KR101641666B1 - A air preheating equipment for firing system of a coal-fired power boiler - Google Patents

Abstract

The present invention relates to an air preheating device for a coal thermal power plant, capable of supplying combustion air, preheated at high temperature, to a fire gate (2) by exchanging heat of exhaust gas, passing via a discharge path (3), by being applied to a coal thermal power plant including the fire gate (2), combusting coal to perform thermal power generation, and the discharge path (3), discharging the exhaust gas from the fire gate, in order to stably preheat air for a long time by minimizing the generation of condensate water, caused by the condensation of the exhaust gas. The air preheating device includes a preheating body (10) placed in a heat exchange space including an outlet (32) and an inlet (31) to take and discharge the exhaust gas through the discharge path (3). The preheating body (10) comprises multiple divergence pipes (13) connecting an inflow pipe (11), supplying air from the outside, with a discharge pipe (12), supplying the air to the fire gate (2), and placed with a gap between each other to move the exhaust gas. The divergence pipes (13) is curved to include multiple contact parts (131) divided in parallel with a movement direction of the exhaust gas from the inlet (31) to the outlet (32). An outlet of the divergence pipes (13) in the preheating body (10) is placed in a side of the inlet (31) in the heat exchange space. An inlet of the divergence pipes (13) is placed in a corner part diagonally facing the outlet of the divergence pipes (13) in the heat exchange space.

Description

[0001] The present invention relates to an air preheating apparatus for a coal-fired power plant,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air preheating apparatus applied to a coal-fired power plant, and more particularly, to an air preheating apparatus applied to a coal-fired power plant, , It is possible to increase the efficiency of heat exchange as well as to zero the leakage to the exhaust gas of the combustion air which is traditionally applied to the regenerative type air preheater, ) To reduce the power consumption of the power plant to significantly increase the efficiency of the power plant and minimize the generation of condensed water due to the condensation of the exhaust gas by heat exchange to thereby achieve stable air warming for a long period of time. To a small-sized air preheating apparatus.

Generally, in a coal-fired power plant, preheating combustion air using the heat of exhaust gas is one of the methods for increasing the thermal efficiency of the thermal power plant to improve the capacity.

The preheater of the combustion air includes a recuperative preheater and a regenerative preheater, which is connected to the combustion air from the exhaust gas directly through the heat surface to be preheated will be.

On the other hand, the regenerative preheater is such that the exhaust gas first heats the heat storage mass (generally a metal or ceramic battery) and then the heat is discharged to the combustion air in the second stage.

Such a regenerative preheater is commonly used in coal-fired boilers, especially for large-scale thermal power plants, and is the most commonly used regenerative preheater, with a rotary plane pre-heater, And is rotated at a low speed of 30 to 50 rpm so as to be in contact with the combustion air.

As described in the publication, in the conventional utility model registration No. 20-027064 (name: an air preheater having a load distribution supporting structure), a rotor rotates to heat the incoming air by a heating element heated by waste heat gas, And a casing surrounding the air preheater.

[0004] In the Korean Patent Registration No. 10-0536850 (titled rotary regenerative air preheater), as disclosed in the publication, there are provided a housing provided with exhaust gas inlet / outlet ducts and air inlet / outlet ducts at both ends thereof, The air preheater comprising a rotor for receiving the air.

In addition, in Korean Patent Registration No. 10-1004968 (titled "heat exchange element for thermal power plant and manufacturing method thereof"), as described in the publication, the heat exchange between the gas before the flue gas treatment and the gas after the flue gas treatment A substructure of a heat exchange element for a thermal power plant, comprising: a substructure in which a lower gas inlet for gas supply and a lower gas outlet for gas exhaust after flue gas treatment are formed on a base portion and a wall portion in the form of a circular wall is formed on the base portion; A rotating body rotatably coupled to the inside of the wall portion and having a plurality of baskets; An upper structure coupled to be covered with the upper portion of the wall portion as a reference and having an upper gas outlet for gas exhaust before flue gas treatment and an upper gas inlet for gas supply after flue gas treatment; An element module mounted on a basket of the rotating body, each element module including a plurality of element plates and an element frame.

In Korean Patent Registration No. 10-1267827 entitled " Thermal Power Boiler ", as described in the gazette, it is disposed in a flue gas channel connected to a furnace having a rear wall Preheaters for combustion air are described.

In addition, as mentioned in the aforementioned technical field, the rotary type of the conventional combustion air preheater of the coal-fired boiler for thermal power generation is such that the combustion air passes through the air preheater while being blown from the pressurizing FAN, And the air needs to be pushed as much as the amount of the leakage. Therefore, the load loss occurs in the fan, and the volume of the apparatus is increased as much as the amount of leaking. Thus, the facility cost is increased from the beginning, .

