KR20180057940A - Heat source supply device and method for steam generation - Google Patents

Abstract

According to an embodiment of the present invention, an apparatus for supplying a heat source to a steam generator comprises: a vaporization unit for vaporizing the liquefied gas liquefied by a condenser; a gas turbine for receiving the vaporized gas as a fuel from the vaporization unit; a steam generator for generating the steam having the exhaust heat of the gas turbine as a heat source; a steam turbine operated by the stem generated in the steam generator; a boiler unit for heating a heat medium exchanging the heat with the liquefied gas by receiving the vaporized gas from the vaporization unit as a fuel to be operated, and for supplying the exhaust heat to the heat source of the steam generator; and a first heat exchanger for heating the heat medium introduced to the boiler unit by using the stem discharged from the steam turbine.

Description

TECHNICAL FIELD [0001] The present invention relates to a steam generator,

The present invention relates to a steam generator heat source supply device and a method of supplying a heat source. More particularly, the present invention relates to a steam generator for supplying steam from a gas turbine to a steam generator A heat source supplying device and a heat source supplying method.

Generally, power generation in the land is limited due to the fact that the gas storage or the gas infrastructure must be provided.

In addition, there is a problem that the thermal power generation installed on the land requires a large initial installation cost because of the large volume, and installation work is difficult, for example, it must be installed in a separate building depending on the facility and the system.

In order to solve these problems, a power generation technique in a floating floating platform such as a floating production storage and offloading unit (FPSO) or a floating storage and re-gasification unit (FSRU) has been proposed.

Such a floating floating platform can store fuel such as liquefied natural gas, and can generate electricity by itself using gas turbines, steam turbines, and the like.

At this time, the steam used in the steam turbine is generated in the steam generating portion, and the steam generating portion generates steam by using the waste heat discharged from the gas turbine as a heat source.

Therefore, when the gas turbine fails or the waste heat supply from the gas turbine is not smooth, the steam generator stops operating or the amount of steam produced is small so that the steam turbine does not operate smoothly.

In this way, even if the waste heat supply of the gas turbine is not smooth, a separate heat source other than the gas turbine may be required to be supplied to the steam generator so that the steam turbine can generate electric power smoothly.

Korea Patent Publication: No. 10-2012-0071043 (Published on July 2, 2012)

The present invention provides a steam generator heat source supply device and a heat source supply method for smoothly producing steam by supplying a separate heat source to the steam generator in addition to the waste heat of the gas 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 gas turbine engine including a vaporizer for vaporizing a liquefied gas liquefied by a condenser, a gas turbine supplied with vaporized gas as fuel from the vaporizer, a steam generator for generating steam by heat- A boiler unit for heating the heating medium, which is driven by the vaporized gas supplied from the vaporizing unit as fuel and is heat-exchanged with the liquefied gas, for supplying exhaust heat to the heat source of the steam generator; And a first heat exchanger for heating the heat medium flowing into the boiler section using steam discharged from the steam turbine.

The vaporizer of the steam generator heat source supply device according to an aspect of the present invention may include a vaporizer for primarily vaporizing the liquefied gas and the boiler section may include a second boiler for heating the heating medium flowing into the vaporizer have.

The vaporizer of the steam generator heat source supply device according to an aspect of the present invention includes a heater for generating the vaporized gas by secondary vaporizing the liquefied gas primarily vaporized by the vaporizer, And a first boiler for heating the heat medium introduced into the heat exchanger.

The steam generator heat source supply device according to one aspect of the present invention includes a first circulation line for connecting the vaporizing portion and the boiler portion and for moving the heating medium and a second circulation line for branching from the first circulation line and passing through the first heat exchanger Line. ≪ / RTI >

The method for supplying a steam generator heat source using the steam generator heat source supply device according to an aspect of the present invention includes a boiler fuel supply step of supplying the boiler part with fuel by vaporizing the liquefied gas in the vaporizing part, A heating medium heating step of heating the steam generator, and an exhaust heat supplying step of supplying exhaust heat of the boiler part to the heat source of the steam generator.

Further, the boiler fuel supply step of the steam generator heat source supply device according to an aspect of the present invention includes a primary charging step in which the liquefied gas is primarily vaporized by the vaporizer included in the vaporizing part, The liquefied gas may be secondarily vaporized by a heater included in the vaporizing unit to generate the vaporized gas.

The heating medium heating step may further include an auxiliary heating step in which the heating medium is heated by the first heat exchanger.

