KR101875379B1 - Power generation apparatus and method using steam - Google Patents

Abstract

The present invention relates to a power generation apparatus and a power generation method using steam, generated from a boiler so as to rotate a steam turbine, operating a sterling engine by using discharged hot temperature steam under high pressure, and pressing and supplying the hot temperature steam under high pressure boiler-generated when a fan is rotated by the operated sterling engine. Accordingly, rotating frequency of the steam turbine can be increased to improve power generation efficiency. Moreover, fuel consumption can be reduced to increase cost efficiency.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power generation apparatus and method using steam,

More particularly, the present invention relates to an apparatus and a method for generating steam using a steam, and more particularly, to a steam generating apparatus and method using a steam, The present invention relates to an apparatus and method for generating electricity using steam, which is capable of pressurizing and supplying high-temperature and high-pressure steam generated by a boiler to a steam turbine.

Generally, a thermal power generation is a power generation which obtains electric energy by rotating a steam turbine with mechanical energy obtained by burning fuel energy, and it is divided into a steam power generation, an inner generation power generation and a special thermal power generation depending on a heat source and a prime mover.

The above-mentioned power generation is a method in which steam is generated by the heat energy generated when fossil fuels such as coal and oil are burned and sent to a heat engine to obtain mechanical energy, and the mechanical energy is used to rotate the steam turbine to obtain electrical energy. Nuclear power generation is the same as coal and heavy fuel oil, except that the fuel is heat by nuclear power, and is included in the power generation.

The steam power is generated by heating the water to heat the steam, and the steam is heated to a temperature of at least 500 ° C. and a pressure of 100 to 200 atm or higher. The steam is sent to the steam turbine to rotate the steam turbine .

The steam generated by the steam turbine is 100,000 kW, and the power generated by the steam turbine is usually 10,000 kW or more even in the case of a small-capacity steam generator. The steam passing through the steam turbine is condensed in the condenser It becomes plural. In order to do this, a lot of cold water is required, and the water discharged from the condenser is heated again in the heater and sent to the boiler.

The steam turbine drives the generator to convert the energy held by the high-temperature and high-pressure steam in the turbine into mechanical energy, and then to the electrical energy from the generator. The shaft of the turbine and the generator is connected directly, and the rotational speed of the generator is 1,800 or 3,600 revolutions per minute to generate a voltage having a frequency of 60 Hz.

There is a problem that the steam of high temperature and high pressure rotating the steam turbine is discharged to the outside through the normal discharge portion, thereby causing a large heat loss.

In order to solve the above problems, the auxiliary power generation system using the surplus steam generated due to the power enhancement of the power plant has been registered in Korean Patent Registration No. 10-1028634.

The registered patent can solve the conventional problems by operating the auxiliary power generation system using the surplus steam generated by the reactor power of the nuclear power plant or the boiler power of the thermal power plant and generating electricity through the steam.

However, there is a problem in that the registered patent increases the power of the nuclear reactor or the boiler facility and burns more fuel, so that the fuel consumption is increased and the economical efficiency is lowered.

Korean Patent Registration No. 10-1028634

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems as described above, and it is an object of the present invention to provide a steam engine which is operated by a high temperature and high pressure steam generated in a boiler, The present invention also provides a power generation apparatus and method using steam that can increase the number of revolutions of a steam turbine by supplying generated high-temperature and high-pressure steam to a steam turbine.

Another object of the present invention is to provide a power generation apparatus and method using steam that can reduce the consumption of fuel because it is not necessary to burn more fuel in order to increase the power generation efficiency of the steam turbine.

According to the present invention,

A boiler for heating the water to generate high-temperature and high-pressure steam;

A steam turbine generating electricity by rotating with the pressure of the steam generated in the boiler;

A Stirling engine which is operated while being heated by high-temperature and high-pressure steam discharged from the steam turbine;

And a fan mounted between the boiler and the steam turbine to pressurize the high temperature and high pressure steam generated from the boiler while rotating by the operation of the Stirling engine to supply the steam to the steam turbine.