1. Korean Utility Model Registration No. 20-027064 2. Korean Patent Registration No. 10-0536850 3. Korean Patent Registration No. 10-1004968 4. Korean Patent Registration No. 10-1267827

However, in the conventional air preheating apparatuses as described above, various foreign substances contained in the exhaust gas are adhered to the rotor and the heat exchange element when the air is preheated in a coal-fired power plant and heat exchange is performed by the adhered foreign matter There is a problem that the efficiency is remarkably low.

Also, the disadvantage that the pressurized air to be blown into the furnace passes through the regenerative air preheater and leaks (leaks) toward the flue gas, the efficiency of the entire power plant is lowered, the pulverized coal fire occurs at startup, There is a problem that the corrugated heat transfer plate is replaced.

Accordingly, there has been a problem in that the installation cost of the initial facility and the operating cost necessarily increase due to the installation of the soot blower and the fixation of the related piping equipment for the prevention of fire.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned conventional problems, and an object of the present invention is to provide an exhaust gas purification apparatus for a nuclear power plant, It is possible to efficiently increase the heat exchange efficiency when the used combustion air is preheated to a high temperature and also to make the air preheating apparatus for the coal-fired power plant boiler capable of stably performing the air preheating for a long period of time more efficiently and stably To operate.

According to an aspect of the present invention, there is provided an air preheating apparatus for a coal-fired power plant, comprising: a furnace for burning coal to generate thermal power; and a discharge path for discharging the exhaust gas generated in the furnace 1. An air preheating apparatus for a coal-fired power plant, which is applied to a coal-fired power plant to heat-exchange heat of exhaust gas passing through the discharge path to supply combustion air preheated at a high temperature to the furnace; A preheating body disposed in a heat exchange space having an inlet through which the exhaust gas flows through the discharge path and an outlet through which the exhaust gas is discharged; The preheating body comprises a plurality of branch pipes arranged between an inlet pipe for supplying air from the outside and a discharge pipe for supplying air to the furnace and disposed with an interval to allow the exhaust gas to move therebetween .

The branch pipes are welded and assembled after the steel plates are bent so as to have a plurality of contact portions partitioned in a direction parallel to the direction of movement from the inlet to the discharge port so that the self- .

The outlet of the branch pipe in the preheat body is disposed at one side of the inlet port in the heat exchange space and the inlet of the branch pipe is disposed at a corner portion facing the outlet of the branch pipe in the diagonal direction in the heat exchange space .

A reflux pipe communicating between the discharge pipe and the inflow pipe is provided so that a part of the combustion air discharged to the discharge pipe is guided to the inflow pipe.

The air preheating apparatus for a coal-fired power plant boiler according to the present invention as described above does not cause deposition of foreign matter such as coal ash in a space where heat is exchanged between exhaust gas and combustion air, So that the preheating of the air for use can be stably performed.

In addition, since the thermal contact area between the combustion air and the exhaust gas can be structurally increased through the branch pipes having a plurality of divisional sections in the heat exchange space, the heat exchange efficiency of the coal-fired power plant can be efficiently increased Effect.

In addition, since there is no separate energy consumption drive such as rotation of the rotor, energy can be efficiently saved, thereby achieving economic benefits.

In addition, a part of the heated combustion air is refluxed with the cold air in the preheated state at the inlet of the air preheater at the lowest part, and the cooling to the acid dew point inside the air preheater is prevented so that the SO ₃ and SO ₂ gas components in the exhaust gas It is possible to prevent corrosion of the metal surface during passage.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing an applied state of an air preheater for a coal-fired power plant boiler according to an embodiment of the present invention; FIG.
Fig. 2 is a schematic illustration showing an air preheating apparatus for a coal-fired power plant boiler according to the present embodiment. Fig.
3 is a schematic front sectional view showing an air preheating apparatus for a coal-fired power plant boiler according to the present embodiment.
Fig. 4 is a schematic side cross-sectional view showing an air preheating apparatus for a coal-fired power plant boiler according to the present embodiment. Fig.
Fig. 5 is a schematic plan sectional view showing an air preheating apparatus for a coal-fired power plant boiler according to the present embodiment; Fig.
Fig. 6 and Fig. 7 are schematic explanatory views schematically showing a reflux pipe applied to an air preheater for a coal-fired power plant boiler according to the present embodiment;

Hereinafter, an air preheating apparatus for a coal-fired power plant according to a preferred embodiment of the present invention will be described in detail.

