KR101616329B1 - Liquefied fuel gas gasification device - Google Patents

Abstract

The liquefied fuel gas vaporizer according to an embodiment of the present invention includes a steam turbine driven by steam, a condenser that condenses the steam whose temperature is lowered in the course of passing through the steam turbine by using heat exchange water, A vaporizer for vaporizing the gas, and a moving pipe connected to any one of the inlet and outlet of the vaporizer to mix the heat exchange water and the seawater.

Description

[0001] LIQUEFIED FUEL GAS GASIFICATION DEVICE [0002]

The present invention relates to a liquefied fuel gas vaporizer.

Generally, the vessel includes a gas turbine and a steam turbine, which uses vaporized fuel gas to produce power, and the steam turbine uses steam to produce additional power.

The liquefied fuel gas is smaller in volume than the vaporized fuel gas. For example, the volume of liquefied natural gas (LNG) is one sixth of that of vaporized fuel gas, and the volume of liquefied petroleum gas (LPG) is one-250th of vaporized fuel gas. Therefore, in order to improve the transportation efficiency of the vaporized fuel gas, it is subjected to a liquefaction process and then stored in a storage tank.

The liquefied fuel gas stored in the storage tank can be supplied as fuel to the gas turbine after undergoing the regeneration process.

The prior art discloses a condenser in which condensate is condensed through heat exchange between vapor discharged from a steam turbine and liquefied natural gas, and the liquefied natural gas is vaporized, and the condensed working fluid is also discharged from the gas turbine The steam was converted into steam and supplied to the steam turbine.

However, in the prior art, since the operation fluid is heated by using the arrangement of the gas turbine in a state where the step of separating the steam from the condensed working fluid in the condenser is not performed, the steam separated from the working fluid corresponds to the driving pressure of the steam turbine I can not.

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

The present invention is to propose a liquefied fuel gas vaporizer for vaporizing a liquefied fuel gas by using seawater used for condensing vapor discharged from a steam turbine.

The present invention is to propose a liquefied fuel gas vaporizer for increasing the temperature of seawater discharged from a vaporizer by using seawater used for condensing vapor discharged from a steam turbine.

The present invention is to propose a liquefied fuel gas vaporizer for vaporizing liquefied natural gas by mixing seawater for condensing the vapor discharged from the steam turbine and seawater discharged from the vaporizer.

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 condenser for condensing the steam whose temperature is lowered in the process of passing through the steam turbine using heat exchange water; And a moving pipe connected to any one of an inlet and an outlet of the vaporizer to mix the heat exchange water and the seawater through the heat exchange water.

The moving pipe is connected to the inlet portion to form a first mixed water in which the heat exchange water and the seawater are mixed, and the first mixed water can be used for vaporizing the liquefied fuel gas.

The moving pipe may form a second mixed water that is connected to the outlet and mixed with the heat exchange water and the seawater discharged from the outlet, and the second mixed water may flow out to the sea.

According to one aspect of the present invention, there is provided a liquefied fuel gas vaporizer including a first pump for pressurizing and moving liquefied fuel gas stored in a storage tank, a suction drum for storing liquefied fuel gas supplied from the first pump, And a second pump for pressurizing and moving the supplied liquefied fuel gas.

A liquefied fuel gas vaporization apparatus according to an aspect of the present invention includes a first pipe for providing a passage through which evaporated gas remaining in the storage tank moves to the outside, a compressor installed in the first pipe for compressing the evaporated gas, A second pipe through which a mixed gas of the evaporated gas with the temperature and pressure raised by the compressor and the vaporized fuel gas discharged from the vaporizer flows, and a gas turbine driven by the mixed gas.

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.

The liquefied fuel gas vaporization apparatus according to one aspect of the present invention includes a deaerator for receiving condensed water generated by condensing the steam from the condenser, separating and discharging the 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.

Also, the steam heating section includes a high-pressure heating section and a low-pressure heating section, the steam discharged from the plurality of high-pressure heating sections is supplied to the high-pressure turbine section of the steam turbine, and the steam discharged from the plurality of low- Pressure turbine section of the steam turbine.

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 can be discharged from the plurality of low-pressure heating sections.

The liquefied fuel gas vaporizing apparatus according to one aspect of the present invention is characterized in that it comprises a mixed water pipe for providing a flow path through which at least a part of the second mixed water moves to the inlet and a second water pipe And the liquefied fuel gas can be vaporized by using the seawater introduced into the second mixed water and the inflow portion.

