KR101977471B1 - Apparatus and method for controlling temperature of air preheater cold side - Google Patents

Abstract

The present invention relates to an apparatus and method for controlling the temperature of the cold end of an air preheater by automatically controlling the supply of steam to the acid dew point varying according to various combustion environments, An air temperature measuring unit for measuring the temperature of the air introduced into the air preheater after being preheated by the steam type air preheater, an air temperature measuring unit for measuring the temperature of the air introduced into the air preheater, An input unit for inputting an operation mode in a manual mode or an automatic mode, a receiver for receiving information on the measured acid dew point, the measured air temperature, and the measured exhaust gas temperature, An operation unit that receives the input information and calculates a cold end operating temperature of the air preheater, Compared to the cold end of the set temperature obtained according to the calculated operating temperature and the cold end of the operating mode and a controller that controls the opening and closing operation of the steam supply valve provided in the steam type air preheater.

Description

TECHNICAL FIELD [0001] The present invention relates to an air preheater, and more particularly,

The present invention relates to an air preheater, and more particularly, to an air preheater which heats combustion air using waste heat in the exhaust gas discharged from a power generating boiler, and controls the temperature of the cold end of the air preheater, The present invention relates to an apparatus and a method for automatically adjusting an object.

Generally, the air preheater uses the waste heat in the exhaust gas discharged from the power generation boiler to heat the combustion air and supply the heated air to the power generation boiler. Thus, by utilizing waste heat of the exhaust gas in a useful manner, Thereby improving the efficiency.

Meanwhile, in such an air preheater, the sulfur trioxide (SO ₃ ) and water (H ₂ O) contained in the exhaust gas generated by combustion of the fuel including sulfur such as coal and heavy oil are oxidized at the cold end of the air preheater H ₂ SO ₄ ), there was a problem of being exposed to the corrosive environment.

In order to solve this problem, in the prior art, as disclosed in Korean Patent Publication No. 10-0511653 and No. 10-0946148, by changing the material of the component in terms of material or improving the corrosion resistance through surface treatment such as coating, Thereby preventing corrosion.

However, the above-mentioned technology is limited to the hardware aspect of the air preheater, and it is difficult to apply it to the acid dew point which varies depending on various combustion environments such as the load of the power generation boiler, the operation time, there was. The acid dew point here refers to the temperature at which sulfur trioxide (SO ₃ ) and water (H ₂ O) contained in the exhaust gas start to condense into sulfuric acid (H ₂ SO ₄ ).

Therefore, it is necessary to develop a technology that can prevent corrosion of the air preheater according to the acid dew which changes depending on various combustion environments in terms of the software of the air preheater.

The matters described in the background art are intended to aid understanding of the background of the invention and may include matters which are not known to the person of ordinary skill in the art.

Korean Patent Registration No. 10-0511653

In order to solve the above problems, it is an object of the present invention to provide an apparatus and method for controlling the temperature of a cold end of an air preheater by automatically controlling the supply of steam in accordance with acid dew points varying according to various combustion environments.

According to another aspect of the present invention, there is provided an apparatus for controlling the temperature of a cold end of an air preheater, the apparatus comprising: an acid dew point measuring unit for measuring an acid dew point of the exhaust gas discharged from a power generating boiler, An air temperature measuring unit for measuring the temperature of the air introduced into the air preheater after preheating in the air preheater, an exhaust gas temperature measuring unit for measuring the temperature of the exhaust gas after heat exchange with the air in the air preheater, An operation unit for receiving the input information and calculating a cold end operating temperature of the air preheater, and a control unit for receiving the input information, The calculated cold end operating temperature is compared with the cold end set temperature obtained according to the operating mode, And a control unit for controlling opening and closing operations of the steam supply valve.

The cold end operating temperature is an average value of the measured air temperature and the measured exhaust gas temperature.

In addition, when the operation mode is the manual mode, the cold end set temperature is a value previously set and input to the input unit.

Further, when the operation mode is the automatic mode, the cold end set temperature is calculated by the operation unit.

The cold end set point temperature is a value obtained by adding the bias value to the selected value among the maximum value, the minimum value, the intermediate value, and the average value of the measured acid dew point.

Further, the control unit determines whether or not the cold end set temperature calculated by the calculating unit is within a predetermined range.

When the calculated cold end set temperature exceeds a predetermined maximum value, the maximum value preset in the input unit is set to the cold end set temperature. If the calculated cold end set temperature is less than the set minimum value, And the set temperature is compared with the obtained cold end operating temperature according to the operation mode.

Further, the control unit controls the opening and closing operation of the steam supply valve so that the cold end operating temperature and the cold end set temperature become the same.