The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. This embodiment is provided to more fully describe the present invention to those skilled in the art. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

1 to 7 are diagrams showing an air preheating apparatus for a coal-fired power plant according to an embodiment of the present invention. In the air preheating apparatus 1 for a coal-fired power plant boiler according to the present embodiment, coal is burned (3) is applied to a boiler for a coal-fired power plant having a furnace (2) for heating steam for thermal power generation and a discharge path (3) for discharging the exhaust gas generated in the furnace (2) To the furnace 2 by supplying heat to the combustion air preheated to a high temperature by heat-exchanging heat of the exhaust gas passing through the furnace 2.

That is, as the combustion air supplied to the furnace 2 is heated to a high temperature to increase the combustion efficiency of the coal, the power generation efficiency is improved.

In the above, the exhaust path 3 preferably includes an exhaust duct connected to the exhaust port 21 of the furnace 2, and the exhaust duct is connected to a purifier (not shown) to purify the exhaust gas , And it is most preferable to be exhausted.

The air preheating apparatus 1 according to the present embodiment includes a preheating body 10 disposed in a heat exchange space having an inlet 31 through which the exhaust gas flows through the discharge path 3 and an outlet 32 through which the exhaust gas flows, .

That is, the combustion air passing through the preheating body 10 in the heat exchange space is heated to a high temperature by heat-exchanging heat with the exhaust gas.

In the preheating body 10, an inlet pipe 11 for supplying air from the outside and a discharge pipe 12 for supplying air to the furnace 2 are connected to each other, And a plurality of branch pipes (13) arranged to be disposed.

That is, the thermal contact area with the exhaust gas moving via the space between the branch pipes 13 can be structurally increased to improve the heat exchange efficiency.

The continuous air supplied to the inflow pipe 11 has a pump 4 for sucking outside air and supplying the air to the inflow pipe 11, and at a portion where the air is sucked by the pump 4 It is preferable that a filtration device 5 for filtering foreign substances from the air to be sucked is disposed.

That is, the air sucked through the pump 4 is filtered through the filtration device 5 to prevent foreign matter from being excessively contained in the combustion air, so that the combustion efficiency can be increased more smoothly desirable.

In the air preheating apparatus 1 according to the present embodiment as described above, the branch pipes 13 are provided with a plurality of contact portions 13, which are partitioned in a direction parallel to the moving direction from the inlet port 31 to the outlet port 32 side, It is preferable to bend in a zigzag shape so as to have the protrusion 131.

That is, it is most preferable that the combustion air is moved in a zigzag manner to the plurality of contact portions 131, so that the thermal contact area with the exhaust gas and the time are structurally increased, thereby heating the combustion air more smoothly.

As a result, the temperature of the combustion air becomes higher as it goes from the inlet side of the branch pipe (13) to the outlet side of the branch pipe (13), and the high temperature state of the combustion air supplied to the furnace .

The outlet of the branch pipe 13 in the preheating body 10 is disposed at one side of the inlet port 31 in the heat exchange space and the inlet of the branch pipe 13 is connected to the branch pipe 13 In a diagonal direction with respect to the outlet of the first housing portion.

The air preheating apparatus 1 according to the present embodiment as described above is preferably provided with a reflux pipe 6 communicating between the discharge pipe 12 and the inflow pipe 11.

Accordingly, it is most preferable that a part of the high-temperature combustion air discharged to the discharge pipe 12 is guided to the inflow pipe 11.

Therefore, at the inlet side portion of the branch pipe 13 having the lowest temperature in the heat exchange space, the generation of condensed water due to the condensation of the heat-exchanged exhaust gas is prevented.

That is, by supplying high-temperature combustion air to the inlet of the branch pipe 13 to prevent condensation of the exhaust gas, condensed water is generated at the branch pipe 13 located at the inlet side of the branch pipe 13 Prevention.
2 and 3, the reflux pipe 6 is preferably a pipe-shaped pipe connecting the discharge pipe 12 and the inflow pipe 11, as shown in FIGS.

The induction piece 61 for introducing the combustion air to the reflux pipe 6 is provided in the discharge pipe 12 and the combustion air introduced from the reflux pipe 6 is introduced into the inflow pipe 11, It is preferable that another guide piece 61 for guiding the guide piece 13 to the guide piece 13 is provided.
As shown in FIGS. 2 and 3, the guide piece 61 is formed in a shape of '┓' which protrudes inwardly from the inner surface of the discharge pipe 12 and the inflow pipe 11 and is bent at the same time Most preferred.

