KR100958240B1 - Clinker drop detection device - Google Patents

Abstract

According to the present invention, a coal-fired boiler is provided to vaporize water in a pipe tube installed by burning and supplying pulverized coal and air in the furnace; A water tank connected to a lower end of the boiler and having an outlet for transporting a clinker falling from the boiler to the lower side with water; A flow path portion communicating with the outlet of the water tank, a cylinder device installed to open and close the outlet on one side of the flow path part, and selectively flowing in and out of the clinker, and crushing the clinker installed on the other side of the flow path part Grinding discharge device is provided with a grinder; And a pressure sensor for detecting the upper and lower pressure changes in the boiler furnace, a water temperature sensor for detecting the water temperature of the tank, a water level sensor for detecting the water level of the tank, and operation according to the load of the grinder. Clinker drop detection apparatus is provided, comprising; a data collection device having a current sensor for detecting a current.

According to this, by analyzing the pressure, water temperature, water level and the supply current value of the grinder in the furnace, it is possible to quickly and accurately determine the cause of the pressure change in the boiler furnace due to the clinker falling, thereby improving the operation reliability of the generator.

Clinker Drop Detector, Sensor

Description

Clinker drop detection device

The present invention relates to a clinker drop detection device, and more particularly to a clinker drop detection device that can determine in real time the cause of the fall of the clinker among the causes of fluctuations in the boiler internal pressure of the coal-fired power plant.

In recent years, as the development speed of the industry accelerates, the demand for electric power rapidly increases, and thus, there is an urgent need for improving electric quality and supplying stable electric power.

To this end, various power plants such as hydroelectric power plants, thermal power plants, nuclear power plants, wind power plants, and solar thermal power plants are being constructed to generate electricity. Among them, the 500 MW coal-fired power plant, which plays a pivotal role in power generation, Stable operation is very important.

Such a thermal power plant is supplied with finely powdered coal, pulverized coal, with air to combust in a boiler, and by generating steam in a pipe tube piped in a boiler, it is possible to generate electricity by rotating a turbine. It is provided with a coal pulverizer which is pulverized into finely divided pulverized coal and supplied through a fuel supply pipe, a blower for supplying air through a transfer pipe, and a boiler for receiving and burning a mixture of pulverized coal and air transferred through the transfer pipe. Ash, which is generated by the combustion of pulverized coal, is transferred through a transfer pipe to be collected and solidified and discharged.

However, the ash generated during combustion is not completely discharged to the boiler outlet together with the combustion gas, and a part of the ash is melted by the high temperature inside the boiler and solidified and attached to the furnace wall or the pipe tube. In addition, the solidified ash grows over time to produce a clinker (Clinker), and as the clinker is grown to a weight greater than the adhesive force is dropped to the water tank of the lower boiler by its own weight. Dropped clinkers increase the pressure inside the boiler, which is controlled by a constant pressure (-12 mmH ₂ O). The generator should be stopped to prevent boiler deformation if the pressure rises.

However, in the related art, a device capable of measuring the fall of such a clinker is absent, and a considerable amount of time is required for cause analysis, and the situation has a great problem for stable operation by stopping the power generation equipment by estimation.

The present invention has been made to solve the above problems, an object of the present invention is to provide a clinker drop detection device that can determine in real time the presence or absence of the clinker to the boiler furnace interior of the coal-fired power plant.

In order to achieve the above object, a clinker drop detection apparatus according to an aspect of the present invention, a coal-fired boiler for steaming the water in the pipe tube is installed by inserting and burning the pulverized coal and air in the furnace; A water tank connected to a lower end of the boiler and having an outlet for transporting a clinker falling from the boiler to the lower side with water; A flow path portion communicating with the outlet of the water tank, a cylinder device installed to open and close the outlet on one side of the flow path part, and selectively flowing in and out of the clinker, and crushing the clinker installed on the other side of the flow path part Grinding discharge device is provided with a grinder; And a pressure sensor for detecting the upper and lower pressure changes in the boiler furnace, a water temperature sensor for detecting the water temperature of the tank, a water level sensor for detecting the water level of the tank, and operation according to the load of the grinder. And a data collection device having a current sensor for detecting a current.

Here, the present invention preferably further includes a display device which is configured to output the data detected by the sensors of the data collection device to check in real time the occurrence of the fall of the clinker.

As described above, according to the clinker drop detection apparatus according to the present invention, by analyzing the pressure, water temperature, water level and the supply current value of the grinder in the furnace, it is possible to quickly and accurately determine the cause of the pressure change in the boiler furnace due to the clinker dropping generator The operation reliability of the can be improved.

Hereinafter, with reference to the accompanying drawings looks at in detail with respect to the clinker fall detection apparatus according to an embodiment of the present invention.

Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

1 is a schematic view showing a 500 MW class coal-fired power plant according to an embodiment of the present invention, Figure 2 is a schematic view showing an enlarged clinker drop detection apparatus of FIG.

As shown in the figure, the 500 MW-class coal-fired power plant 100 according to an embodiment of the present invention is a coal-fired boiler 110 and the coal, which is provided with a pipe tube 115 inside the furnace 111, coal Coal pulverized powder 120 is provided to be pulverized into fine coal and supplied into the furnace 111 through the fuel supply pipe 121, and air is sucked through the transfer pipe 131 to the inside of the furnace 111. The suction blower 130 is supplied, the water tank 140 is installed at the lower end of the boiler 110, the grinding discharge device 150 is installed to crush and discharge the clinker (C) on the lower side of the water tank 140. ), A data collecting device 160 for detecting whether the clinker C falls, a dust collector 170 for collecting ash from the burned exhaust gas, and an exhaust blower 180 for exhausting the burned gas to the atmosphere. And a chimney 190 is configured.

