged from the gas turbine The steam was converted to steam using an array and fed to the steam turbine.

However, the prior art may be difficult to separately generate high- and low-pressure steam for use in steam turbines because steam is produced by directly heating the array without separating the steam from the condensed working fluid in the condenser.

Korean Patent Laid-Open No. 10-2012-0074395 (Publication date: Jul.

The present invention is to propose a liquefied natural gas regenerating apparatus for vaporizing liquefied natural gas using steam discharged from a steam turbine.

The present invention is to propose a liquefied natural gas regenerating apparatus for separately supplying high pressure and low pressure steam to a steam turbine.

The problems of the present invention are not limited to the above-mentioned problems, and another problem that is not mentioned can be clearly understood by a person skilled in the art from the following description.

According to an aspect of the present invention, there is provided a steam turbine comprising: a steam turbine driven by steam; a vaporizer for vaporizing the fluid containing the first natural gas generated by vaporizing the liquefied natural gas stored in the storage tank using steam discharged from the steam turbine; And a gas turbine driven by a mixed gas including a second natural gas discharged from the vaporizer and an evaporated gas discharged from the storage tank, may be provided.

The liquefied natural gas reclamation system according to an aspect of the present invention may further include a first generator for generating electricity by the steam turbine and a second generator for generating electricity by the gas turbine.

According to an aspect of the present invention, there is provided a liquefied natural gas reclamation system comprising a first pump for pressurizing and moving liquefied natural gas stored in the storage tank, a suction drum for storing liquefied natural gas supplied from the first pump, A second pump for pressurizing and moving the liquefied natural gas supplied from the second pump, and a fluid generator for generating the fluid using the seawater supplied from the second pump to the vaporizer.

According to an aspect of the present invention, there is provided a liquefied natural gas rejuvenator comprising: a first pipe through which the evaporation gas flows; a compressor installed in the first pipe to compress the evaporation gas; And a second pipe through which a mixed gas of the gas and the second natural gas flows.

According to an aspect of the present invention, there is provided a gas turbine comprising: a compression section for compressing outside air to generate compressed air; a combustion section for generating the combustion gas by receiving the compressed air and the mixed gas; And a turbine section.

According to an aspect of the present invention, there is provided a liquefied natural gas rejuvenator comprising: a deaerator for receiving condensed water generated by condensing the steam in the first vaporizer and separating and discharging steam from the condensed water; and exhaust heat discharged from the gas turbine And a steam heating unit for heating the steam generated from the deaerator.

According to an aspect of the present invention, the steam heating section includes a high-pressure heating section and a low-pressure heating section, and the steam discharged from the plurality of high-pressure heating sections is supplied to a high-pressure turbine section of the steam turbine, Steam may be supplied to the low-pressure turbine portion of the steam turbine.

According to an aspect of the present invention, exhaust heat discharged from a plurality of gas turbines passes through a plurality of the high-pressure heating sections, is supplied to the plurality of low-pressure heating sections, and can be discharged from the plurality of low-pressure heating sections.

A liquefied natural gas rejuvenating cremation device according to one aspect of the present invention includes a condensate line through which the condensed water supplied from the vaporizer to the deaerator flows, an air line through which air supplied to the gas turbine moves, And a heat exchanger installed between the condensed water and the air for exchanging heat between the condensed water and the air.

The liquefied natural gas rejuvenator of the present invention can be used to vaporize a fluid by supplying vapor discharged from a steam turbine to a vaporizer.

The liquefied natural gas re-creaming method of the present invention can heat condensate discharged to a vaporizer by exhaust heat discharged from a gas turbine to supply high-pressure and low-pressure steam to the steam turbine, thereby circulating water and using exhaust heat of the gas turbine .

The liquefied natural gas rejuvenator of the present invention can improve the efficiency of deaerator through heat exchange between condensate discharged from a vaporizer and air supplied to a gas turbine.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the following description.

The foregoing summary, as well as the detailed description of the embodiments of the present application set forth below, may be better understood when read in conjunction with the appended drawings. Embodiments are shown in the drawings for purposes of illustrating the invention. It should be understood, however, that this application is not limited to the precise arrangements and instrumentalities shown.
1 is a view showing an example of a power generation system.
2 shows a schematic view of a liquefied natural gas regenerator according to a first embodiment of the present invention.
3 shows a vaporization process using steam in the liquefied natural gas regeneration apparatus according to the first embodiment of the present invention.
Fig. 4 shows a modification of the liquefied natural gas regeneration apparatus according to the first embodiment of the present invention.
5 is a view showing a liquefied natural gas regeneration apparatus according to a second embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It will be easy to know if you have the knowledge of.

In describing the embodiments of the present invention, it is to be noted that components having the same function are denoted by the same names and numerals, but are substantially not identical to those of the prior art.

