KR20150061229A - Floating and storage gas power plant, and high power apparatus of the power plant - Google Patents

Abstract

The present invention relates to a floating and storing type gas power plant and an output augmentation apparatus thereof. According to the present invention, a marine floating structure is equipped with a liquefied gas fuel tank to produce electric power by using liquefied gas. After fuel is vaporized by using glycol water in a vaporizer, glycol water is heat exchanged with atmospheric air flowing into a cooling unit to supply air with high density to a gas turbine, thereby increasing efficiency of the gas turbine, and further, supplying gas fuel to a floating and storing type gas power plant which has liquid fuel.

Description

Suspended storage gas power generation plant and power output device of the gas power plant {FLOATING AND STORAGE GAS POWER PLANT, AND HIGH POWER APPARATUS OF THE POWER PLANT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a floating storage gas power plant capable of storing liquefied natural gas in a fuel tank of a floating structure in the sea and using the liquefied gas to produce electric power, Specifically, it is possible to circulate the glycol water through the glycol water circulation line, heat exchange in the vaporizer, heat exchange with the atmospheric air supplied to the gas turbine by cooling the cooled glycol water, A floating storage gas power plant and an output boosting system of the gas power plant.

In recent years, there has been an increasing interest in electric power generation using natural gas as a demand for environmentally friendly development.

In emerging economies where power supply is not smooth, interest in gas power generation is increasing. Due to the nature of gas power generation, gas infrastructures such as gas reservoirs must be equipped on land.

There is a problem that the initial installation cost of the facility is increased because the capacity of the thermal power plant on the land is too large, and the consumption of building, piping, and materials increases as the facility and the system are independently located in separate buildings.

In addition, in the conventional thermal power plant, there is always a risk that a facility installation, a tank layout, and a test are performed at a site, and a long construction period is required.

Especially, in the case of Southeast Asian countries composed of several islands, it was difficult to generate large capacity gas.

In other words, there is a disadvantage that it requires a space for construction of a thermal power plant on the land and a construction cost, and it takes a lot of time to construct a thermal power plant on the land, so it is difficult to perform the power supply in a short time.

In order to solve this problem, a floatation storage gasification unit (FSRU) floating gas storage tank has been introduced, and the gas is supplied to a land power plant by using the offshore gas storage tank line .

However, land-based development using such FSRUs creates a dual burden of installing FSRUs at sea and constructing power plants on land.

In other words, it has disadvantages not only in securing FSRU but also in securing a place for construction of a power station and costing construction cost.

Therefore, in addition to the above-mentioned method, a new and advanced type of floating and storage gas power plant capable of storing liquefied natural gas at sea and producing electric power using waste heat of the liquefied natural gas and gas turbine / FSPP) is urgently required.

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The present invention can increase the efficiency of a gas turbine by vaporizing a liquefied fuel in a vaporizer using glycol water and then exchanging heat with atmospheric air introduced into the cooler to supply high-density air to the gas turbine And more particularly to a floating storage gas power plant capable of supplying a gaseous fuel of a floating storage gas power plant having a liquid fuel and an output increasing system of the gas power plant.

In order to achieve the above object, a floating storage gas power plant of the present invention comprises a fuel tank installed in a floating structure for storing and supplying liquefied gas; A vaporizer for vaporizing the liquefied gas of the fuel tank; A gas turbine unit for generating electric power by using the fuel gas supplied from the vaporizer; Circulating the cooled glycol water by heat exchange with the vaporizer in order to increase power generation efficiency of the gas turbine unit and exchanging heat with air supplied to the gas turbine unit to supply the gas turbine unit with high- Output boosting system; A waste heat recovery steam generator for recovering a heat source (waste heat) of the hot gas discharged from the gas turbine unit to generate steam; And a steam turbine power generation unit for generating power using steam supplied from the waste heat recovery steam generator.

The output boosting system of the floating storage gas power plant according to the present invention circulates the glycol water to exchange heat with the vaporizer and cool the atmospheric air supplied to the gas turbine unit to supply high-density air to the gas turbine unit, The output can be increased.

The output boosting system of the present invention comprises a glycol water circulation line through which the glycol water circulates; A glycol water tank in which glycol water is stored; A pump for pumping and circulating the glycol water; A heat exchanger installed in the glycol water circulation line for heat exchange using glycol water; And a cooler for exchanging heat with the heat exchanger to cool atmospheric air, and to supply the cooled high-density air to the gas turbine unit.

