KR101289765B1 - Waste heat boiler system used in power plant on Land - Google Patents

Abstract

The present invention relates to a waste heat boiler system for a land power generation equipment, which can increase the capacity of the waste heat boiler and greatly improve the workability and productivity of the construction installation of the land power generation facility.
To this end, the present invention is pre-assembled and installed the configuration of the combustion gas inlet and outlet of the waste heat boiler system, the boiler fuselage, and the steam supply and recovery unit in a separate assembly structure, according to the water supply pump and circulation including auxiliary equipment A water supply unit including a pump is pre-assembled and installed inside a container box, and a large capacity waste heat boiler is constructed and transported to a predetermined onshore power generation facility installation site, thereby greatly improving workability and productivity. Provide a waste heat boiler system for onshore power generation facilities.

Description

Waste heat boiler system used in power plant on land

The present invention relates to a waste heat boiler system for an onshore power plant, and more particularly, to install a boiler fuselage unit on a main frame and to receive auxiliary equipment in a separate container box to increase the capacity of the waste heat boiler and increase the capacity of the power plant. The present invention relates to a waste heat boiler system for onshore power generation equipment that can improve workability and productivity of construction installation.

In general, power generation facilities for onshore power generation facilities are being constructed in various forms using thermal power, hydropower, solar power, nuclear power, and the like. Such onshore power generation facilities are used for desulfurization and denitrification to remove various pollutants generated from power plants and industrial plants. Facilities, electrostatic precipitating facilities, waste heat recovery boilers, etc., are being constructed through various processes ranging from design to production of equipment, installation and commissioning.

Recently, a large number of power generation facilities have been built in overseas markets of developing countries, most of them have been installed as power generation facilities using combined cycle power, and are installed including waste heat boilers capable of recovering waste heat.

The thermal power plant of the power generation facility is provided with a gas turbine, an oil boiler for steam generation, and a steam turbine, the turbine is rotated by the high temperature and high pressure combustion gas generated by the combustion of fuel, The combustion gas that rotates the turbine is exhausted to the outside of the gas turbine, and the exhaust gas discharged to the outside is introduced into the waste heat boiler to recover the waste heat.

In addition, the steam generating oil boiler is a kind of power generation boiler that produces steam to make water into steam and supply the generated steam to a place of use (for example, an engine heating device, a gas turbine of a power generation facility). In addition, the combustion gas generated in the steam generating oil boiler is also introduced into the waste heat boiler to recover the waste heat.

However, there have been the following problems in installing the waste heat boiler system for recovering waste heat in the construction of a conventional land power generation facility.

The waste heat boiler system installed in the conventional power generation facility installs the necessary parts inside the container used in a certain size, so that it is not possible to manufacture a large capacity waste heat boiler due to the limitation of the installation space. There is a problem that the installation space is restricted a lot.

In addition, in order to supply the amount of steam required by the onshore power generation facilities, several small-capacity waste heat boilers installed in existing containers need to be installed. Therefore, the boiler system itself becomes complicated and installation costs are increased, resulting in increased productivity. There was not a problem.

The present invention has been made in view of the above, as a pre-assembled installation of the combustion gas inlet and exhaust of the waste heat boiler system, the boiler body, the steam supply and recovery unit in a separate assembly structure, and assisted accordingly By installing and supplying the water supply unit including the water supply pump and the circulation pump including the equipment in a separate container box, it realizes a large capacity waste heat boiler and transfers it to a predetermined power generation installation site for construction. The purpose of the present invention is to provide a waste heat boiler system for onshore power generation facilities that can be increased in size and greatly improve the workability and productivity of construction installation.

In order to achieve the above object, the present invention provides a plurality of heat transfer tubes in an inner space, an upper portion of the inner space is formed of a vapor chamber portion and a lower portion of a water chamber portion, and a plurality of heat transfer tubes are formed in the water chamber portion. A boiler fuselage arranged horizontally; A combustion gas inlet chamber mounted at one side of the boiler body; Combustion gas discharge chamber mounted on the other side of the boiler body; fixed assembly in advance to the lower frame of the main frame horizontally installed on the ground; A plurality of combustion gas inlet pipes connected to the combustion gas inlet chamber; A plurality of combustion gas discharge pipes connected to the combustion gas discharge chambers; A steam supply and recovery unit mounted on the upper end of the boiler body; fixedly assembled to the upper frame of the main frame integrated on the lower frame of the main frame in advance; Provided is a waste heat boiler system for onshore power generation equipment characterized in that the construction can be transported to a predetermined power installation site.

In the present invention, a bypass pipe supported on the upper frame of the main frame is connected between the combustion gas inlet pipe and the combustion gas discharge pipe, the combustion gas flows into the combustion gas inlet pipe or bypass pipe inside the combustion gas inlet pipe. It is characterized in that the three-way damper is mounted to open and close the inside thereof.