Furthermore, the terms used in the embodiments of the present invention are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expressions include plural expressions unless the context clearly dictates otherwise.

Furthermore, in the embodiments of the present invention, terms such as "comprises" or "having ", etc. are intended to specify the presence of stated features, integers, steps, operations, elements, parts, or combinations thereof, Steps, operations, elements, components, or combinations of elements, numbers, steps, operations, components, parts, or combinations thereof.

2 shows a schematic view of a liquefied natural gas regenerator according to a first embodiment of the present invention. 2, the liquefied natural gas reclamation system according to the first embodiment of the present invention includes a steam turbine 100, a vaporizer 200, and a gas turbine 300.

The steam turbine 100 is driven by steam. The steam turbine 100 includes a series of turbines separated by a high pressure turbine section (not shown) and a low pressure turbine section (not shown), which can rotate a series of turbines using high temperature steam, To generate electricity in the first generator (600).

At this time, if seawater is used for condensing the steam so that the steam discharged from the steam turbine 100 can be reused, the marine life may be affected due to the increased temperature of the seawater.

The vapor discharged from the steam turbine 100 may be used for the vaporizer 200 so as to reduce the influence on the ocean.

That is, the vaporizer 200 may vaporize the fluid containing the first natural gas generated by vaporizing the liquefied natural gas stored in the storage tank 500 using the vapor discharged from the steam turbine 100.

As shown in FIG. 2, the steam discharged from the steam turbine 100 is heat exchanged with the fluid in the vaporizer 200 to vaporize the fluid, and the vapor used for vaporization can be condensed and discharged from the vaporizer 200 .

That is, since the steam is condensed through the vaporizer 200 without using seawater, the effect on the ocean can be reduced.

The gas turbine 300 may be driven by a mixed gas including a second natural gas discharged from the vaporizer 200 and a boil off gas discharged from the storage tank 500.

The evaporated gas is a gas that is stored in the storage tank 500 and is vaporized inside the storage tank 500 to be remained in the storage tank 500. The evaporated gas is stored in the storage tank 500, And can be used as fuel for the ship.

In addition, as shown in FIG. 2, the liquefied natural gas rejuvenator according to the first embodiment of the present invention may further include a first generator 600 and a second generator 610.

The first generator 600 may generate electricity by the steam turbine 100 and the second generator 610 may generate electricity by the gas turbine 300.

That is, the electricity generated by the first generator 600 and the second generator 610 can be used as driving electric power for various electric devices or electronic devices included in the ship.

The liquefied natural gas rejuvenator according to the first embodiment of the present invention can vaporize the fluid using the steam discharged from the steam turbine 100 and condense the steam. Therefore, it does not use seawater to condense steam, so it can reduce the impact on the ocean.

3 shows a vaporization process using steam in the liquefied natural gas regeneration apparatus according to the first embodiment of the present invention. The steam turbine 100, the gas turbine 300, the first generator 600, and the second generator 610 shown in FIG. 3 are the same as or substantially similar to those described above with reference to FIG. 2, .

3, the liquefied natural gas stored in the storage tank 500 may be pressurized and transferred to the suction drum 520 by using a first pump 510 to vaporize the liquefied natural gas. have.

The suction drum 520 may store the liquefied natural gas supplied from the first pump 510. At this time, the temperature of the liquefied natural gas is raised according to the pressurization of the first pump 510 to generate an evaporative gas. The suction drum 520 maintains the temperature of the liquefied natural gas to prevent evaporation of the liquefied natural gas .

The second pump 515 can pressurize the liquefied natural gas supplied from the stone drum 520 and supply it to the fluid generating unit 530.

The fluid generating unit 530 may generate the fluid using the seawater supplied from the second pump and supply the generated fluid to the vaporizer 200.

That is, the liquefied natural gas stored in the storage tank 500 is pressurized to a pressure used in the gas turbine 300 through the first pump 510 and the second pump 515, and then flows into the fluid generating section 530 , The fluid generating unit 530 can generate the fluid including the first natural gas by using seawater.

Accordingly, when the fluid generating unit 530 vaporizes the liquefied natural gas by using seawater, the vaporizer 200 can be vaporized into the second natural gas by using the vapor. Accordingly, the liquefied natural gas rejuvenation according to the embodiment of the present invention can reduce the influence on the ocean by using a small amount of seawater as compared with the method of vaporizing liquefied natural gas only with seawater.

Meanwhile, the evaporated gas generated in the storage tank 500 may also be boosted to the pressure used in the gas turbine 300 and supplied to the gas turbine 300.

The evaporated gas discharged from the storage tank 500 may be introduced into the compressor 550 through the first pipe 540. The compressor 550 is installed in the first pipe 540 to compress the evaporated gas and a mixed gas of the evaporated gas whose temperature and pressure are raised by the compressor 550 and the second natural gas discharged from the evaporator 200 And may flow through the second pipe 560.