The gas turbine unit comprising: a gas turbine operating with the fuel gas supplied by the output boosting system; And a first generator for generating electric power by the gas turbine.

The steam turbine power generation unit includes a steam-driven steam turbine supplied from the waste heat recovery steam generator; And a second generator for generating electric power by the steam turbine.

As described above, the present invention can produce power using a liquefied gas while having a liquefied gas fuel tank in a marine floating structure, and after gas is vaporized in the vaporizer by using glycol water, It is possible to increase the efficiency of the gas turbine by supplying high-density air to the gas turbine by heat exchange with the atmospheric air introduced into the cooler to supply the gas fuel to the gas turbine, It is possible.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a conceptual diagram showing the overall configuration of a floating storage gas power plant and an output boosting system according to a preferred embodiment of the present invention; FIG.
2 is a side view showing the overall configuration of a floating storage gas generating plant and an output increasing system according to a preferred embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a floating storage gas power plant according to a preferred embodiment of the present invention and an output increasing system of the gas power plant will be described in detail with reference to the accompanying drawings.

FIG. 1 is a conceptual diagram showing the overall configuration of a floating storage gas power generation plant and an output power boosting system according to a preferred embodiment of the present invention, and FIG. 2 is a schematic view showing the entire structure of a floating storage gas power plant and an output increasing system according to a preferred embodiment of the present invention. Fig.

Referring to FIGS. 1 and 2, a floating storage gas generating plant according to a preferred embodiment of the present invention includes a fuel tank 10 inside a floating structure 1.

The fuel tank (10) stores liquefied gas and vaporizes the liquefied gas during the production of electricity to produce electricity using the fuel gas.

The floating structure (1) is provided with a vaporizer (20) for vaporizing the liquefied gas of the fuel tank (10) with fuel gas.

The floating structure 1 is provided with a gas turbine unit 30 for generating electric power by using the fuel gas supplied from the vaporizer 20.

The gas turbine unit 30 includes a gas turbine 31 operating with fuel gas and a first generator 32 producing electricity by the gas turbine 31.

The floating structure 1 is provided with a waste heat recovery steam generator 40 for recovering a heat source (waste heat) of the hot gas discharged from the gas turbine unit 30 to generate steam.

A steam turbine power generation unit 50 for generating electricity using steam supplied from the waste heat recovery steam generator 40 is installed in the floating structure 1.

The steam turbine power generation unit 50 includes a steam-driven steam turbine 51 supplied from the waste heat recovery steam generator 40 and a second generator 52 generating electricity by the steam turbine 51 .

In addition, in the floating storage gas power plant according to the preferred embodiment of the present invention, in order to increase the power generation efficiency of the gas turbine unit 30, circulating the cooled glycol water by heat exchange with the vaporizer 20, Exchanges heat with the air supplied to the gas turbine unit (30) to supply the gas turbine unit (30) with high-density air.

The output boosting system 100 is provided with a glycol water tank 110 in which glycol water is stored in the glycol water circulation line L and a pump P for pumping glycol water.

The glycol water circulation line (L) is provided with a heat exchanger (120) for exchanging heat with the vaporizer (20) and the cooler (130) described below using glycol water.

The gas turbine unit 30 is provided with a cooler 130 for exchanging heat with the heat exchanger 120 to cool atmospheric air and supply the cooled high-density air to the gas turbine unit 30. [

The operation of the floating storage gas generating plant and the output increasing system of the floating storage gas generating plant according to the preferred embodiment of the present invention will be described.

The liquefied gas in the fuel tank 10 is vaporized by the vaporizer 20 and then supplied to the gas turbine 31 to produce electricity through the first generator 32.

At this time, the pump (P) is driven to circulate the glycol water of the glycol water tank (110) through the glycol water circulation line (L).

The glycol water is cooled through the evaporator-side heat exchanger 120 and the cooled glycol water passes through the cooler-side heat exchanger 120. At the cooler 130, atmospheric air is injected, By cooling, high-density air is supplied to the gas turbine 31.

As the dense air is supplied to the gas turbine 31, the power generation efficiency of the gas turbine 31 can be increased and the output can be increased.