The liquefied fuel gas vaporizing apparatus of the present invention reduces the influence of the heat exchanged water on the ocean by vaporizing the liquefied fuel gas by using the first mixed water formed by mixing the heat exchange water discharged from the condenser and the seawater introduced into the inlet, The vaporization efficiency can be improved.

The liquefied fuel gas vaporizer of the present invention mixes the heat exchange water discharged from the condenser and the sea water discharged from the vaporizer and then forms a second mixed water to be discharged to the sea so as to reduce the effect of sea water discharged from the vaporizer on the ocean have.

The liquefied fuel gas vaporizer of the present invention can introduce at least a part of the second mixed water into the vaporizer to vaporize the liquefied fuel gas.

The liquefied fuel gas vaporizer of the present invention can heat the steam separated from the deaerator by the exhaust heat discharged from the gas turbine and supply the vapor to the steam 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 conceptual diagram of a liquefied fuel gas vaporizer according to a first embodiment of the present invention.
2 shows a vaporization process of the liquefied fuel gas vaporization apparatus according to the first embodiment of the present invention.
3 shows a liquefied fuel gas vaporizer according to a first embodiment of the present invention.
4 shows a liquefied fuel gas vaporizer according to a second embodiment of the present invention.
5 shows an example of the second mixed water circulation use of the liquefied fuel gas vaporizer according to the 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.

1 is a conceptual diagram of a liquefied fuel gas vaporizer according to a first embodiment of the present invention. 1, the liquefied fuel gas vaporizer according to the first embodiment of the present invention includes a steam turbine 100, a condenser 200, a vaporizer 300, and a moving pipe 400.

The steam turbine 100 may be 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), and the steam turbine 100 is capable of rotating a series of turbines have. The first generator 820 can generate electricity through the rotation of the turbine.

At this time, a condenser 200 for condensing the steam so that the steam discharged from the steam turbine 100 can be reused can be used. The condenser 200 can condense the steam which is cooled down in the process of passing through the steam turbine 100 using the heat exchange water.

The heat exchange water that has been heat-exchanged with the steam may have a temperature rise due to the high temperature of the steam and may affect marine life when discharged into the sea.

The liquefied fuel gas vaporizing apparatus according to the first embodiment of the present invention may use the heat exchanged water whose temperature has been raised in the vaporizer 300 so as to reduce the influence of the heat exchange water discharged from the condenser 200 on the ocean.

The vaporizer 300 can vaporize the liquefied fuel gas using seawater.

The moving pipe 400 is connected to any one of the inlet 310 and the outlet 320 of the vaporizer 300 to mix heat exchange water and seawater.

The structure in which the moving tube 400 is connected to the inlet 310 will be described with reference to FIG. 1 and the structure in which the moving tube 400 is connected to the outlet 320 will be described with reference to FIGS.

1, the moving pipe 400 is connected to the inlet 310 to form a first mixed water mixed with heat exchange water and seawater, and the first mixed water can be used to vaporize the liquefied fuel gas have.

The vaporizer 300 can vaporize and discharge the liquefied fuel gas flowing into the vaporizer 300 using the first mixed water. At this time, the first mixed water used for vaporizing the liquefied fuel gas may be discharged to the sea through the outlet 320 of the vaporizer 300.

The liquefied fuel gas vaporization apparatus according to the first embodiment of the present invention is a system for condensing vapor discharged from a steam turbine 100 to mix the heat exchanged water whose temperature has been raised with seawater and then using it to vaporize the liquefied fuel gas, The vaporization efficiency can be increased as compared with the vaporizer for vaporizing the liquefied fuel gas.

Further, the heat exchange water is not discharged to the sea, but is introduced into the vaporizer 300 to vaporize the liquefied fuel gas, thereby lowering the temperature of the heat exchange water. Therefore, the effect of heat exchange water on the ocean can be reduced.

The vaporization process of vaporizing the liquefied fuel gas using the heat exchange water that the vaporizer 300 flows into the inlet 310 of the vaporizer 300 through the moving pipe 400 will be described with reference to FIG.

As shown in FIG. 2, the liquefied fuel gas stored in the storage tank 500 can be pressurized and transferred to the suction drum 520 by using the first pump 510.

At this time, the temperature of the liquefied fuel gas is increased due to the pressurization of the first pump 510, and a boil-off gas may be generated. The suction drum 520 can store the liquefied fuel gas supplied from the first pump 510 and can maintain the temperature of the liquefied fuel gas to prevent the liquefied fuel gas from being evaporated.

The second pump 515 can pressurize the liquefied fuel gas supplied from the silt drum 520 and move it to the vaporizer 300.