The control unit may open the steam supply valve when the cold end operating temperature is lower than the cold end set temperature.

In another embodiment of the present invention, the method for controlling the temperature of the cold end of the air preheater includes measuring the acid dew point of the exhaust gas flowing into the air preheater after being discharged from the power generating boiler, measuring the air dew point of the air preheated by the steam preheater, Measuring the temperature of the air preheater, measuring the temperature of the exhaust gas after heat exchange with air in the air preheater, receiving information on the acid dew point, the air temperature and the exhaust gas temperature, receiving the received information, Calculating a cold end operating temperature, receiving an operating mode in a manual mode or an automatic mode, obtaining a cold end set temperature of the air preheater in accordance with the operating mode, calculating the calculated cold end operating temperature and the obtained cold end setting And controlling the opening and closing operations of the steam supply valve provided in the steam type air preheater by comparing the temperatures.

Further, in the step of calculating the cold end operating temperature, the cold end operating temperature is an average value of the measured air temperature and the measured exhaust gas temperature.

In addition, when the operation mode input in the step of receiving the operation mode is the manual mode, in the step of acquiring the cold end set temperature, the cold end set temperature is a preset input value.

The step of acquiring the cold end set temperature when the operation mode input in the step of receiving the operation mode is the automatic mode includes the steps of calculating the maximum value, the minimum value, the intermediate value and the average value of the measured acid dew point, And adding the bias value to the selected value.

Further, the method may further include a step of, after the step of summing the bias value with the selected value, determining whether the calculated cold end set temperature is within a predetermined range.

If the calculated cold end set temperature exceeds the preset maximum value, the maximum value previously set in the input unit is set to the cold end set temperature. If the calculated cold end set temperature is less than the set minimum value, Temperature is set to be compared with the cold end operating temperature.

The step of controlling the opening / closing operation of the steam supply valve controls the opening / closing operation of the steam supply valve so that the cold end operating temperature and the cold end set temperature become the same.

When the cold end operating temperature is lower than the cold end set temperature, the steam supply valve is opened.

The present invention automatically controls the supply of steam to the acid dew point varying according to various combustion environments, thereby providing ease of operation and controlling the temperature of the cold end of the air preheater, whereby sulfur trioxide (SO ₃ ) and It is possible to minimize the condensation of water (H ₂ O) into sulfuric acid (H ₂ SO ₄ ), thereby preventing the cold end of the air preheater from being corroded.

In addition, there is an effect of improving the efficiency of the power generation boiler by reducing the loss of tobacco gas, which occupies a large portion of the loss of the power generation boiler, and the steam consumption amount of the steam preheater.

1 is a schematic diagram of an apparatus for controlling the temperature of a cold end of an air preheater according to the present invention.
FIG. 2 is a flowchart of a method for adjusting the temperature of a cold end of an air preheater according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings in order to fully understand the present invention. 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. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that the same components are denoted by the same reference numerals in the drawings. Detailed descriptions of well-known functions and constructions which may be unnecessarily obscured by the gist of the present invention are omitted.

FIG. 1 is a schematic view showing an apparatus for controlling the temperature of a cold end of an air preheater according to an embodiment of the present invention. As shown in FIG. 1, the present invention utilizes waste heat of exhaust gas discharged from a power generating boiler 100, The present invention relates to a device for adjusting the temperature of a cold end of an air preheater 200 for preheating a preheated air in a preheater 300, and will be described in more detail below.

1, the cold end temperature controller of the air preheater 200 of the present invention includes a dew point measuring unit 410, an air temperature measuring unit 420, an exhaust gas temperature measuring unit 430, an input unit 440, a receiving unit 450, An arithmetic unit 460, and a control unit 470.

The acid dew point measuring unit 410 is for measuring the acid dew point T 1 of the exhaust gas flowing into the air preheater 200 after being discharged from the power generating boiler 100 and is formed in the air preheater 200 And it is preferably located on the exhaust gas inlet side.

Here, the acid dew point T1 is a temperature at which sulfur trioxide (SO ₃ ) and water (H ₂ O) contained in the exhaust gas start to condense into sulfuric acid (H ₂ SO ₄ ) Time, the type of fuel used, the sulfur contained in the fuel, and the moisture contained in the exhaust gas, and the acid dew point measuring unit 410 can measure this.

The air temperature measuring unit 420 is for measuring the temperature T2 of air introduced into the air preheater 200 after the first preheating in the vapor type air preheater 300. In the air preheater 200, And is preferably located on the air inlet side.