Therefore, the mixed gas flowing through the second pipe 560 flows into the gas turbine 300 and can be used as the fuel of the gas turbine 300.

3, in the process of vaporizing liquefied natural gas, the fluid generating unit 530 converts seawater into liquefied natural gas, and the vaporizer 200 is connected to the steam turbine 100 To vaporize the fluid into the second natural gas.

Accordingly, the liquefied natural gas vaporizer according to the embodiment of the present invention can reduce the amount of seawater used to vaporize liquefied natural gas and reduce the influence on the oceans because seawater is not used to condense the vapor.

Fig. 4 shows a modification of the liquefied natural gas regeneration apparatus according to the first embodiment of the present invention.

4, the storage tank 500, the first pump 510, the suction drum 520, the second pump 515, and the second pump 515 included in the liquefied natural gas regeneration apparatus according to the first embodiment of the present invention, The fluid generator 530, the vaporizer 200, the compressor 550, the steam turbine 100, the first generator 600 and the second generator 610 are described with reference to FIGS. 2 and 3 They are the same or substantially similar to each other, so a detailed description thereof will be omitted.

The liquefied natural gas rejuvenation beacon according to the first embodiment of the present invention may further include a plurality of gas turbines 300, a plurality of steam heating units 410 and a deaerator 400.

4, the gas turbine 300 included in the liquefied natural gas regeneration apparatus according to the first embodiment of the present invention includes a combustion unit 310, a compression unit 320, and a turbine unit 330 can do.

The compression unit 320 may compress the outside air to generate compressed air.

The combustion unit 310 can generate the combustion gas through the compressed air supplied from the compression unit 320 and the mixed gas of the second natural gas and the evaporated gas.

The turbine section 330 can be rotated by the combustion gas generated in the combustion section 310. By driving the gas turbine 300, it is possible to generate electric power used in the ship in the first generator 600.

The liquefied natural gas rejuvenator according to the first embodiment of the present invention can heat the steam used in the steam turbine 100 by using the exhaust heat of the exhaust gas discharged from the gas turbine 300.

The vapor may be separated from the condensate discharged from the vaporizer (200). The condensed water can be generated by condensing the steam discharged from the steam turbine 100 after exchanging heat with the fluid in the vaporizer 200.

Thus, the condensed water generated by condensation of the vapor in the vaporizer 200 is supplied to the deaerator 400, and the deaerator 400 can separate and discharge the vapor from the condensed water.

The steam discharged from the deaerator 400 can be heated by the exhaust heat discharged from the gas turbine 300 inside the heating portion 410.

The steam heating portion 410 includes a high pressure heating portion 420 and a low pressure heating portion 430. The steam discharged from the high pressure heating portion 420 is supplied to a high pressure turbine portion (not shown) of the steam turbine 100 And the steam discharged from the low pressure heating section 430 may be supplied to a low pressure turbine section (not shown) of the steam turbine 100.

That is, the steam discharged from the steam turbine 100 is used for the vaporizer 200 to be converted into condensed water, and the steam separated from the condensed water can be heated by exhaust heat discharged from the gas turbine 300.

Since the steam heated by exhaust heat discharged from the gas turbine unit 300 is used as fuel for the steam turbine 100, the liquefied natural gas rejuvenator according to the first embodiment of the present invention can circulate the steam.

The exhaust heat discharged from the plurality of gas turbines 300 is supplied to the plurality of low pressure heating parts 430 through the plurality of high pressure heating parts 420 and may be discharged from the plurality of low pressure heating parts 430 .

The exhaust heat of the exhaust gas discharged from the gas turbine 300 can exchange heat with the steam flowing into the high pressure heating part 420 through the high pressure heating part 420 of the heating part 410.

Accordingly, high-pressure steam is generated in the high-pressure heating section 420, and the high-pressure steam can be supplied to the high-pressure turbine section (not shown) of the steam turbine 100.

The low pressure heating unit 430 can exchange heat with the steam supplied from the deaerator 400 using the exhaust gas that has passed through the high pressure heating unit 420.

In this case, since the temperature of the exhaust heat flowing into the low pressure heating unit 430 is lower than that of the exhaust heat flowing into the high pressure heating unit 420, the low pressure heating unit 430 generates low pressure steam, (Not shown).

The natural gas rejuvenator according to the first embodiment of the present invention may discharge the condensed water from the evaporator 200 after vaporizing the fluid using the steam discharged from the steam turbine 100.

The deaerator 400 separates the steam from the condensed water, and the steam can be heated and used as fuel for the steam turbine 100.

At this time, the steam can be heated by exhaust heat of the exhaust gas discharged from the gas turbine 300.

5 is a view showing a liquefied natural gas regeneration apparatus according to a second embodiment of the present invention.