In addition, in the present invention, the auxiliary equipment including a water supply tank and a water supply pump and a circulation pump of the water supply and circulation unit connected to the water chamber of the boiler fuselage unit and a return header in which condensed water is returned are disposed adjacent to the boiler body. It is characterized in that integrated into the container of the assembly.

The present invention provides the following effects through the above-mentioned problem solving means.

First, according to the present invention, each component of the waste heat boiler system for onshore power generation facilities, that is, the combustion gas inlet and outlet, the boiler fuselage, the water supply and recovery, the steam supply and recovery, etc. By installing in the structure, it is possible to increase the capacity of the waste heat boiler, and to greatly improve the workability and productivity of the installation of the large capacity waste heat boiler.

Second, according to the present invention, the water supply unit including the auxiliary equipment, the water supply pump and the circulation pump, and the return header, etc. of the waste heat boiler system provided in the onshore power generation facility are assembled in advance in the standardized container to the corresponding installation place. By transporting and installing, installation and installation of waste heat boiler is very easy, and workability can be improved.

1 is a perspective view showing a waste heat boiler system for onshore power generation facilities according to the present invention.
Figure 2 is a waste heat boiler system for a land power generation equipment according to the present invention, a front view showing a state excluding a container box.
Figure 3 is a waste heat boiler system for land power generation equipment according to the present invention, a plan view showing a state excluding a container box.
4 is a side view showing a state excluding a container box as a waste heat boiler system for onshore power generation facilities according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in the accompanying Figures 1 to 4, the present invention is to increase the size of the capacity of the waste heat boiler to increase in size while at the same time significantly improve the workability and productivity of installation installation boiler body 10, including the combustion gas The inlet chamber 12 and the discharge chamber 14, the combustion gas inlet pipe 16 and the discharge pipe 18 and the like fixed to the main frame 30 in advance, the water supply tank and the water supply of the water supply and circulation unit 50 Auxiliary devices including pumps, circulation pumps, and return headers for returning condensate are pre-integrated and assembled in the container 40 to be connected to the boiler fuselage 10, and then transferred to the installation site of the power plant. The point is to make it work.

The boiler body 10 has a plurality of heat transfer tubes (not shown) installed therein and a closed water chamber portion filled with water is formed at the bottom, and the upper space in which the water is not filled is filled with steam. Is formed into a vapor chamber.

In addition, a combustion gas inlet chamber 12 through which combustion gas flows is mounted at one side of the boiler body 10, and a combustion gas discharge chamber 14 is mounted at the other side.

In this case, a plurality of heat transfer tubes (not shown) through which high-temperature combustion gas flows for heat exchange with water is arranged inside the boiler body 10, and both ends of each of the tubes are arranged in the boiler body 10. It protrudes through the side wall of and is exposed to the combustion gas inflow chamber 12 and the combustion gas discharge chamber 14, respectively.

In particular, the combustion gas inlet chamber 12 is connected to a plurality of combustion gas inlet pipe 16 in communication with each exhaust gas discharge unit (not shown) of the power generation equipment, and discharges the combustion gas after the heat exchange to the outside A plurality of flue gas discharge pipes 18 are connected to the flue gas discharge chamber 14, and a bypass pipe 22 is connected between the flue gas inlet pipe 16 and the flue gas discharge pipe 18.

At this time, the combustion gas inlet pipe 16 in the three directions to flow the inlet combustion gas toward the bypass pipe 22 or through the combustion gas inlet tube 16 toward the combustion gas inlet chamber 12 toward the side. The damper 24 is mounted.

On the other hand, the steam supply and recovery unit 20 including the main steam valve 26 for discharging steam to the place of use is assembled on the upper and front surfaces of the boiler body (10).

The boiler body 10 provided in this way, the combustion gas inlet chamber 12 mounted on one side of the boiler body 10, and the combustion gas discharge chamber 14 mounted on the other side of the boiler body 10. ) Is fixedly assembled to the lower frame 34 of the main frame 30 horizontally installed on the ground.

In addition, the plurality of combustion gas inlet pipe 16, the plurality of combustion gas discharge pipe 18, the steam supply and recovery unit 20 and the like provided on the above the lower frame 34 of the main frame 30 It is fixed and assembled in advance to the upper frame 32 of the integrated main frame 30.

In more detail, the boiler body 10 is assembled and fixed integrally with the inner wall surface of the lower frame 34 of the main frame 30, and the lower portion of the boiler body 10 is a leg 28, leg) is supported on the bottom surface of the lower frame 34 of the main frame 30, and also the plurality of combustion gas inlet pipe 16 and the plurality of combustion gas of the configuration assembled on the top of the boiler body (10) The discharge pipe 18 is fixedly assembled to the upper frame 32 of the main frame 30 using a supporter beam or the like.