2 and 3, a reflux pipe 6 connected to the discharge pipe 12 and a reflux pipe 6 connected to the inflow pipe 11 are connected to the lowermost bottom surface of the branch pipe 13, The temperature of the bottom surface of the branch pipe 13 is increased through the guide pipe 62 so that the exhaust gas is discharged from the branch pipe 62. [ It is most preferable to effectively prevent the condensation from occurring on the bottom surface of the bottom plate 13.

The guide tube 62 is formed with a protrusion 621 protruding into the interior of the branch tube 13 on the inlet side of the branch tube 13 so that the combustion air It is most preferable to effectively prevent the condensation that necessarily occurs when the sulfur compound in the exhaust gas is lowered by heating so as to maintain the temperature at or above the sulfur condensation temperature of the heat transfer plate.

The operation and effect of the air preheating apparatus for a coal-fired power plant according to the present embodiment will be described in detail as follows.

When the combustion air is to be supplied to the furnace 2 through the air preheater 1 for the coal-fired power plant according to the present embodiment, the combustion air sucked through the pump 4 and supplied to the inflow pipe 11 Air is branched into a plurality of moving paths in the heat exchange space through the branch pipe 13 and then discharged to the discharge pipe 12 so that the main combustion air is supplied through the bottom of the furnace 2, (2).

At this time, a plurality of contact portions 131 constituting the branch pipe 13 are heat exchanged with the exhaust gas while the combustion air moves in a staggered manner, heated to a high temperature and then discharged to the discharge pipe 12,

A part of the combustion gas discharged to the discharge pipe 12 is guided to the reflux pipe 6 by the guide piece 61 and then passes through the guide pipe 62 to the bottom surface of the branch pipe 13 Exchanged with the combustion air introduced into the inlet pipe 11 and mixed with the combustion air flowing into the inlet of the branch pipe 13 and then heated to a high temperature while passing through the heat exchange space again.

Accordingly, the heat exchange efficiency can be improved more stably by preventing the exhaust gas from being condensed by applying heat to the inlet side portion of the branch pipe 13 having the lowest temperature in the heat exchange space.

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the examples disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

1: Preheating device 10: Preheating body
11: inlet pipe 12: outlet pipe
13: branch pipe 131: contact portion
2: No 21: Exhaust
3: exhaust path 31: inlet
32: Outlet 4: Pump
5: Filtration device 6: Reflux pipe
61: guide piece 62: guide tube
621:

Claims (4)

A furnace 2 in which coal is burned so as to generate thermal power, a discharge path 3 through which the exhaust gas generated in the furnace 2 is discharged, an inlet port 3 through which the exhaust gas passes through the discharge path 3 And a preheating body (10) disposed in a heat exchange space having an outlet (32) for discharging the exhaust gas (31); The air preheating apparatus for a coal-fired power plant according to claim 1, wherein the preheating body (10)
In the preheating body 10,
(11) for supplying air from the outside and a discharge pipe (12) for supplying air to the furnace (2), and a plurality of branch pipes (13);
The branch pipes (13)
And a plurality of contact portions (131) partitioned in a direction parallel to the moving direction of the exhaust gas from the inlet (31) to the outlet (32);
In the preheating body 10 described above,
Is disposed at one side of the inlet (31) in the heat exchange space;
The inlet of the branch pipe (13)
(13) in a heat exchange space, the diaphragm (13) being disposed at a corner portion facing the diagonal direction with respect to the outlet of the branch tube (13);
Between the discharge pipe 12 and the inflow pipe 11,
A reflux pipe 6 communicating between the discharge pipe 12 and the inflow pipe 11 is provided to guide a part of the combustion air discharged to the discharge pipe 12 to the inflow pipe 11;
The reflux pipe (6)
Shaped pipe connecting the discharge pipe (12) and the inflow pipe (11);
In the discharge pipe 12,
An induction piece 61 for guiding the combustion air to the reflux pipe 6 side;
In the above-mentioned inflow pipe 11,
And another guide piece (61) for guiding the combustion air induced in the reflux pipe (6) to the branch pipe (13), respectively;
The guide piece (61)
Shaped in a shape of being bent inward and protruding inward from the inner surface of the discharge pipe (12) and the inflow pipe (11);
At the bottom bottom surface of the branch pipe 13,
A reflux pipe 6 connected to the discharge pipe 12 and a rectangular tube 62 connected to the reflux pipe 6 connected to the inlet pipe 11 are closely attached to each other;
The above-mentioned induction tube 62,
A protrusion 621 protruding into the branch pipe 13 is formed on the inlet side portion of the branch pipe 13 to keep the combustion air inside the branch pipe 13 at or above the sulfur condensation temperature of the heat transfer plate And the air is heated so as to be heated to a predetermined temperature. delete delete delete

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