4, the condensed water may be low in temperature as the steam discharged from the steam turbine 100 is condensed in the vaporizer 200 after heat exchange with the fluid containing the first natural gas.

Therefore, when the low-temperature condensed water is supplied to the deaerator 400, the efficiency of the deaerator 400 may deteriorate.

The liquefied natural gas rejuvenator according to the second embodiment of the present invention may use air used in the gas turbine 300 to increase the temperature of the condensed water.

As shown in FIG. 5, condensate and air can travel through condensate line 700 and air line 710.

The condensed water supplied from the evaporator 200 to the deaerator 400 can flow through the condensate line 700 and the air supplied to the gas turbine 300 can be moved through the air line 710.

At this time, heat exchanger 720 may be installed between condensate line 700 and air line 710 to exchange heat between condensate and air.

That is, since the temperature of the air flowing into the compression unit 320 of the gas turbine 300 from outside is higher than the temperature of the condensed water, when the condensed water and air are exchanged by the heat exchanger 720, the temperature of the condensed water rises, The temperature of the air can be lowered.

As the temperature of the condensed water rises, the efficiency of the deaerator 400 increases, so that the amount of steam separated from the deaerator 400 can be increased. Therefore, the amount of steam supplied to the steam turbine 100 increases, 1 generator 600 can be increased.

The liquefied natural gas rejuvenating cremation according to the first embodiment of the present invention can use steam circulation and can reduce the amount of seawater used for vaporizing liquefied natural gas and does not use seawater to condense steam, The effect can be reduced.

In addition, the liquefied natural gas rejuvenator according to the first embodiment of the present invention can heat the steam used as the fuel of the steam turbine 100 by using exhaust heat discharged from the gas turbine 300.

The liquefied natural gas rejuvenator according to the second embodiment of the present invention can improve the efficiency of the deaerator 400 since it can exchange heat between condensed water and air in addition to the effect of the first embodiment.

It will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the present invention as defined by the appended claims, It is obvious.

10: gas turbine 20: steam turbine
30: Storage tank 40:
50: Deaerator 60: Combined power generation system
100: steam turbine 200: vaporizer
300: gas turbine 310: combustion part
320: compression section 330: turbine section
400: deaerator 410: steam is heated
420: high pressure heating part 430: low pressure heating part
500: Storage tank 510: First pump
515: second pump 520: suction drum
530: fluid generating unit 540: first piping
550: compressor 560: second piping
600: first generator 610: second generator
700: Condensate line 710: Air line
720: heat exchanger

Claims (9)

Steam turbine driven by steam;
A fluid generator for generating a first natural gas by vaporizing at least a part of the liquefied natural gas supplied from the storage tank by using seawater and discharging a mixed liquid of the remaining unreacted liquefied natural gas and the first natural gas;
A vaporizer for vaporizing the remaining liquefied natural gas contained in the fluid using the steam discharged from the steam turbine, and mixing the natural gas with the first natural gas heated by the steam to discharge the second natural gas; And
An evaporation gas discharged from the storage tank and compressed by the compressor and having a temperature and a pressure increased and a second natural gas discharged from the vaporizer and having a temperature and a pressure increased by the evaporation gas, And a gas turbine driven by the mixed gas satisfying the condition

A deaerator for receiving the condensed water generated by condensing the steam in the vaporizer and separating and discharging steam from the condensed water; And
And a steam heating unit for heating the steam generated from the deaerator using the exhaust heat discharged from the gas turbine,

The steam heating unit includes a high-pressure heating unit and a low-pressure heating unit. Vapor discharged from the plurality of high-pressure heating units is supplied to a high-pressure turbine unit of the steam turbine, Pressure turbine section,

Wherein the exhaust heat discharged from the plurality of gas turbines passes through the plurality of high pressure heating sections and is supplied to the plurality of low pressure heating sections and discharged from the plurality of low pressure heating sections. The method according to claim 1,
A first generator generating electricity by the steam turbine; And
And a second generator for generating electricity by the gas turbine. The method according to claim 1,
A first pump for pressurizing and moving the liquefied natural gas stored in the storage tank;
A suction drum for storing the liquefied natural gas supplied from the first pump; And
And a second pump for pressurizing and moving the liquefied natural gas supplied from the suction drum. delete The method according to claim 1,
The gas turbine includes:
A compression unit for compressing outside air to generate compressed air;
A combustion unit for generating the combustion gas by supplying the compressed air and the mixed gas; And
And a turbine section rotated by the combustion gas. delete delete delete The method according to claim 1,
A condensate line through which the condensed water supplied from the vaporizer to the deaerator flows;
An air line through which air supplied to the gas turbine moves; And
And a heat exchanger installed between the condensed water line and the air line for exchanging heat between the condensed water and the air.

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