According to another aspect of the present invention, there is provided a steam generator for a steam generator, comprising: a vaporizer for vaporizing a liquefied gas liquefied by a condenser; a gas turbine for supplying vaporized gas as a heat source from the vaporizer; A steam generator driven by steam generated from the steam generator, a boiler for heating the heat medium to be heat-exchanged with the liquefied gas in the vaporizer, supplying exhaust heat to the heat source of the steam generator, A first heat exchanger for heating the heating medium flowing into the boiler section, and a second heat exchanger for heating the evaporation gas generated in the storage tank using the exhaust heat of the boiler section and the steam generator to supply fuel to the boiler section A steam generator heat source supply device is provided.

According to another aspect of the present invention, there is provided a method of supplying a steam generator heat source using a steam generator heat source supply device, comprising the steps of: supplying boiler fuel to the boiler section by heating the evaporation gas in the second heat exchanger; A heating medium heating step in which the heating medium is heated, and an exhaust heat supplying step in which exhaust heat of the boiler part is supplied to a heat source of the steam generator.

The method may further include a fuel heating step of supplying exhaust heat of the boiler part and the steam generator to a heat source of the second heat exchanger.

The steam generator heat source supplying device and the heat source supplying method according to the embodiment of the present invention have the following effects.

First, by using the exhaust heat discharged from the boiler portion used for heating the heating medium as a heat source of the steam generator, the steam turbine can be smoothly operated to produce electric power.

Second, by using the evaporation gas generated from the storage tank as the fuel of the boiler portion, the evaporation gas can be effectively treated.

The effects of the embodiments 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 description of the claims.

1 and 2 are views showing the flow of exhaust heat of the steam generator heat source supply apparatus according to the first embodiment of the present invention.
3 and 4 are views showing a flow of heat medium in the steam generator heat source supply apparatus according to the first embodiment of the present invention.
5 is a flowchart illustrating a method of supplying a heat source to a steam generator according to a first embodiment of the present invention.
6 and 7 are views showing the flow of exhaust heat of the steam generator heat source supply apparatus according to the second embodiment of the present invention.
8 and 9 are views showing a flow of heat medium in the steam generator heat source supply device according to the second embodiment of the present invention. And,
10 is a flowchart showing a method of supplying a heat source of a steam generator 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, however, that the appended drawings illustrate the present invention in order to more easily explain the present invention, and the scope of the present invention is not limited thereto. You will know.

1 and 2 show the case where the exhaust heat discharged from the boiler unit 100 is discharged to the outside and the case where the exhaust heat discharged from the boiler unit 100 is supplied to the steam generator 300. FIGS. 3 and 4 show the case where the heat medium is circulated through the first circulation line L1, And the second circulation line L2, respectively.

1 and 2, the steam generator heat source supply device of the present invention includes a gasification unit 200, a gas turbine 400, a steam generator 300, a steam turbine 310, a boiler unit 100, And a heat exchanger (320).

The vaporizing section 200 can vaporize the liquefied gas liquefied by the condenser 60.

At this time, the liquefied gas condensed by the condenser 60 condenses the liquefied gas and the evaporated gas supplied from the storage tank 50 by the condenser 60.

The liquefied gas stored in the storage tank 50 may be liquefied natural gas (LNG) or liquefied petroleum gas (LPG) and may be liquefied and stored to reduce the volume.

The boil off gas (BOG) contained in the storage tank 50 is formed by vaporizing the liquefied gas and supplied to the condenser 60 together with the liquefied gas to be re-liquefied, thereby being used as fuel.

Meanwhile, the vaporizing unit 200 generates a vaporized gas by heat-exchanging the heating medium and the liquefied gas liquefied by the condenser 60. The vaporizer 200 may include a vaporizer 210 and a heater 220.

The vaporizer 210 may primarily vaporize the liquefied gas and the heater 220 may vaporize the liquefied gas primarily vaporized by the vaporizer 210 to generate vaporized gas.

In the present invention, the liquefied gas is heated stepwise by using the vaporizer 210 and the heater 220, and it is possible to use a heating medium at a lower temperature compared to the case of vaporizing using either the vaporizer 210 or the heater 220 It is because.

When the vaporized gas is generated in the vaporizing unit 200, the gas turbine 400 can be supplied with the vaporized gas as fuel from the vaporizing unit 200.

The gas turbine (400) is driven by the fuel to generate electric power and exhaust heat. The exhaust heat discharged from the gas turbine 400 may be supplied to the steam generator 300 and used as a heat source of the steam generator 300.

