KR101549130B1 - Power plant and feed water apparatus arrangement method for boiler thereof - Google Patents

Abstract

The present invention relates to a method of disposing a power plant and its boiler water supply apparatus, and more particularly, to a turbine bay in which a turbine is installed and a water supply pump and a water supply pump motor for supplying water to a boiler and a low pressure and high pressure water heater are disposed, A water pump motor, a low-pressure and high-pressure water heater, and a BOP facility are rearranged to remove a heater bay separately provided inside the turbine building Thereby, the effect of reducing civil engineering and building volume and improving space utilization can be obtained.

Description

TECHNICAL FIELD [0001] The present invention relates to a power plant and a method of arranging the boiler water supply apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power plant and a method for arranging the boiler water supply apparatus, and more particularly, to a power plant for supplying water to a boiler by driving a water pump motor and a method for arranging the boiler water supply apparatus.

A thermal power plant converts thermal energy generated by burning fossil fuels such as coal, oil, and gas into mechanical energy by a prime mover to turn the generator into electrical energy.

These thermal power plants generate water by supplying water from the feed pump to the boiler and rotating the turbine using heated steam.

The present applicant has filed a patent application for a thermal power plant and a power plant of a boiler, a turbine, a generator, and the like, which have been applied to many of the following Patent Documents 1 and 2.

For example, FIG. 1 is a sectional view showing an arrangement state of a boiler and a turbine in a thermal power plant according to the related art.

1, a conventional thermal power plant is provided with a heater bay 12 in addition to a turbine bay in which a turbine 11 is installed in a turbine building 10, and a heater bay 12, A water supply device such as a boiler feedwater pump motor 13, a high-pressure and low-pressure water heater 14, a water supply storage tank 15, and a deaerator 16 is located.

On the other hand, in recent years, in order to increase the power generation capacity of thermal power plants, the water supply pump motor 13 provided in the water supply apparatus has also become larger and larger.

Korean Patent Publication No. 10-2004-0100598 (published on December 2, 2004) Korean Patent Registration No. 10-0623861 (issued September 14, 2006)

However, in the thermal power plant according to the prior art, when the maintenance work of the feed pump motor is performed, the main crane 17 installed in the turbine building 10 for moving the feed pump motor 13 having a high weight of about 40 tons or more, A dedicated crane 18 must be installed inside the heater bay 12. [

Thus, in the thermal power plant according to the prior art, since a heater bay is provided separately from the turbine bay and a dedicated crane is installed for the maintenance work of the water supply device including the water pump motor, the time required for the construction work of the thermal power plant And an economical cost are unnecessarily increased, and the structure of the turbine building becomes complicated, resulting in a problem that space utilization is reduced.

An object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a power plant and its boiler which can reduce the construction cost of the power plant by arranging devices installed in the heater bay such as a feed pump motor and a water heater, And to provide a method of arranging a water supply device.

It is another object of the present invention to provide a power plant capable of removing its own crane required for maintenance work of a water pump motor and a method for arranging the boiler water supply apparatus.

In order to achieve the above object, a power plant according to the present invention includes a boiler area in which a turbine is installed and a turbine bay in which a feed pump and a feed pump motor for supplying water to a boiler, a low-pressure and high- And a pipe rack structure provided between the turbine bays and disposed with a high pressure water heater.

According to another aspect of the present invention, there is provided a method of arranging a boiler water supply device for a power plant, the method including disposing a water supply pump and a feed pump motor for supplying water to a boiler in a turbine bay in which a turbine is installed, And a low-pressure and high-pressure water heater are disposed in a dispersed manner in the turbine bay.

As described above, according to the method of disposing a power plant and its boiler water supply device according to the present invention, the heater bay is provided in the turbine building by rearranging the positions of the feed pump, the feed pump motor, the low pressure and high pressure water heater, It is possible to reduce the amount of civil engineering and construction and improve the space utilization.

According to the present invention, the dedicated crane installed separately for the maintenance work of the feed pump motor is removed, and the cost required for installing the dedicated crane can be reduced by sharing the main crane.

Thus, according to the present invention, the water pump motor can be replaced with a large-capacity motor to improve the operational convenience, and the time and cost required for the maintenance work can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view showing an arrangement state of a boiler and a turbine in a thermal power plant according to the prior art,
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a boiler feed water supply device,
FIGS. 3-6 are plan views of the first to fourth layers of the turbine bay and pipe rack,
FIG. 7 is a process diagram for explaining a stepwise arrangement method of a boiler water supply device of a thermal power plant according to a preferred embodiment of the present invention. FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A power plant and a method of arranging a boiler water supply device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention improves space utilization by disposing a water supply device installed in a heater bay in a thermal power plant according to the prior art in a turbine bay or a pipe rack of a turbine bay to remove a heater bay provided separately from a turbine bay in a turbine building .