The liquefied fuel gas transferred from the suction drum 520 may flow from one side of the vaporizer 300 to the other side.

1, the vaporizer 300 can vaporize the liquefied fuel gas by using the first mixed water of the moving pipe 400. In this case, The vaporized fuel gas discharged from the vaporizer 300 may be mixed with the evaporated gas generated inside the storage tank 500 and supplied to the fuel of the gas turbine 600.

2, the evaporated gas may be supplied to the gas turbine 600 by mixing with the vaporized fuel gas through the first pipe 530, the compressor 540, and the second pipe 550.

The first pipe 530 provides a passage through which the evaporated gas remaining in the storage tank 500 moves to the outside and the compressor 540 is installed in the first pipe 530 to compress the evaporated gas .

The second pipe 550 can flow a mixed gas of the evaporated gas whose temperature and pressure are raised by the compressor 540 and the vaporized fuel gas discharged from the vaporizer 300.

Accordingly, the gas turbine 600 can be driven by a mixture gas of the vaporized fuel gas and the vaporized gas.

3 shows a liquefied fuel gas vaporizer according to a first embodiment of the present invention. The process of generating the mixed gas to be supplied to the gas turbine 600 is the same as or substantially similar to that described with reference to FIG. 2, and thus a detailed description thereof will be omitted.

The liquefied fuel gas vaporizer according to the first embodiment of the present invention may further include a gas turbine 600 using the mixed gas as fuel.

3, the gas turbine 600 may include a compression section 610, a combustion section 620, and a turbine section 630.

The compression unit 610 can compress the outside air to generate compressed air, and the combustion unit 620 can generate the combustion gas by supplying the compressed air and the mixed gas. Further, the turbine section 630 can be rotated by the combustion gas.

Meanwhile, the second generator 830 can generate electricity through the rotation of the turbine unit 630. Electricity generated by the second generator 830 and the first generator 820 may be used as driving electric power for various electric devices and electronic devices included in the ship.

The liquefied fuel gas vaporizer according to the first embodiment of the present invention may further include the deaerator 700 and the steam generator 750.

The deaerator 700 is supplied with condensed water generated by condensing the steam from the condenser 200, and can separate and discharge the steam from the condensed water.

The steam generating unit 750 can heat the steam generated from the deaerator 700 using exhaust heat discharged from the gas turbine 600. That is, the steam separated from the deaerator 700 can be used as the fuel of the steam turbine 100 after undergoing the pressure increasing process and the temperature increasing process.

The liquefied fuel gas vaporizer according to the first embodiment of the present invention can heat the vapor using exhaust heat of the exhaust gas discharged from the gas turbine 600.

The steam heating portion 750 includes a high pressure heating portion 760 and a low pressure heating portion 770 and the steam discharged from the high pressure heating portion 760 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 770 may be supplied to a low pressure turbine section (not shown) of the steam turbine 100.

The exhaust heat discharged from the gas turbine 600 passes through the high pressure heating portion 760 and is supplied to the low pressure heating portion 770 and can be discharged from the low pressure heating portion 770.

That is, the high-pressure heating unit 760 of the steam heating unit 750 can heat the steam flowing into the high-pressure heating unit 760 by using the exhaust heat of the exhaust gas discharged from the gas turbine 600. At this time, the high-pressure steam generated in the high-pressure heating unit 760 may be supplied to the high-pressure turbine unit (not shown) of the steam turbine 100.

The exhaust gas having passed through the high-pressure heating section 760 can be supplied to the low-pressure heating section 770. The exhaust heat of the exhaust gas supplied to the low-pressure heating unit 770 can be lowered by exchanging heat with steam in the high-pressure heating unit 760.

Accordingly, the low-pressure heating unit 770 can generate the low-pressure steam by heating the steam flowing into the low-pressure heating unit 770 using the exhaust heat of the exhaust gas whose temperature has been lowered.

The low-pressure steam generated in the low-pressure heating section 770 can be supplied to a low-pressure turbine section (not shown) of the steam turbine 100.

The liquefied fuel gas vaporizing apparatus according to the first embodiment of the present invention is a device for vaporizing the liquefied fuel gas by using heat exchange water whose temperature is raised after condensing the vapor discharged from the steam turbine 100, The vaporization efficiency can be increased. In addition, it is possible to reduce the influence of the heat-exchanged water whose temperature is increased on marine life.

The liquefied fuel gas vaporizer according to the first embodiment of the present invention can recover exhaust heat discharged from the gas turbine 600 and use it to heat the steam supplied to the steam turbine 100.