The steam generator 300 may generate steam by using the exhaust heat of the gas turbine 400 as a heat source and the steam turbine 310 may be driven by steam generated from the steam generator 300 to produce electric power.

1, the gas turbine 400 is driven using the liquefied gas and the evaporation gas stored in the storage tank 50 as fuel, and the exhaust heat discharged from the gas turbine 400 is used as a heat source, Steam is generated in the steam turbine 300, and thus the steam turbine 310 is driven to produce electric power.

The boiler unit 100 can supply the exhaust heat to the heat source of the steam generator 300 by heating the heat medium that is driven by the vaporized gas from the vaporization unit 200 and is driven and heat-exchanged with the liquefied gas.

The boiler unit 100 may include a first boiler 110 and a second boiler 120. The first boiler 110 may be installed at a front end of the heater 220 and may be connected to the heater 220 The heating medium can be heated.

The second boiler 120 may be disposed between the heater 220 and the carburetor 210 to heat the heating medium flowing into the carburetor 210.

In the present invention, the heating medium is circulated and used, and can move along the first circulation line (L1) and the second circulation line (L2). The specific flow of the heating medium will be described with reference to Figs. 3 and 4. Fig.

The first circulation line (L1) connects the vaporizing unit (200) and the boiler unit (100), and the heating medium can move. That is, the first circulation line L1 may connect the first boiler 110, the heater 220, the second boiler 120, and the vaporizer 210.

The heating medium may be introduced into the first boiler 110 along the first circulation line L1 by the circulation pump 130 after being exchanged with the liquefied gas flowing into the vaporizer 210 and exchanged with the liquefied gas.

The heating medium heated by the first boiler 110 flows into the heater 220 and is heat-exchanged with the liquefied gas that is primarily vaporized and then discharged from the heater 220 to be introduced into the second boiler 120.

Accordingly, the heating medium having passed through the heater 220 and having a lowered temperature may be heated by the second boiler 120, and then the temperature may be raised again and then introduced into the vaporizer 210.

4, the heating medium may move along the second circulation line L2, which branches from the first circulation line L1 and passes through the first heat exchanger 320. As shown in FIG.

The first heat exchanger 320 can heat the heating medium flowing into the boiler unit 100 using the steam discharged from the steam turbine 310.

That is, the heating medium discharged from the carburetor 210 is heat-exchanged with the steam in the first heat exchanger 320 via the first heat exchanger 320 before being introduced into the first boiler 110, so that the temperature can be raised.

The heating medium moves along the first circulation line L1 or the second circulation line L2 and is heated and the temperature can be adjusted according to the amount and temperature of the liquefied fuel flowing into the vaporization unit 200. [

Meanwhile, the first boiler 110 and the second boiler 120 can heat the heating medium and discharge exhaust heat. Such exhaust heat may be supplied to the heat source of the steam generator 300 and used for generating steam.

That is, the steam generator 300 can receive exhaust heat from the boiler unit 100 even if the exhaust heat is not smoothly supplied from the gas turbine 400, and thus the steam can be smoothly produced. In addition, as the steam production progresses smoothly, the steam turbine 310 can smoothly produce electric power.

5 is a flowchart of a method of supplying a heat source to a steam generator according to a first embodiment of the present invention. The method for supplying the steam generator heat source according to the first embodiment of the present invention includes a boiler fuel supply step (S100), a heating medium heating step (S200), and an exhaust heat supply step (S300).

In addition, the boiler fuel supply step S100 may include a first stage (S110) and a second stage (120).

The boiler fuel supply step S100 is a step of vaporizing the liquefied gas in the vaporizing part 200 and supplying it as fuel to the boiler part 100. [

The first stage (S110) is a stage where the liquefied gas is primarily vaporized by the vaporizer (210).

In the second stage (S120), the liquefied gas primaryized by the vaporizer 210 is secondarily vaporized by the heater 220 to generate vaporized gas.

Thus, the secondary gasified vaporized gas can be supplied as fuel to the boiler section 100 and the gas turbine 400.

The heat medium before the fuel is supplied to the boiler part 100 is not heated by the boiler part 100 and the heat medium supplied to the vaporizer part 200 can be heat-exchanged with the liquefied gas by its own temperature.

When the liquefied gas is vaporized by the heating medium, the boiler unit 100 may be supplied as fuel to the boiler unit 100 to operate the boiler unit 100. In the heating medium heating step S200, the heating medium may be heated by the boiler section 100 after the boiler section 100 is operated.

