JP2014159910A - Soot blower warming device and soot blower warming method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a soot blower warming device capable of surely preventing drain attack.SOLUTION: A soot blower warming device for warming a steam pipe in a soot blower, includes temperature measuring means for measuring a temperature in the steam pipe, pressure measuring means for measuring a pressure in the steam pipe, pipe warming means 22 for warming the steam pipe, and a control device 32 for controlling the pipe warming means. The control device includes a saturation temperature calculating portion 34 for calculating a saturation temperature (T) corresponding to the measured pressure (P) in the steam pipe, measured by the pressure measuring means, a temperature comparing portion 35 for comparing the measured temperature (T) in the steam pipe, measured by the temperature measuring means with the saturation temperature (Ts) calculated by the saturation temperature calculating portion, and a pipe warming control portion 36 for controlling the pipe warming means according to a result of the comparison by the temperature comparing portion.

Description

  The present disclosure relates to a soot blower warming device and a soot blower warming method for warming a soot blower steam pipe of a soot blower device.

A large amount of soot and ash come into the boiler along with the high-temperature combustion gas. If soot or ash adheres to the heat transfer surface of the boiler, the heat exchange efficiency of the boiler decreases. For this reason, it is necessary to periodically remove soot and ash adhering to the heat transfer surface of the boiler.
A soot blower device is used to remove deposits adhering to the heat transfer surface of the boiler. The soot blower device is a device having a soot blower and a steam pipe for supplying steam to the soot blower, and removing deposits by jetting steam from the soot blower.

  The steam injected from the soot blower is a high-pressure steam of 2 to 2.4 MPa. For this reason, when the temperature of the steam to be injected is low, a phenomenon called so-called drain attack occurs in which water droplets are mixed in the steam to be injected, and there is a risk of damaging the heat transfer surface of the boiler. In order to prevent such a drain attack, the conventional soot blower device includes a warming device that warms the steam pipe so that the temperature of the steam supplied to the soot blower becomes higher than the saturation temperature (Patent Document 1). ).

Japanese Patent Laid-Open No. 9-60852

  However, the saturation temperature changes according to the steam pressure. However, in Patent Document 1 described above, how to grasp and set the steam pressure is not specifically disclosed. If the saturation temperature is calculated based on the pressure value input by the worker, the saturation temperature is calculated based on the erroneous input value when the worker erroneously inputs the pressure value. Therefore, there is a concern that a drain attack may occur in some cases.

  At least one embodiment of the present invention has been made in view of the above-described conventional problems, and an object of the present invention is to provide a soot blower warming device and a soot blower warming method capable of reliably preventing a drain attack. Is to provide.

At least one embodiment of the present invention provides:
A soot blower warming device for warming the steam pipe in a soot blower apparatus having a soot blower for removing deposits attached to the boiler, and a steam pipe for supplying steam to the soot blower,
Temperature measuring means for measuring the temperature in the steam pipe;
Pressure measuring means for measuring the pressure in the steam pipe;
Warm pipe means for warming the steam pipe;
A control device for controlling the warm pipe means,
The controller is
A saturation temperature calculator that calculates a saturation temperature corresponding to the measured pressure in the steam pipe measured by the pressure measuring means;
A temperature comparison unit that compares the measured temperature in the steam pipe measured by the temperature measurement unit with the saturation temperature calculated by the saturation temperature calculation unit;
And a warm pipe control section for controlling the warm pipe means in accordance with a comparison result in the temperature comparison section.

  In the soot blower warming device, the control device that controls the warm pipe means compares the saturation temperature calculation unit that calculates the saturation temperature corresponding to the measured pressure in the steam pipe with the measured temperature in the steam pipe and the calculated saturation temperature. And a warm pipe control section for controlling the warm pipe means according to the comparison result, so that the steam pipe is warmed according to the saturation temperature corresponding to the measured pressure in the steam pipe. It is configured.

  According to the soot blower warming device configured as described above, since the steam pipe is warmed according to the saturation temperature corresponding to the measured pressure in the steam pipe, the operator does not need to input the pressure value, and the drain attack is performed. Can be reliably prevented.

In some embodiments, the control device further includes an injection lock unit that permits the injection of steam from the soot blower only when the temperature comparison unit determines that the measured temperature exceeds the saturation temperature. .
According to such a configuration, since the steam injection from the soot blower is allowed only when the measured temperature in the steam pipe exceeds the saturation temperature, the drain attack can be prevented more reliably.

Moreover, at least one embodiment of the present invention includes:
A soot blower warming method for warming the steam pipe of a soot blower apparatus having a soot blower for removing deposits attached to a boiler, and a steam pipe for supplying steam to the soot blower,
A temperature measuring step for measuring the temperature in the steam pipe;
A pressure measuring step for measuring the pressure in the steam pipe;
A warm pipe process for warming the steam pipe;
A control process for controlling the warm pipe process,
The control step includes
A saturation temperature calculating step for calculating a saturation temperature corresponding to the measured pressure in the steam pipe measured in the pressure measuring step;
A temperature comparison step of comparing the measured temperature in the steam pipe measured in the temperature measurement step with the saturation temperature calculated by the saturation temperature calculation unit;
A warm pipe control step of controlling the warm pipe step in accordance with a comparison result in the temperature comparison unit.