And a discharge pipe for discharging high-temperature and high-pressure steam that operates the Stirling engine.

According to the present invention,

A first step of heating the water supplied and stored in the main body to generate high-temperature and high-pressure steam;

A second step of generating electricity by rotating the steam turbine with high temperature and high pressure steam generated in the first step;

A third step of rotating the steam turbine in the second step and then operating the Stirling engine by heating the steam with the discharged high-temperature and high-pressure steam;

And a fourth step of supplying the steam to the steam turbine by pressurizing the high-temperature and high-pressure steam generated in the first stage by the operation of the Stirling engine operated in the third step to increase the moving speed of the steam generated in the first stage.

And a fifth step of discharging high-temperature and high-pressure steam in which the Stirling engine is operated in the third step.

According to the present invention, a high-temperature and high-pressure steam generated in a boiler is rotated to rotate a steam turbine, and then a Stirling engine is operated with discharged high-temperature and high-pressure steam. So that the number of revolutions of the steam turbine can be further increased, so that the power generation efficiency can be improved.

Further, since the present invention does not require burning more fuel in order to increase the power generation efficiency of the steam turbine, the consumption of fuel can be reduced, thereby improving the economical efficiency.

1 is a conceptual diagram of a power generation apparatus using steam in which the present invention is applied
2 is a schematic diagram of a Stirling engine applied to the present invention
Fig. 3 is a flowchart showing the operation of the Stirling engine applied to the present invention.
4 is a graph showing the operating state of the power generation apparatus using the steam to which the present invention is applied

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a conceptual diagram of a power generation apparatus using steam in which the present invention is applied.

The power generating apparatus 100 using the steam of the present invention is configured to operate the Stirling engine 130 with high temperature and high pressure steam that is rotated and discharged from the steam turbine 120 and the fan 140 is operated by the Stirling engine 130 The steam turbine 120, the Stirling engine 130, and the fan 140 are connected to the steam turbine 120, and the high-temperature and high-pressure steam generated in the boiler 110 is supplied to the steam turbine 120 while being rotated. .

The boiler 110 is configured to heat water to generate high-temperature and high-pressure steam having a temperature of 500 ° C or more and a pressure of 100 to 200 atm or more. The main body 111, the heating member 112, 113).

The main body 111 is configured to store water to be supplied under the control of the control unit, and is formed as a housing.

The heating member 112 is installed at a lower end of the main body 111 to heat water stored in the main body 111 and includes a heat pipe, a heat plate, and a heat wire.

The collecting guide member 113 is installed at the upper end of the main body 111 and collects the steam generated in the main body 111 according to the heating of the heating member 112 and guides the collected steam to the steam turbine 120, And is formed in a narrow shape.

The steam turbine 120 is a conventional steam turbine configured to generate electricity by rotating with high-temperature and high-pressure steam generated in the boiler 110.

As shown in FIG. 2, when the heating unit is heated by high-temperature and high-pressure steam, the sterling engine 130 pushes the piston with a pressure generated by expanding the gas in the cylinder 131, And the piston is moved in such a manner that the piston is moved in such a manner that the piston is pulled back by reducing the pressure while the gas is cooled and contracted.

That is, the base of the heating unit expands and the pressure rises and pushes the piston A 132 through the periphery of the piston B 133, the piston B 133 is pulled into the cylinder 131, and the piston B The gas between the piston 133 and the piston A 132 is cooled and contracted by the cooling section.

The piston of the cooling section is cooled and contracted to lower the pressure so that the piston A 132 is pulled into the cylinder 131. When the piston A 132 comes close to the heating section, The gas is transferred to the heating section.

The piston B 132 reciprocates and transmits power and the piston B 133 receives the eccentric attached to the rotating body 134 by the power obtained by the motion of the piston A 132 It moves.

The fan 140 is installed between the boiler 110 and the steam turbine 120 while being connected to the Stirling engine 130 and rotated by the operation of the Stirling engine 130. The steam is supplied to the steam turbine 120 by pressurizing the high-temperature steam and the high-pressure steam generated by the boiler 110 to a high speed.