On the other hand, the heating medium heating step (S200) may further include an auxiliary heating step (S210). In the auxiliary heating step (S210), the heating medium is heated by the first heat exchanger (320). That is, the heating medium may be heated by the boiler unit 100 and the first heat exchanger 320.

When the boiler section 100 is operated, not only the heat medium is heated but also exhaust heat can be discharged from the boiler section 100. Accordingly, in the exhaust heat supply step S300, exhaust heat of the boiler unit 100 can be supplied to the heat source of the steam generator 300. [

The exhaust heat of the boiler unit 100 is supplied to the steam generator 300 so that the steam generator 300 is smoothly driven even though the exhaust heat is not smoothly supplied from the gas turbine 400, have.

6 to 9 show a steam generator heat source supply apparatus according to a second embodiment of the present invention.

9 and 7 illustrate the case where the exhaust heat discharged from the boiler unit 100 is supplied only to the second heat exchanger 500 and the case where the exhaust heat is supplied to the second heat exchanger 500 and the steam generator 300 And Figs. 8 and 9 show the case where the heating medium moves along the first circulation line L1 and the second circulation line L2, respectively.

The steam generator heat source supplying apparatus according to the second embodiment of the present invention includes a steam generator 200, a gas turbine 400, a steam generator 300, a steam turbine 310, a boiler 100, a first heat exchanger 320) and a second heat exchanger (500).

The gas turbine 400, the steam generator 300, the steam turbine 310, and the first heat exchanger 320 included in the steam generator heat source supply device according to the second embodiment of the present invention The steam generator 200, the gas turbine 400, the steam generator 300, the steam turbine 310, and the steam generator 310 described in the first embodiment of the present invention described with reference to FIGS. 1 to 4 1 heat exchanger 320, detailed description thereof will be omitted.

The boiler part 100 of the steam generator heat source supply device according to the second embodiment of the present invention can receive fuel from the second heat exchanger 500. [

That is, the boiler unit 100 heats the heating medium which is heat-exchanged with the liquefied gas in the vaporizing unit 200, and can supply the exhaust heat to the heat source of the steam generator 300.

The second heat exchanger 500 can heat the evaporation gas generated in the storage tank 50 using the heat of exhaust from the boiler unit 100 and the steam generator 300 to supply the heated fuel to the boiler unit 100.

As described above, in the storage tank 50, in addition to liquefied gas, evaporative gas is accommodated. Therefore, the evaporation gas can be efficiently treated by heating the evaporation gas using the exhaust heat of the boiler unit 100 and the steam generator 300 as a fuel of the boiler unit 100.

In addition, when the exhaust heat supply of the gas turbine 400 is not smooth, the steam generator 300 may be smoothly driven by supplying exhaust heat to the steam generator 300 from the boiler 100.

8 shows a method of supplying a heat source of a steam generator according to a second embodiment of the present invention. The method of supplying the heat source of the steam generator according to the second embodiment of the present invention includes the step of heating the heating material (S400 ') including the boiler fuel supply step (S100'), the heating medium heating step (S200 ') and the exhaust heat supply step (S300' .

The boiler fuel supply step (S100 ') is a step of heating the evaporated gas in the second heat exchanger (500) and supplying it as fuel to the boiler part (100).

And may further include a fuel heating step (S400 ') for heating the fuel supplied to the boiler section (100).

The fuel heating step S400 'is a step of supplying exhaust heat of the boiler part 100 and the steam generator 300 to the heat source of the second heat exchanger 500. [

The second heat exchanger 500 uses exhaust heat of the steam generator 300 as a heat source before the fuel is supplied to the boiler unit 100. When the boiler unit 100 is operated, the boiler unit 100 and the steam generator 300 ) Is used as a heat source.

Next, the heating medium heating step (S200 ') is a step of heating the heating medium by the boiler unit (100).

As described above, in the present invention, the heating medium can move along the first circulation line L1 and the second circulation line L2.

In the method of supplying the heat source of the steam generator according to the second embodiment of the present invention, in order to increase the load of the boiler unit 100 and to process a larger amount of evaporative gas, the heating medium is supplied to the first circulation line L1 As shown in Fig.

That is, since the heating medium is heated by the boiler unit 100 in a state where the heating medium is not heated by the first heat exchanger 320, the boiler unit 100 needs more fuel to raise the temperature of the heating medium.