  In the soot blower warming method, the control process for controlling the warm pipe process compares the saturation temperature calculation process for calculating the saturation temperature corresponding to the measured pressure in the steam pipe with the measured temperature in the steam pipe and the calculated saturation temperature. And a warm pipe control process for controlling the warm pipe process according to the comparison result, so that the steam pipe is warmed according to the saturation temperature corresponding to the measured pressure in the steam pipe. It is configured.

  According to the soot blower warming method configured in this way, since the steam pipe is warmed according to the saturation temperature corresponding to the measured pressure in the steam pipe, there is no need for the operator to input the pressure value, and the drain attack Can be reliably prevented.

  According to at least one embodiment of the present invention, since the steam pipe is warmed according to the saturation temperature corresponding to the measured pressure in the steam pipe, the soot blower warming device and the soot blower warm that can reliably prevent the drain attack are provided. Can be provided.

It is a distribution diagram showing a schematic structure of a soot blower device concerning one embodiment. It is a block diagram for demonstrating the functional structure of a control apparatus.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the components described in this embodiment are not intended to limit the scope of the present invention, but are merely illustrative examples.

FIG. 1 is a system diagram showing a schematic configuration of a soot blower device 10 according to an embodiment.
The soot blower device 10 is a soot blower 17, 18, 19 for removing deposits attached to the boiler, a steam pipe 16 for supplying steam to the soot blower, and a soot blower warming apparatus for warming the steam pipe 16. 30 or the like.
The soot blower warming device 30 includes temperature measuring means for measuring the temperature in the steam pipe 16, pressure measuring means for measuring the pressure in the steam pipe 16, warm pipe means for warming the steam pipe 16, and warm pipe means. The control apparatus 32 which performs the process (control process) of controlling is provided.

As shown in FIG. 1, a steam source valve 12 is disposed upstream of the steam pipe 16, and by opening the steam source valve 12, steam is supplied from the steam supply source to the steam pipe 16. It has become. Further, a steam pressure adjusting valve 14 is disposed downstream of the steam source valve 12, and a plurality of soot blowers 17, 18, 19 are sequentially connected from the upstream to the downstream of the steam pressure adjusting valve 14. ing. A drain valve 20 is disposed further downstream of the soot blower 19 connected to the most downstream side. Further, a warming valve 22 is arranged in parallel with the drain valve 20.
The number of soot blowers to be installed is appropriately determined according to the size and shape of the boiler, and is not particularly limited.

Then, the steam is supplied to the steam pipe 16 by opening the steam source valve 12. The supplied steam is discharged from the drain pipe 24 by opening the warming valve 22. Thus, since the steam is continuously supplied to the steam pipe 16 by opening the warming valve 22 with the steam source valve 12 opened, the steam pipe 16 is warmed by the steam. . The open / close state of the warming valve 22 is controlled by a control signal transmitted from the control device 32. That is, the warming valve 22 constitutes a warm pipe control means in this embodiment.
In addition, although the vapor | steam supplied to the steam pipe 16 is cooled, it liquefies and becomes a drain, The drain collected in the steam pipe 16 is discharged | emitted outside by opening the drain valve 20. FIG.

  A pressure gauge 26 is disposed between the steam pressure adjusting valve 14 and the soot blower 17 as pressure measuring means for measuring the pressure in the steam pipe 16. A thermometer 28 as a temperature measuring means for measuring the temperature in the steam pipe 16 is disposed between the soot blower 19 and the drain valve 20 (warming valve 22). The measurement pressure (P) and the measurement temperature (T) measured by the pressure gauge 26 and the thermometer 28 are respectively input to the control device 32 of the soot blower warming device 30.

FIG. 2 is a block diagram for explaining a functional configuration of the control device 32.
As shown in FIG. 2, the control device 32 of the present embodiment includes a saturation temperature calculation unit 34, a temperature comparison unit 35, and a warm pipe control unit 36.

The saturation temperature calculation unit 34 is configured to execute a step of calculating a saturation temperature (Ts) corresponding to the measurement pressure (P) measured by the pressure gauge 26 described above (saturation temperature calculation step).
The temperature comparison unit 35 performs a step (temperature comparison step) of comparing the measured temperature (T) measured by the thermometer 28 and the saturation temperature (Ts) calculated by the saturation temperature calculation unit 34. It is configured. The comparison result is output to the warm pipe control unit 36.
The warm pipe control unit 36 transmits a control signal to the above-described warming valve 22 according to the comparison result in the temperature comparison unit 35, and controls the open / close state thereof, thereby performing a warm pipe process for warming the steam pipe 16. It is comprised so that the process (warm pipe control process) to control may be performed.