According to the present invention, a water supply tank, a water supply pump, a circulation pump and a return header, a control panel, etc., of the water supply and circulation unit 50 connected to the water chamber of the boiler fuselage 10 are returned. Auxiliary devices that are included are integrated in a predetermined arrangement in a separate container 40 disposed adjacent to the boiler body part 10 and preassembled.

On the other hand, the container 40 uses a standard standard container used in the existing, and is equipped with an opening and closing door that can open one end of the container in order to facilitate the air circulation and maintenance for the interior of the container 40 The air conditioner may be installed to lower the temperature of the control panel for controlling the operation of the boiler system.

As described above, the main body 30 includes the boiler body 10, the combustion gas inlet chamber 12 and the discharge chamber 14, the plurality of combustion gas inlet tubes 16, and the plurality of combustion gas outlet tubes 18. And the auxiliary equipment including a water supply tank, a water supply pump and a circulation pump, a return header in which condensate is returned, a control panel, etc. After pre-integrating and assembling in a separate container 40 to be disposed, it can be transported to the installation site of the onshore power generation facility for construction, thereby producing a large capacity waste heat boiler and greatly improving workability and productivity of construction installation. You can.

Hereinafter, a brief description of the operation of the waste heat boiler system for land power generation equipment of the present invention configured as described above.

First, when the system of the onshore power plant is operated, the gas turbine of the power plant is rotated by the high temperature and high pressure combustion gas generated by the combustion of the fuel, and the high temperature combustion gas that rotates the gas turbine is a plurality of combustion gas inlet pipes. Supplied to (16).

Subsequently, the exhaust gas supplied to the plurality of combustion gas inlet tubes 16 flows into the combustion gas inlet chamber 14, and then flows along the inside of each tube arranged inside the boiler body 10.

Thus, since the high-temperature exhaust gas flows inside the respective tubes, heat is transferred to the water filled in the water chamber portion of the boiler body 10, that is, the water located at the outer diameter of the tube, so that steam is heated while the water is heated. The generated steam is collected in the steam chamber formed in the upper space of the boiler body 10 and then sent to the place of use through the main steam valve 26 mounted on the upper surface of the boiler body 10.

On the other hand, the heat transfer is made through the tube and the combustion gas exits through the combustion gas discharge chamber 14 is discharged to the outside air through a plurality of combustion gas discharge pipe (18).

10: boiler body part 12: combustion gas inlet chamber
14 combustion gas discharge chamber 16 combustion gas inlet pipe
18: combustion gas discharge pipe 20: steam supply and recovery unit
22: bypass pipe 24: three-way damper
26: main steam valve 28: leg
30: main frame 32: upper frame
34: lower frame 40: container
50: water supply and circulation unit

Claims (3)

delete delete A plurality of heat transfer tubes are installed in the inner space, an upper portion of the inner space is formed by a steam chamber portion, a lower portion is formed of a water chamber portion, and the water chamber portion includes a boiler body 10 in which a plurality of heat transfer tubes are horizontally arranged. ; A combustion gas inlet chamber 12 mounted at one side of the boiler body 10; A combustion gas discharge chamber (14) mounted on the other side of the boiler body portion (10); fixedly assembled in advance to the lower frame (34) of the main frame (30) installed horizontally on the ground; A plurality of combustion gas inlet tubes 16 connected to the combustion gas inlet chamber 12; A plurality of combustion gas discharge pipes 18 connected to the combustion gas discharge chamber 14; Steam supply and recovery unit 20 mounted on the upper end of the boiler body portion 10; in advance to the upper frame 32 of the main frame 30 integrally on the lower frame 34 of the main frame 30 In the waste heat boiler system for land power generation equipment which is fixedly assembled and transported to a predetermined power generation installation site for construction,
Between the plurality of combustion gas inlet pipe 16 and the plurality of combustion gas discharge pipe 18 is connected to the bypass pipe 22 supported on the upper frame 32 of the main frame 30, the combustion gas inlet pipe ( 16 is provided with a three-way damper 24 to open and close the inside so that the combustion gas flows into the combustion gas inlet pipe 16 or the bypass pipe 22;
Auxiliary devices including a water supply tank and a water supply pump and a circulation pump of the water supply and circulation unit 50 connected to the water chamber part of the boiler fuselage unit 10 and a return header in which condensed water is returned are the boiler body 10. Waste heat boiler system for a land-based power plant, characterized in that integrated and assembled in a separate container (40) disposed adjacent to.

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