Further, it further includes a discharge unit 150 for discharging high-temperature and high-pressure steam that operates the Stirling engine 130.

The operation of the power generation apparatus 100 using the steam according to the present invention will now be described.

When a predetermined amount of water is supplied and stored into the main body 111 of the boiler 110 under the control of the control unit, the heating member 112 installed at the lower end of the main body 111 heats the inside of the main body 111 Of boiling water to generate high-temperature, high-pressure steam.

The heating member 112 is any one of a structure for heating water by heat generated by burning a fuel such as petroleum or coal, or a structure for heating water by a heat pipe, a heat plate, and a hot wire.

The high-temperature and high-pressure steam generated by the heating of the heating member 112 should be at least 500 ° C. and the steam turbine 120 should be maintained at a pressure of 100 to 200 atm or more.

The high-temperature and high-pressure steam generated in the above process is transferred to the steam turbine 120 in accordance with the guide of the collecting guide member 113 provided at the upper end of the main body 111. The steam turbine 120 is supplied with high- And the generated electricity is stored in the generator and supplied to an engine such as a substation.

Since the collecting guide member 113 has a wide bottom and a narrow top, it can easily collect the high-temperature and high-pressure steam and guide the collected steam to the steam turbine 120.

3, the high-temperature and high-pressure steam generated by rotating the steam turbine 120 is supplied to the Stirling engine 130 to heat the heating section of the Stirling engine 130. The heating section may be a high- The gas in the heating section expands and the pressure increases to move to the cooling section via the periphery of the piston B 133 and push the piston A 132 while pushing the piston B 133 toward the inside of the cylinder 131 .

The piston A 132 is pulled into the cylinder 131. When the piston A 132 comes close to the heating part, the piston B 132 The piston A 132 reciprocates and transmits power while the piston B 133 is rotated by the power obtained by the movement of the piston A 132 134 to the eccentric attached thereto.

Here, the cooling section may be naturally cooled at room temperature or may be cooled by water-cooling using water.

4, the fan 140 connected to the rotating body 134 is installed between the boiler 110 and the steam turbine 120 and is rotated by the operation of the Stirling engine 130, The steam is supplied to the steam turbine 120 while the steam is supplied to the steam turbine 120 at a higher rotation speed, The steam generated by operating the Stirling engine 130 is discharged to the outside through the discharge unit 150. [

While the present invention has been described with reference to exemplary embodiments and drawings, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. I will do it.

Therefore, the scope of the present invention should not be construed as being limited to the embodiments described, but should be determined by the scope of the appended claims, as well as the appended claims.

100: generator
110: boiler 120: steam turbine
130: Stirling engine 140: Fan
150:

Claims (3)

A boiler for heating the water to generate high-temperature and high-pressure steam;
A steam turbine generating electricity by rotating with the pressure of the steam generated in the boiler;
A Stirling engine which is operated while being heated by high-temperature and high-pressure steam discharged from the steam turbine;
And a fan mounted between the boiler and the steam turbine and rotated by the operation of the Stirling engine to supply the steam to the steam turbine by increasing the moving speed of the high temperature and high pressure steam generated in the boiler. Generating apparatus using steam. The method according to claim 1,
Further comprising a discharge pipe for discharging high-temperature and high-pressure steam through which the Stirling engine is operated. A first step of heating the water supplied and stored in the main body to generate high-temperature and high-pressure steam;
A second step of generating electricity by rotating the steam turbine with high temperature and high pressure steam generated in the first step;
A third step of rotating the steam turbine in the second step and then operating the Stirling engine by heating the steam with the discharged high-temperature and high-pressure steam;
And a fourth step of supplying the steam to the steam turbine by pressurizing the high-temperature and high-pressure steam generated in the first stage so that the moving speed of the steam generated in the first stage is increased by the operation of the Stirling engine operated in the third step Wherein the steam is supplied to the steam generator.

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