The exhaust gas temperature measuring unit 430 measures the temperature T3 of the exhaust gas discharged from the air preheater 200 after the heat is exchanged in the air preheater 200 with the air preheated in the steam preheater 300 And is preferably located on the exhaust gas outlet side formed in the air preheater 200 as shown in Fig.

The air dew measuring unit 410, the air temperature measuring unit 420, and the exhaust gas temperature measuring unit 430 are installed with at least one measuring instrument to increase the accuracy of the measurement, T1, T2, and T3 are transmitted to the receiver 450 through a signal as shown in FIG.

The input unit 440 receives information from the user. The input unit 440 receives information on the operation mode selected by the user from the manual mode and the automatic mode as one of the information. The air preheater 200, The method of acquiring the cold end set temperature SV of the refrigerant is different.

As described above, the receiving unit 450 receives the acid dew point T1 measured by the acid dew point measuring unit 410, the air temperature T2 measured by the air temperature measuring unit 420, and the air temperature measured by the exhaust gas temperature measuring unit 430 And receives the information on the measured exhaust gas temperature T3, and transfers the received information to the operation unit 460. [

The operation unit 460 receives the information on the temperatures T1, T2 and T3 from the receiving unit 450 and calculates the cold end operating temperature PV of the air preheater 200 based on the received information. More specifically, The cold end operating temperature (PV) is calculated by obtaining an average value of the air temperature (T2) and the exhaust gas temperature (T3). The cold end operating temperature PV thus calculated is transmitted to the controller 470 as shown in FIG.

The control unit 470 compares the cold end operating temperature PV calculated from the calculating unit 460 with the cold end set point SV obtained differently according to the operating mode selected from the manual mode or the automatic mode, The control of the opening and closing operation of the steam supply valve 310 provided in the air preheater 300 is controlled by controlling the temperature of the cold end of the air preheater 200 by supplying or blocking the steam.

More specifically, when the cold end operating temperature PV is lower than the cold end set point SV, the control unit 470 opens the steam supply valve 310 to supply the steam, The temperature of the cold end of the air preheater 200 is automatically adjusted by closing the steam supply valve 310 to shut off the steam supply when the temperature of the air is lower than the set temperature of the cold end SV, Finally, control is performed so that the cold end set temperature (SV) and the cold end operating temperature (PV) become equal.

Hereinafter, the cold end set point SV obtained differently according to the operation mode will be described in detail.

First, when the operation mode input to the input unit 440 is the manual mode, the value set by the user directly and set in the input unit 440 is applied to the cold end set temperature SV.

On the other hand, when the operation mode inputted to the input unit 440 is the automatic mode, the cold end set temperature SV is calculated by the operation unit 460, and the calculation method is as follows.

The arithmetic unit 460 calculates a maximum value, a minimum value, an intermediate value, and an average value of the acid dew point T1 based on information on at least one acid dew point T1 received from the receiving unit 450, And a bias value for correction is added to the selected value among the values to calculate the cold end set temperature SV.

The selection of the maximum value, the minimum value, the median value, and the average value of the acid dew point T1 is performed based on information input by the user to the input unit 440, It is preferable that the value input to the input unit 440 is directly applied.

In other words, the cold end set point SV is obtained through the value set by the user if the operation mode is the manual mode. If the operation mode is the automatic mode, the cold end set point T1 and the operation unit 460).

Meanwhile, the control unit 470 prevents a malfunction that may occur when the operation mode is in the automatic mode, and controls the cold end set temperature SV calculated by the operation unit 460 to be stably controlled, It is determined whether or not the cold end set point SV is within a preset range before comparing with the PV.

Therefore, if the cold end set temperature SV is within the predetermined range, it is used as it is and compared with the cold end operating temperature PV.

However, if the cold end set point SV is not within the preset range and exceeds the maximum value or is less than the minimum value, it is not used as it is.

More specifically, if the cold end set point SV exceeds the maximum value, the maximum value is set to the cold end set point SV, and if the cold end set point SV is less than the minimum value, the cold end set point SV is set, Compare with temperature (PV).

Here, the maximum value and the minimum value are preferably set by the user and applied to the input unit 440.

Therefore, even if the cold end set point SV is erroneously calculated due to a failure or a wrong instruction of the acid dew point measuring unit 410, the operation control can be performed within a stable range.

FIG. 2 is a flowchart showing a method of adjusting a cold end temperature of the air preheater 200 according to a cold end temperature adjusting device of the air preheater 200 of the present invention.