The waste heat recovery steam generator 40 generates steam by using a heat source of hot gas generated from the gas turbine 31, that is, waste heat, drives the steam turbine 51 using the steam, To produce electricity.

As described above, the present invention can produce electric power by using the liquefied gas stored in the floating structure in the sea, and it is possible to generate electricity by vaporizing the liquefied gas in the vaporizer by using glycol water, By supplying the high-density air to the gas turbine by heat exchange, not only the efficiency of the gas turbine can be increased, but also the gas fuel supply of the floating storage gas power plant having the liquid fuel is possible.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Various modifications and variations are possible within the scope of equivalents.

1: floating structure
10: Fuel tank
20: Carburetor
30: Gas turbine unit
31: Gas Turbine
32: first generator
40: Waste Heat Recovery Steam Generator
50: Steam turbine power generation unit
51: Steam turbine
52: Second generator
100: Output boost system
110: Glycol water tank
120: Heat exchanger
130: cooler
L: Glycol water circulation line
P: Pump

Claims (11)

A fuel tank installed in the floating structure for storing and supplying the liquefied gas;
A vaporizer for vaporizing the liquefied gas of the fuel tank;
A gas turbine unit for generating electric power by using the fuel gas supplied from the vaporizer; And
An output for circulating cooled glycol water by heat exchange with the vaporizer to increase the efficiency of the gas turbine unit and for supplying heat to the gas turbine unit by heat exchange with air supplied to the gas turbine unit, And an expansion system. The method according to claim 1,
A waste heat recovery steam generator for recovering a heat source (waste heat) of the hot gas discharged from the gas turbine unit to generate steam; And
And a steam turbine power generation unit for generating electricity using steam supplied from the waste heat recovery steam generator. The method according to claim 1,
The output boosting system
A glycol water circulation line through which the glycol water circulates;
A glycol water tank in which glycol water is stored;
A pump for pumping and circulating the glycol water;
A heat exchanger installed in the glycol water circulation line for heat exchange using glycol water; And
And a cooler for exchanging heat with the heat exchanger to cool the atmospheric air, and to supply the cooled high-density air to the gas turbine unit. The method according to claim 1,
The gas turbine unit
A gas turbine operating with the fuel gas supplied from the power increasing system; And
And a first generator for generating electrical power by the gas turbine. The method according to claim 1,
The steam turbine power generation unit
A steam-driven steam turbine supplied from the waste heat recovery steam generator; And
And a second generator for generating electricity by the steam turbine. A floating storage gas power plant for storing liquefied gas in a floating structure and producing electricity in a gas turbine unit using fuel gas supplied from a vaporizer, characterized in that heat exchange with the vaporizer is performed to increase the power generation efficiency of the gas turbine unit Circulating the cooled glycol water and exchanging heat with air supplied to the gas turbine unit to supply the gas turbine unit with high-density state air. The method of claim 6,
The waste heat recovery steam generator for recovering the heat source (waste heat) of the hot gas discharged from the gas turbine unit to generate steam is connected to the gas turbine unit, and the steam supplied from the waste heat recovery steam generator is supplied to the waste heat recovery steam generator Is connected to a steam turbine power generation unit which generates power by using the steam turbine power generation unit. The method of claim 6,
The gas turbine unit is connected to a cooler for cooling the atmospheric air and supplying the cooled high-density air to the gas turbine unit. The glycol water circulation line is subjected to heat exchange in the vaporizer and the cooler using glycol water Wherein a heat exchanger is installed on the outlet of the gas storage system. The method of claim 6,
A glycol water circulation line through which the glycol water circulates;
A glycol water tank in which glycol water is stored;
A pump for pumping and circulating the glycol water;
A heat exchanger installed in the glycol water circulation line for heat exchange using glycol water; And
And a cooler for exchanging heat with the heat exchanger to cool atmospheric air, and to supply the cooled high-density air to the gas turbine unit. The method of claim 6,
The gas turbine unit
A gas turbine operating with the fuel gas; And
And a first generator for generating electrical power by the gas turbine. The method of claim 6,
The steam turbine power generation unit
A steam-driven steam turbine supplied from the waste heat recovery steam generator; And
And a second generator for generating electricity by the steam turbine.

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