The construction of the thermal power plant using the boiler water supply arrangement method according to the preferred embodiment of the present invention will be described in detail with reference to FIG.

FIG. 2 is a sectional view showing the internal structure of a turbine building of a thermal power plant using a method of arranging a boiler water supply device according to a preferred embodiment of the present invention.

As shown in FIG. 2, the thermal power plant using the method of arranging the boiler water supply device according to the preferred embodiment of the present invention includes a water heater, a water feed pump, and a water feed pump motor disposed in a heater bay, (Hereinafter referred to as "pipe racks") 40 provided between the turbine bays 30 or the turbine bays 30 and the boiler area 21 provided in the turbine bays 30, respectively.

In the turbine bay 30, a boiler feed water pump motor (hereinafter referred to as a "feed pump motor") for driving a feed pump, a feed pump, and waste heat generated in the boiler are collected and supplied to the boiler (Hereinafter referred to as "water supply device") such as a high-pressure and low-pressure water heater for heating water (hereinafter referred to as "boiler water supply").

To this end, the inner space of the turbine bay 30 may consist of first to fourth layers 31 to 34 sequentially disposed from the bottom toward the top as shown in FIG.

A main crane 28 may be installed on the fourth layer 34 of the turbine bay 30.

A pipe rack 40 is disposed between the turbine bay 30 and the boiler region 21 and the pipe rack 40 can be made of the first to fourth layers 41 to 44 similarly to the turbine bay 30. [ .

3 to 6 are plan views of the respective layers provided in the turbine bay and the pipe rack.

Figure 3 is a top view of the first layer of the turbine bay and pipe rack.

3, the first layer 31, 41 is the lowest ground floor of the space constituting the turbine bay 30 and the pipe rack 40, (31) are provided with devices such as a condenser and a condensate transfer pump.

Accordingly, in this embodiment, the feed pump 22 and the feed pump motor 23, which are disposed in the heater bay in the prior art, are disposed in the first layer 31 of the turbine bay 30.

Here, the feed pump 22 and the feed pump motor 23 may be provided in two to four, respectively.

In addition, a water booster pump may be further disposed in the first layer 31 of the turbine bay 30.

The first layer 41 of the pipe rack 40 is made of a chemical dosing system 24, a container type sampling system 25, a hydrogen, a carbon dioxide, a shelter type and is made of hydrogen (H ₂ ), carbon dioxide CO _2), it can be Balance of plant (BOP) equipment is arranged which includes a gas storage system 26 for storing gas, such as nitrogen (N _2).

The BOP facility is a power generation auxiliary device that performs the condensation / regeneration function between the boiler and the turbine, and functions to improve the efficiency of the cycle.

Figure 4 is a top view of the second layer of the turbine bay and pipe rack.

The second layer 32,42 is the mezzanine floor between the first layer 31,41 and the third layer 33,43 and the second layer 32 of the turbine bay 30, A plurality of low-pressure feedwater heaters 27 and a first high-pressure feedwater heater 29, which are disposed in the heater bay in the prior art, may be disposed together with the transformer shell, as shown in Fig.

The second layer 32 of the turbine bay 30 is connected to the feed pump motor 23 using the main crane 28 during maintenance or replacement work of the feed pump motor 23 disposed on the first layer 31 The first opening and closing member 35 can be removably installed at a position corresponding to the water pump motor 23. [

The first opening and closing member 35 is provided in the same number as the number of the water supply pump motors 23 and has an area larger than the plane area of the water supply pump motor 23 so that the water supply pump motor 23 can be easily raised and lowered As shown in Fig.

Figure 5 is a top view of the third layer of the turbine bay and pipe rack.

5, the third layer 33, 43 comprises a turbine zone 36 in which a high pressure turbine, a medium pressure turbine and a low pressure turbine are installed, and a generator layer 37 in which a generator is installed, floor.

A water pump motor 23 is installed in the third layer 33 of the turbine bay 30 by using a main crane 28 during maintenance or replacement work of the water pump motor 23 disposed in the first layer 31 The second opening / closing member 38 may be provided at a position corresponding to the feed pump motor 23 so as to be movable.