As shown in the figure, the method of controlling the temperature of the cold end of the air preheater of the present invention is a method of adjusting the temperature of the cold end of the air preheater, such as the acid dew point T1 of the exhaust gas flowing into the air preheater 200 after being discharged from the power generating boiler 100, The temperature T2 of the air flowing into the air preheater 200 and the temperature T3 of the exhaust gas discharged after heat exchange with the air in the air preheater 200 are measured, (S200) of receiving the received information and calculating a cold end operating temperature (PV) of the air preheater (200), a manual mode or a manual mode (S400) of obtaining the cold end set temperature (SV) of the air preheater (200) according to the inputted operation mode (S400), and calculating the calculated cold end operating temperature (PV) And the obtained cold end set point SV is compared with the steam amount set in the steam preheater 300 And controlling the opening and closing operations of the gas supply valve 310 (S500).

In the step S200, the cold end operating temperature PV is preferably an average value of the air temperature T2 and the exhaust gas temperature T3 as shown in FIG.

If the operation mode inputted in the step S300 is the manual mode, the step S400 obtains the cold end set point SV by receiving the value directly set by the user.

On the other hand, if the operation mode input in step S300 is the automatic mode, the step S400 calculates the maximum value, the minimum value, the median value and the average value of the acid dew point T1 (step S410) (S420), and adding a bias value to the selected value (S430), thereby calculating and obtaining the cold end set temperature (SV).

At this time, it is preferable that the value selected in step S410 is based on the information input by the user, and the bias value is directly applied by the user.

Meanwhile, it is preferable that the step S440 of determining whether the cold end set point SV calculated after the step S430 is within a preset range is further performed.

Therefore, if the cold end set point SV is within the predetermined range, it is used as it is and compared with the cold end operating temperature PV in step S500.

However, if the cold end set point SV is not within the preset range and exceeds the maximum value or is less than the minimum value, it is not used as it is.

More specifically, the maximum value is set to the cold end set temperature (SV) when the cold end set temperature (SV) exceeds the maximum value, and the minimum value is set to the cold end set temperature (SV) S500) with the cold end operating temperature (PV).

The maximum value and the minimum value are preferably set by a user directly.

If the cold end operating temperature PV is lower than the cold end set point SV in step S500, the steam supply valve 310 is opened to supply the steam and the cold end operating temperature PV The steam supply valve 310 is closed to shut off the steam supply so that the cooler end operation temperature PV and the cold end set temperature SV become equal to each other by the air preheater 200 is automatically adjusted.

The embodiments of the apparatus and method for controlling the temperature of the cold end of the air preheater according to the present invention are only preferred embodiments to enable a person skilled in the art to easily carry out the present invention. And the scope of the present invention is not limited by the drawings. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It will be apparent to those skilled in the art that various substitutions, modifications and variations are possible within the scope of the present invention, and it is obvious that the parts easily changeable by those skilled in the art are included in the scope of the present invention .

100: Power generation boiler
200: air preheater
300: Steam air preheater
310: Steam supply valve
410: Sodium dew point measuring section
420: air temperature measuring section
430: Exhaust gas temperature measuring section
440: Input section
450:
460:
470:
T1: San ding
T2: air temperature
T3: Exhaust gas temperature
PV: Cold end operating temperature
SV: Cold end setting temperature

Claims (21)