Subsequently, the exhaust heat supply step S300 'is a step in which the exhaust heat of the boiler unit 100 is supplied to the heat source of the steam generator 300.

As described above, according to the first embodiment and the second embodiment of the present invention, the steam generator heat source supply device and the heat source supply method can use the exhaust heat discharged from the boiler section 100 as a heat source of the steam generator 300, The steam generator 300 can smoothly generate steam and the steam turbine 310 can smoothly generate electric power.

It will be apparent to those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. . Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

50: Storage tank 60: Condenser
100: boiler part 110: first boiler
120: second boiler 130: circulation pump
200: vaporizer 210: vaporizer
220: heater 300: steam generator
310: steam turbine 320: first heat exchanger
400: gas turbine 500: second heat exchanger
L1: first circulation line L2: second circulation line
S100, S100 ': Boiler fuel supply step
S110: Initialization step S120: Secondaryization step
S200, S200 ': heating medium heating step
S210: First heating medium heating step S220: Second heating medium heating step
S300, S300 ': exhaust heat supply step
S400 ': fuel heating step

Claims (10)

A vaporizer for vaporizing the liquefied gas liquefied by the condenser;
A gas turbine supplied with vaporized gas as fuel from the vaporizing section;
A steam generator for generating steam by using the heat of exhaust of the gas turbine as a heat source;
A steam turbine driven by the steam generated by the steam generator;
A boiler unit which is supplied with the vaporized gas as fuel from the vaporizing unit and heats a heating medium that is driven and heat-exchanged with the liquefied gas, and supplies exhaust heat to the heat source of the steam generator; And
And a first heat exchanger for heating the heat medium flowing into the boiler section using steam discharged from the steam turbine. The method according to claim 1,
Wherein the vaporizing section includes a vaporizer for primarily vaporizing the liquefied gas,
Wherein the boiler portion includes a second boiler for heating the heating medium flowing into the vaporizer. 3. The method of claim 2,
Wherein the vaporizer includes a heater for generating the vaporized gas by secondarily vaporizing the liquefied gas primarily vaporized by the vaporizer,
Wherein the boiler portion includes a first boiler for heating the heating medium flowing into the heater. The method according to claim 1,
A first circulation line connecting the vaporizing unit and the boiler unit and moving the heating medium; And
And a second circulation line branched from the first circulation line and passing through the first heat exchanger. A method of supplying a steam generator heat source using the steam generator heat source supply device according to claim 1,
A boiler fuel supply step of vaporizing the liquefied gas in the vaporizing section and supplying the vaporized fuel to the boiler section;
A heating medium heating step in which the heating medium is heated by the boiler part; And
And an exhaust heat supply step of supplying exhaust heat of the boiler part to a heat source of the steam generator. 6. The method of claim 5,
Wherein the boiler fuel supply step includes:
A primary charging step in which the liquefied gas is primarily vaporized by a vaporizer included in the vaporizing unit; And
And a secondary-charging step of supplying the vaporized gas to the evaporator, wherein the liquefied gas primaryized by the vaporizer is secondarily vaporized by a heater included in the vaporizer to generate the vaporized gas. 6. The method of claim 5,
In the heating medium heating step,
Further comprising an auxiliary heating step of heating the heating medium by the first heat exchanger. A vaporizer for vaporizing the liquefied gas liquefied by the condenser;
A gas turbine supplied with the vaporized gas as a heating material from the vaporizing section;
A steam generator for generating steam by using the heat of exhaust of the gas turbine as a heat source;
A steam turbine driven by the steam generated by the steam generator;
A boiler unit for heating the heating medium to be heat-exchanged with the liquefied gas in the vaporizing unit and supplying exhaust heat to the heat source of the steam generator;
A first heat exchanger for heating the heat medium introduced into the boiler section using steam discharged from the steam turbine; And
And a second heat exchanger for heating the evaporation gas generated in the storage tank using the exhaust heat of the boiler portion and the steam generator to supply the evaporated gas to the fuel of the boiler portion. A method of supplying a steam generator heat source using the steam generator heat source supply apparatus according to claim 8,
A boiler fuel supply step of heating the evaporation gas in the second heat exchanger to supply the boiler fuel as fuel;
A heating medium heating step in which the heating medium is heated by the boiler part; And
And an exhaust heat supply step of supplying exhaust heat of the boiler part to a heat source of the steam generator. 10. The method of claim 9,
And a fuel heating step of supplying exhaust heat of the boiler part and the steam generator to a heat source of the second heat exchanger.

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