The second opening and closing member 38 is provided in the same number as the number of the feed pump motors 23 and has an area larger than the plane area of the feed pump motor 23 so that the feed pump motor 23 can be easily lifted and lowered As shown in Fig.

A plurality of second high-pressure water heaters 291 disposed in the heater bay in the prior art may be disposed in the third layer 43 of the pipe rack 40.

In addition, an auxiliary steam header 45 may be disposed in the third layer 43 of the pipe rack 40.

The bottom of the third layer 43 of the pipe rack 40 is provided with a concrete slab at a portion where the second high-pressure water heater 291 is installed, and a concrete slab is installed at a portion where the spare steam header 45 is installed graining may be installed to apply a bottom member of different structure.

Figure 6 is a top view of the fourth layer of the turbine bay and pipe rack.

The fourth layer 34,44 is the top layer of the turbine bay 30 and the pipe rack 40 and the fourth layer 34 of the turbine bay 30 is provided with a main crane 28 And is movably installed.

To this end, the fourth layer 34 of the turbine bay 30 is not provided with a bottom plate as shown in FIGS.

The fourth layer 44 of the pipe rack 40 is provided with a deaerator 46 for removing dissolved gas contained in the boiler feed water, particularly dissolved oxygen, a water storage tank 47, a CCW head tank head tank 48 may be disposed.

As described above, according to the present invention, the feed pump and the feed pump motor are installed on the bottom layer of the turbine bay, and the first and second open / close members respectively installed on the second and third layers are removed during the maintenance work of the feed pump motor, Using the main crane installed on the fourth floor, the water pump motor can be lifted upward to easily move or re-install to the position where the maintenance work is performed.

2 to 6, the water supply device connected to one boiler has been described. However, the present invention is not limited thereto.

That is, the invention can be modified to provide a turbine bay within a turbine building corresponding to a boiler building in which one or more boilers are installed, a pipe rack outside the turbine building, and a plurality of boiler buildings and turbine buildings.

Next, referring to FIG. 7, a method of arranging a boiler water supply device of a thermal power plant according to a preferred embodiment of the present invention will be described in detail.

FIG. 7 is a flowchart illustrating steps of arranging a boiler water supply device of a thermal power plant according to a preferred embodiment of the present invention.

The operator installs the turbine bay 30 and the pipe rack 40 in a four-layer structure in each unit area provided in the turbine building 20 (S10).

The water supply pump 22, the water supply pump motor 23 and the water supply booster pump, which are disposed in the heater bay in the prior art, are disposed in the first layer 31 of the turbine bay 30 together with the condenser and the condensate transfer pump ).

The first layer 41 of the pipe rack 40 includes a chemical dosing system 24, a container type sampling system 25, a gas storage system 26 of hydrogen, carbon dioxide, a shelter type, BOP (Balance of Plant) facility is arranged (S14).

A plurality of low pressure feed water heaters 27 and a first high pressure water heater 29 which are disposed in the heater bay in the prior art are disposed in the second layer 32 of the turbine bay 30 together with the plural shells and the transformer ).

At this time, the operator uses the main crane 28 to perform maintenance or replacement work of the water supply pump motor 23 disposed on the first layer 31 on the bottom plate of the second layer 32 of the turbine bay 30, The first opening / closing member 35 is installed at a position corresponding to the feed pump motor 23 so as to move the pump motor 23 (S18).

Subsequently, a high-pressure turbine, a medium-pressure turbine, and a low-pressure turbine and a generator are installed in the turbine region 36 and the generator region 37 provided in the third layer 33 of the turbine bay 30, respectively.

At this time, on the bottom plate of the third layer (33) of the turbine bay (30), when maintenance or replacement work of the feed pump motor (23) arranged in the first layer (31) The second opening / closing member 38 is installed at a position corresponding to the feed pump motor 23 so that the second opening / closing member 23 can be moved (S20).

Then, the operator places a plurality of second high-pressure water supply heaters 291 disposed in the heater bay in the third layer 43 of the pipe rack 40 (S22).

The operator installs the main crane 28 on the fourth layer 34 of the turbine bay 30 and the deaerator 46 and the water supply tank 47 on the fourth layer 44 of the pipe rack 40. [ And the CCW head tank 48 are disposed (S24).

Accordingly, in the maintenance work or the replacement work of the water supply pump motor 23 disposed in the first layer 31 in step S26, the worker can remove the water The water pump motor 23 can be moved up to the place where the maintenance work is to be performed by using the main crane 28 after removing the first and second opening and closing members 35 and 38.