An acid dew point measuring unit for measuring the acid dew point of the exhaust gas discharged from the power generation boiler and then introduced into the air preheater;
An air temperature measuring unit for measuring a temperature of air preheated in the steam preheater and then introduced into the air preheater;
An exhaust gas temperature measuring unit for measuring the temperature of the exhaust gas after heat exchange with air in the air preheater;
An input unit for receiving an operation mode in a manual mode or an automatic mode;
A receiving unit for receiving information on the measured acid dew point, the measured air temperature, and the measured exhaust gas temperature;
An operation unit that receives the input information and calculates a cold end operating temperature of the air preheater; And
And a control unit for controlling the opening and closing operations of the steam supply valve provided in the steam type air preheater by comparing the calculated cold end operating temperature with the cold end set temperature obtained according to the operation mode,
Wherein when the operation mode is the automatic mode, the cold end set temperature which is a value obtained by adding the bias value to the selected value among the maximum value, the minimum value, the minimum value, the intermediate value and the average value of the measured acid dew point is calculated by the operation unit Temperature control device for the cold end of the air preheater. The method according to claim 1,
Wherein the cold end operating temperature is an average value of the measured air temperature and the measured exhaust gas temperature. The method according to claim 1,
Wherein when the operation mode is the manual mode, the cold end set temperature is a value previously set and input to the input unit. delete delete The method according to claim 1,
Wherein the controller determines whether the cold end set temperature calculated by the calculating unit is within a predetermined range. The method according to claim 6,
And sets the maximum value previously set in the input unit to the cold end set temperature if the calculated cold end set temperature exceeds a predetermined maximum value and if the calculated cold end set temperature is less than the set minimum value, Wherein the end temperature is set to a set end temperature and is compared with a cold end operating temperature obtained according to the operation mode. The method according to claim 1,
Wherein the control unit controls the opening / closing operation of the steam supply valve so that the cold end operating temperature and the cold end set temperature become equal to each other. 9. The method of claim 8,
Wherein the control unit opens the steam supply valve when the cold end operating temperature is lower than the cold end set temperature. A cold end operating temperature of the air preheater is calculated by obtaining an average value of the temperature of the air preheated in the steam preheater and then introduced into the air preheater and the temperature of the exhaust gas discharged after heat exchange with air in the air preheater,
A cold end set temperature of the air preheater is calculated by adding a bias value to a selected value among a maximum value, a minimum value, a middle value, and an average value of the acid dew point of the exhaust gas flowing into the air preheater after being discharged from the power generating boiler,
Wherein when the cold end operating temperature is lower than the cold end set temperature, the steam preheater provided in the steam preheater is opened, by comparing the cold end operating temperature and the cold end set temperature, Cold end temperature controller. 11. The method of claim 10,
When the cold end set temperature does not exist within the preset range and exceeds the set maximum value, the maximum value is set to the cold end set temperature and is compared with the cold end operating temperature when the maximum value is less than the set minimum value Characterized by a cold end temperature controller of the air preheater. Measuring the acid dew point of the exhaust gas flowing into the air preheater after being discharged from the power generating boiler, measuring the temperature of the air introduced into the air preheater after being preheated by the steam preheater, Measuring the temperature of the exhaust gas discharged after the exhaust gas temperature, and receiving information on the acid dew point, the air temperature, and the exhaust gas temperature;
Calculating a cold end operating temperature of the air preheater by receiving the received information;
Receiving an operation mode that is a manual mode or an automatic mode;
Obtaining a cold end set temperature of the air preheater according to the operation mode;
And controlling the opening and closing operations of the steam supply valve included in the steam type air preheater by comparing the calculated cold end operating temperature with the obtained cold end set temperature,
When the operation mode inputted in the step of receiving the operation mode is the automatic mode,
Wherein the step of acquiring the cold end set temperature comprises:
Calculating a maximum value, a minimum value, an intermediate value, and an average value of the measured acid dew point;
Selecting one of the calculated values; And
And adding the bias value to the selected value. ≪ Desc / Clms Page number 21 > 13. The method of claim 12,
In the step of calculating the cold end operating temperature,
Wherein the cold end operating temperature is an average value of the measured air temperature and the measured exhaust gas temperature. 13. The method of claim 12,
When the operation mode inputted in the step of receiving the operation mode is the manual mode,
In the step of acquiring the cold end set temperature,
Wherein the cold end set temperature is a pre-set value. delete 13. The method of claim 12,
After adding the bias value to the selected value,
Further comprising the step of determining whether the calculated cold end set temperature is within a predetermined range. 17. The method of claim 16,
If the calculated cold end set temperature exceeds the predetermined maximum value, the maximum value preset in the input unit is set to the cold end set temperature. If the calculated cold end set temperature is less than the set minimum value, The temperature of the cold end of the air preheater is compared with the cold end operating temperature. 13. The method of claim 12,
Wherein controlling the opening and closing operations of the steam supply valve comprises:
Wherein the opening / closing operation of the steam supply valve is controlled so that the cold end operating temperature and the cold end set temperature become equal to each other. 19. The method of claim 18,
Wherein the steam supply valve is opened when the cold end operating temperature is lower than the cold end set temperature. A cold end operating temperature of the air preheater is calculated by obtaining an average value of the temperature of the air preheated in the steam preheater and then introduced into the air preheater and the temperature of the exhaust gas discharged after heat exchange with air in the air preheater,
A cold end set temperature of the air preheater is calculated by adding a bias value to a selected value among a maximum value, a minimum value, a middle value, and an average value of the acid dew point of the exhaust gas flowing into the air preheater after being discharged from the power generating boiler,
Wherein when the cold end operating temperature is lower than the cold end set temperature, the steam preheater provided in the steam preheater is opened, by comparing the cold end operating temperature and the cold end set temperature, Method of adjusting the temperature of the cold end. 21. The method of claim 20,
When the cold end set temperature does not exist within the preset range and exceeds the set maximum value, the maximum value is set to the cold end set temperature and is compared with the cold end operating temperature when the maximum value is less than the set minimum value A method for controlling the temperature of a cold end of an air preheater.

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