As described above, the moving pipe 400 can be connected to the outlet 320. As shown in FIG. 4, the moving pipe 400 forms a second mixed water that is connected to the outlet 320 and mixed with the heat exchange water and the sea water discharged from the outlet 320, and the second mixed water It can be leaked to the sea.

When the vaporizer 300 vaporizes the liquefied fuel gas using seawater, the seawater used for vaporization is lowered by the liquefied fuel gas. Therefore, marine life can be affected by seawater discharged from the vaporizer 300.

Therefore, when the moving pipe 400 is connected to the outlet 320, the high-temperature heat exchange water and the low-temperature sea water are mixed with each other to reduce the influence on the ocean when they are discharged to the sea.

On the other hand, the second mixed water can be used for vaporizing the reformed fuel gas.

As shown in FIG. 5, the mixed water pipe 800 may provide a flow path through which at least a portion of the second mixed water moves to the inlet 310.

In addition, a pump 810 may be installed in the mixed water pipe 800 to move the second mixed water to the vaporizer 300.

 The vaporizer 300 may vaporize the liquefied fuel gas using the second mixed water and seawater flowing into the inlet 310.

The liquefied fuel gas vaporizer according to the second embodiment of the present invention can circulate the second mixed water by vaporizing the liquefied fuel gas by mixing the second mixed water and the seawater and can improve the efficiency of the vaporizer 300 have.

In the drawings referred to above, the liquefied fuel gas vaporizer according to the embodiment of the present invention uses the heat exchange water discharged from the condenser 200 in the vaporizer 300 to reduce the influence of the heat exchange water on the ocean, ), And reduce the influence of seawater used for vaporization on the ocean upon discharge from the vaporizer 300. [

In addition, after condensing the steam discharged from the steam turbine 100, the steam is separated through the deaerator 700, the steam is heated using exhaust heat discharged from the gas turbine 600, As a fuel of the present invention.

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.

100: Steam turbine 200: Condenser
300: vaporizer 310: inlet
320: outlet portion 400: moving pipe
500: Storage tank 510: First pump
515: second pump 520: suction drum
530: First Pipe 540: Compressor
550: Second piping 600: Gas turbine
610: compression section 620: combustion section
630: Turbine part 700: Deaerator
750: steam heating portion 760: high pressure heating portion
770: Low pressure heating unit 800: Mixed water piping
810: Pump 820: First generator
830: Second generator

Claims (10)

Steam turbine driven by steam;
A condenser for condensing the steam whose temperature is lowered in the process of passing through the steam turbine using heat exchange water;
A vaporizer for vaporizing the liquefied fuel gas using seawater; And
And a moving pipe connected to the outflow portion of the vaporizer to form a second mixed water in which the heat exchange water and the seawater discharged from the outflow portion are mixed and the second mixed water flows out to the sea, Device. delete delete The method according to claim 1,
A first pump for pressurizing and moving the liquefied fuel gas stored in the storage tank;
A suction drum for storing the liquefied fuel gas supplied from the first pump; And
And a second pump for pressurizing and moving the liquefied fuel gas supplied from the stone drums. The method according to claim 1,
A first pipe for providing a passage through which evaporated gas remaining in the storage tank storing the liquefied fuel gas moves to the outside;
A compressor installed in the first pipe for compressing the evaporated gas;
A second pipe through which a mixed gas of the evaporated gas whose temperature and pressure is raised by the compressor and the vaporized fuel gas discharged from the vaporizer flows; And
And a gas turbine driven by the mixed gas. 6. The method of claim 5,
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. 6. The method of claim 5,
A deaerator for receiving condensed water generated by condensing the steam from the condenser and for separating and discharging steam from the condensed water; And
And a steam heating unit for heating the steam generated from the deaerator using exhaust heat discharged from the gas turbine. In the seventh aspect,
The steam heating unit includes a high-pressure heating unit and a low-pressure heating unit,
The steam discharged from the plurality of high-pressure heating sections is supplied to the high-pressure turbine section of the steam turbine,
And the steam discharged from the plurality of low-pressure heating sections is supplied to the low-pressure turbine section of the steam turbine. 9. The method of claim 8,
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 is discharged from the plurality of low pressure heating sections. The method according to claim 1,
A mixed water pipe for providing a flow path through which at least a part of the second mixed water moves to an inlet of the vaporizer; And
And a pump installed in the mixed water pipe to move the second mixed water,
Wherein the liquefied fuel gas is vaporized by using the seawater introduced into the inlet of the vaporizer and the second mixed water.

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