Then, the worker re-installs the first and second opening / closing members 35, 38 after the maintenance work is completed or the water pump motor 23 that has been replaced is placed at the original position.

As a result of applying the method of disposing the water supply device of the thermal power plant according to the present embodiment to the actual thermal power plant, the length of the turbine bay and the pipe rack increases, but as the width of the heater bay is reduced due to the removal of the heater bay, It can be confirmed that the area is reduced.

Accordingly, in the case of installing a plurality of boilers and water supply devices, the present invention can reduce the number of power generation facilities and the area of the turbine building provided inside the turbine building, thereby reducing the facility cost of the thermal power plant.

Through the above-described process, the present invention resets the positions of the water supply pump, the feed pump motor, the low-pressure and high-pressure water heater, and the BOP facility to remove the heater bay, which is separately provided in the turbine building, And the space utilization can be improved.

In addition, according to the present invention, the dedicated crane installed separately for the maintenance work of the feed pump motor is removed, and the cost required for installing the dedicated crane can be reduced by sharing the main crane.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

Although the present embodiment has been described using a thermal power plant, the present invention is not limited thereto.

That is, the present invention can be modified to be applied to various types of power plants to which a water supply device including a water pump motor having a large capacity and a high weight is applied.

The present invention reduces the amount of civil engineering and construction and improves the space utilization by repositioning the feed pump, the feed pump motor, the low-pressure and high-pressure water heater, and the BOP facility to remove the heater bay, which is separately provided in the turbine building .

20: Turbine Building 21: Boiler Area
22: Feed water pump 23: Feed water pump motor
24: Chemical dosing system 25: Sampling system
26: Gas storage system 27: Low pressure water heater
28: Main crane 29,291: First and second high pressure water heater
30: Turbine bays 31 to 34: First to fourth layers
35: first opening and closing member 36: turbine region
37: generator area 38: second opening / closing member
40: pipe racks 41 to 44: first to fourth layers
45: Spare steam header 46: Deaerator
47: Water storage tank 48: CCW head tank

Claims (11)

A turbine bay in which a turbine is installed and a feed pump and a feed pump motor for supplying water to the boiler, a low pressure feed heater and a first high pressure feed heater are disposed,
And a pipe rack structure provided between the turbine bay and a plurality of second high pressure water heaters,
The turbine bay is composed of a first layer to a fourth layer arranged sequentially from the bottom toward the top,
Wherein the feed pump and the feed pump motor are disposed in a first layer of the turbine bay,
And the water supply pump motor is moved to the second layer and the third layer of the turbine bay by using the main crane installed in the fourth layer during the maintenance or replacement operation of the water pump motor disposed in the first layer, Wherein the first and second openable members are removably installed at positions corresponding to the pump motors. delete The method according to claim 1,
A plurality of low-pressure feedwater heaters and a first high-pressure feedwater heater are disposed in the second layer of the turbine bay,
Wherein a third region of the turbine bay is provided with a turbine region in which a high-pressure turbine, a medium-pressure turbine, and a low-pressure turbine are installed, and a generator region in which a generator is installed. delete The method according to claim 1 or 3,
Wherein the pipe rack structure comprises first to fourth layers corresponding to first to fourth layers of the turbine bay,
Wherein a BOP facility is disposed in the first layer of the pipe rack structure. 6. The method of claim 5,
The second high-pressure water heater is disposed in a third layer of the pipe rack structure,
Wherein a deaerator, a water supply storage tank, and a CCW head tank are disposed in a fourth layer of the pipe rack structure. The method according to claim 1,
The turbine bay is disposed within a turbine building corresponding to a boiler building in which one or more boilers are installed,
Wherein the pipe rack structure is disposed outside the turbine building,
Wherein at least one of the boiler building and the turbine building is provided. (a) installing a turbine bay in which the turbine is installed and a pipe rack structure installed between the boiler area and the turbine bay in four layers,
(b) disposing a feed pump and feed pump motor in the first layer of the turbine bay,
(c) disposing a plurality of low-pressure and first high-pressure feedwater heaters in a second layer of the turbine bay, and dispersing and arranging second high-pressure feedwater heaters respectively in the pipe rack structure,
(d) installing a main crane in the fourth layer of the turbine bay and
(e) moving the feed pump motor using the main crane during a maintenance operation of the feed pump motor disposed in the first layer of the turbine bay,
Wherein in the step (e), the feed pump motor is operated to move up and down by the main crane in a state in which the first and second open / close members provided on the second and third layers are removed. Way. delete delete delete

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