The boiler 110 receives and combusts pulverized coal and air transferred through the fuel supply pipe 121 and the transfer pipe 131, and vaporizes water in the inserted pipe tube 115 to operate a turbine (not shown). Done.

The water tank 140 has an outlet 140a for selectively transporting the clinker C falling from the boiler 110 together with water.

The grinding discharge device 150 is installed to open and close the flow path portion 151 communicated with the lower outlet 140a side of the water tank 140, and the outlet 140a inside one side of the flow path portion 151. A grinder for crushing the clinker (C) which is installed in the other side inside the flow path unit 151 and the cylinder device 153 for selectively flowing in and out the clinker (C) supplied from the outlet (140a) ( 155).

The data collecting device 160 is a pressure sensor 161 for detecting the upper and lower pressure changes in the furnace 110, the furnace 111, and a water temperature sensor for detecting the water temperature of the water tank 140 ( 163, a water level sensor 165 for detecting the water level of the water tank 140, and a current sensor 167 for detecting an operating current according to the load of the grinder 135.

Here, the pressure sensor 161 is increased in the pressure of the lower portion of the furnace 111 when the clinker (C) fall occurs in a situation where the lower portion of the furnace (111) is maintained at a constant pressure, wherein at least the furnace ( 111) A pair is installed on each of the upper and lower parts of the interior. In addition, the water temperature sensor 163 and the water level sensor 165 are respectively installed inside the water tank 140 to detect a sudden temperature and water level change of the water (W) by falling the clinker (C) in the water tank (140). In addition, the current sensor 167 from the grinder 155 to detect the increase in the current supply to the power supply panel (not shown) inside the grinder 155 in order to grind when the clinker (C) is introduced into the grinder 155 It is possible to confirm the operation of the (155).

In addition, the thermal power plant 100 compares the data detected by the sensors 161, 163, 165 and 167 of the data collection device 160 before and after the clinker fall occurs to generate a fall of the clinker (C). It further comprises a display device (not shown) provided to be able to check the presence or absence in real time.

Hereinafter, the clinker fall detection apparatus of the present invention configured as described above functions as follows.

When pulverized coal and air are supplied to the boiler 110 and the furnace 111 is burned, water flowing in the pipe tube 115 is vaporized to rotate the turbine.

Ash generated during the combustion in this process is not completely discharged with the combustion gas to the outlet of the boiler 110, and part of it is melted by the high temperature inside the boiler 110 to solidify the furnace 111 wall surface and the piping tube 115. It is attached, and as time passes, the clinker C is generated and falls into the water tank 140 under the boiler 110 by its own weight.

The dropped clinker C increases the internal pressure of the boiler 110 controlled by a constant pressure (-12 mmH ₂ O). When the pressure rises, the generator is stopped to prevent deformation of the boiler 110.

To this end, in the present invention, the data collection device 160 and the display device are used to check the fall of the clinker C in real time so that the generator can be stopped and restarted quickly. That is, when the clinker C falls into the water tank through the pressure sensor 161 of the data collecting device 160, the pressure difference generated in the upper and lower portions of the furnace 111 is sensed, and the water temperature sensor 163 and The water level sensor 165 detects the water level and the water temperature of the water tank 140 increased when the clinker C falls. In addition, through the current sensor 167 installed on one side of the grinder 155, the grinder 155 supply current is sensed in the process of crushing the clinker C flowing from the outlet 140a.

The collected pressure, water temperature, water level, and current values are input and output to the display device, which allows the user to quickly and accurately determine the cause of the clinker (C) drop among the causes of pressure change in the boiler furnace (111). The reliability of operation can be improved.

As described above, although the present invention has been described by way of limited embodiments and drawings, the present invention is not limited thereto, and it should be understood by those of ordinary skill in the art to which the present invention relates, Of course, various modifications and variations are possible within the scope of the equivalent.

1 is a schematic view showing a 500 MW-class coal-fired power plant according to an embodiment of the present invention,

FIG. 2 is an enlarged schematic view of the clinker drop detection apparatus of FIG. 1.

DESCRIPTION OF REFERENCE NUMERALS

100: thermal power plant 110: boiler

120: coal grinding machine 130: suction blower

140: water tank 150: grinding discharge device

160: data collection device 170: dust collector

180: exhaust blower 190: chimney

Claims (2)

A coal-fired boiler 110 for supplying and combusting pulverized coal and air in the furnace 111 to vaporize water in the inserted pipe tube 115; A water tank 140 connected to the lower end of the boiler 110 and having an outlet 140a for transferring the clinker C falling from the boiler 110 together with water to the lower side of the boiler 110; A flow path portion 151 installed in communication with the outlet 140a of the water tank 140, and is installed to open and close the outlet 140a on one side of the flow path portion 151 to selectively flow in and out of the clinker C. Grinding discharge device 150 is provided with a cylinder device 153, and a grinder 155 for crushing the clinker (C) is installed on the other side of the flow path unit 151; And Pressure sensor 161 for detecting the upper and lower pressure changes in the furnace 110 furnace 111, water temperature sensor 163 for detecting the water temperature of the water tank 140, and the water tank 140 A data collection device (160) having a level sensor (165) for detecting a level of water and a current sensor (167) for detecting a driving current according to the load of the grinder (155); Clinker drop detection device comprising a. The method of claim 1, The display device is provided to output the data detected from the sensors 161, 163, 165, 167 of the data collection device 160 to check in real time the occurrence of the fall of the clinker (C). Clinker drop detection device comprising a.

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