  In the soot blower warming device 30, the step of measuring the pressure in the steam pipe 16 with the pressure gauge 26 described above (pressure measurement process) and the step of measuring the temperature in the steam pipe 16 with the thermometer 28 (temperature measurement process). Each is executed, and the measured measurement pressure (P) and measurement temperature (T) are input to the control device 32. Then, the saturation temperature calculation unit 34 calculates a saturation temperature (Ts) corresponding to the measurement pressure (P), and the temperature comparison unit 35 compares the measurement temperature (T) with the saturation temperature (Ts). The warm pipe control unit 36 performs control so that the warming valve 22 is opened at least until the measured temperature (T) exceeds the saturation temperature (Ts) according to the comparison result. When the measured temperature (T) exceeds the saturation temperature (Ts), the warming valve 22 is controlled to be closed, assuming that the warm pipe is completed.

  According to the soot blower warming device 30 configured as described above, since the steam pipe 16 is warmed according to the saturation temperature (Ts) corresponding to the measured pressure (P) in the steam pipe 16, the conventional soot blower warm is provided. Unlike the ming device 30, an operator does not need to input a pressure value. For this reason, a drain attack can be reliably prevented.

  In some embodiments, the control device 32 further includes an injection lock 37 as shown in FIG. The injection lock unit 37 is configured to allow the injection of steam from the soot blowers 17, 18, and 19 only when the temperature comparison unit 35 determines that the measured temperature (T) exceeds the saturation temperature (Ts). Has been.

  Specifically, when the temperature comparison unit 35 determines that the measured temperature (T) exceeds the saturation temperature (Ts), the injection lock OFF signal is output from the injection lock unit 37 to the soot blowers 17, 18, and 19. The soot blowers 17, 18, and 19 are always in an injection lock state where steam cannot be injected, but upon receiving an injection lock OFF signal, the injection lock state is released and the steam is in a lock OFF state where steam can be injected. . And in this lock OFF state, when an operator operates soot blower 17,18,19, it is comprised so that a vapor | steam may be injected from each soot blower.

  According to such a configuration, since the steam injection from the soot blowers 17, 18, and 19 is allowed only when the measured temperature (T) in the steam pipe 16 exceeds the saturation temperature (Ts), more reliably. A drain attack can be prevented.

  As described above, according to at least one embodiment of the present invention, since the steam pipe 16 is warmed according to the saturation temperature (Ts) corresponding to the measured pressure in the steam pipe 16, a drain attack is reliably prevented. A soot blower warming device 30 and a soot blower warming method that can be provided can be provided.

  As mentioned above, although embodiment of this invention was described in detail, it cannot be overemphasized that this invention is not limited to this, In the range which does not deviate from the summary of this invention, various improvement and deformation | transformation may be performed.

  A soot blower warming device and a soot blower warming method according to at least one embodiment of the present invention are preferably used in a soot blower device for removing deposits attached to a boiler in a thermal power plant, an incineration plant, or the like.

DESCRIPTION OF SYMBOLS 10 Soot blower apparatus 12 Steam source valve 14 Steam pressure regulating valve 16 Steam pipe 17-19 Soot blower 20 Drain valve 22 Warming valve 24 Drain pipe 26 Pressure gauge 28 Thermometer 30 Soot blower warming apparatus 32 Control apparatus 34 Saturation temperature calculation part 35 Temperature Comparison unit 36 Warm pipe control unit 37 Injection lock unit

Claims (3)

A soot blower warming device for warming the steam pipe in a soot blower apparatus having a soot blower for removing deposits attached to the boiler, and a steam pipe for supplying steam to the soot blower,
Temperature measuring means for measuring the temperature in the steam pipe;
Pressure measuring means for measuring the pressure in the steam pipe;
Warm pipe means for warming the steam pipe;
A control device for controlling the warm pipe means,
The controller is
A saturation temperature calculator that calculates a saturation temperature corresponding to the measured pressure in the steam pipe measured by the pressure measuring means;
A temperature comparison unit that compares the measured temperature in the steam pipe measured by the temperature measurement unit with the saturation temperature calculated by the saturation temperature calculation unit;
A soot blower warming device, comprising: a warm pipe control unit that controls the warm pipe means in accordance with a comparison result in the temperature comparison unit.   The control device further includes an injection lock unit that permits the injection of steam from the soot blower only when the temperature comparison unit determines that the measured temperature exceeds the saturation temperature. The soot blower warming device according to 1. A soot blower warming method for warming the steam pipe of a soot blower apparatus having a soot blower for removing deposits attached to a boiler, and a steam pipe for supplying steam to the soot blower,
A temperature measuring step for measuring the temperature in the steam pipe;
A pressure measuring step for measuring the pressure in the steam pipe;
A warm pipe process for warming the steam pipe;
A control process for controlling the warm pipe process,
The control step includes
A saturation temperature calculating step for calculating a saturation temperature corresponding to the measured pressure in the steam pipe measured in the pressure measuring step;
A temperature comparison step of comparing the measured temperature in the steam pipe measured in the temperature measurement step with the saturation temperature calculated by the saturation temperature calculation unit;
A soot blower warming method, comprising: a warm pipe control step for controlling the warm pipe step according to a comparison result in the temperature comparison unit.