KR100986774B1 - Method, apparatus, and recording medium for discriminating coal species and supply point of coal fuel - Google Patents

Abstract

A method and system for determining the type of coal fuel and the timing of supply of coal fuel supplied to a power plant boiler are disclosed. According to the method according to the present invention, acquiring the coal type detection information (the coal type includes the first coal and the second coal) of the coal fuel to be low coal into the coal silo, the coal fuel introduced into the coal silo Acquiring the total low coal level information (the amount of coal fuel stacked) of the coal; acquiring cumulative total weight information of the coal fuel supplied at the time of coal supply in the coal feeder; collecting and storing all the information from the step And calculating the low coal level by coal type of coal fuel and the supply time of coal fuel supplied to the power plant boiler using the information, and displaying the low coal level by coal type and information of the supply time in the form of a text or an image. Steps.

According to the present invention, the low coal level by coal type and the supply time of coal fuel supplied to the power plant boiler are automatically calculated and monitored in real time, so that the operator can manage the power generation facilities more conveniently and efficiently.

Power Plant Boiler, Coal, Coal, Coal Silo

Description

METHOD, APPARATUS, AND RECORDING MEDIUM FOR DISCRIMINATING COAL SPECIES AND SUPPLY POINT OF COAL FUEL}

The present invention relates to a method and a system for determining coal type and supply time of coal fuel supplied to a power plant boiler. More specifically, the present invention can maintain an optimum boiler performance and allow an operator to efficiently perform boiler management. The present invention relates to a method and a system for determining coal seeding and supply timing of coal fuel supplied to a power plant boiler.

Coal fuel, which is used for fuel of power plant boilers, is a kind of coal fuel (40 kinds of coal types such as Australia coal, Chinese coal, Russian coal, etc.) due to the stagnation of coal industry due to stabilization of supply and demand, reduction of power generation cost and cost. Is currently being introduced and used. These various coal fuels are transferred to the final destination of the boiler, the coal fuel can be burned by supplying the coal fuel to the boiler through the transfer process of storage, coal, low coal, coal. For example, most coal fuel depends on imports, so it is unloaded from cargo ships and stored in loading docks, which are then topped along conveyor belts and transported to low coal coal silos and then to low coals. Thereafter, coal fuel is fed to the coal feeder by gravity action from the coal silo and is fed into the coal feeder. Finally, the coal fuel is transferred to the combustor of the boiler, which is a steam generator that is a power source of power plant, through the differentiation included in the boiler.

In general, coal fuel burnt in a coal silo burns out in a day or two, so it is necessary to continuously burn coal fuel in coal coal. In this case, coal coals of various coal fuels may be low in coal silo. Usually, coal coals of two or more coal fuels are stacked.

However, when the coal coal of the first coal fuel is supplied to the boiler and burned after the coal coal of the two coal fuels burnt in the coal silo, the coal coal of the second coal fuel is supplied when the coal coal of the second coal fuel is supplied to the boiler. There is a situation where the timing of supply to this boiler is unknown. This is due to the different amounts of first, second and coal fuels. In addition, a conventional coal power plant boiler is provided with six coal silos, one of which is used in the standby state for replacement operation.

As such, the coal fuel low in the coal silo is not supplied to the boiler at the same level (hereinafter referred to as 'low coal level') because of the different operation and the amount of coal fuel to be supplied to the boiler for combustion. Inconsistencies occur in which coal silo is supplied with low coal fuel and the second coal fuel is supplied to the boiler. In some coal silo, the first coal fuel is still supplied to the boiler. Even if this disagreement is overlooked, the more important problem is that since the coal silo is supplied with various coal fuels, it is difficult to know when it is supplied and it is difficult to accurately predict the coal type. The problem of inaccurate facility diagnosis or performance grasping occurs. The above problem will be described through the example of FIG. 1.

1 is a view showing a display range of a low coal level for a conventional coal silo coal fuel.

Referring to FIG. 1, in the related art, only the low coal level of the first coal and the second coal, which is introduced into the coal silo 100, may be detected using a measuring instrument. By coal type of low coal was not able to determine the level. First of all, the point of supplying the first and second coals to the boiler (not shown) is more difficult to grasp in the context of operating a large number of coal silos and thus depends on subjective judgment based on the operating system operator's know-how.

The present invention has been made to solve the conventional problems as described above, low coal by coal type of coal fuel introduced into a plurality of coal silo to maintain the optimum boiler performance, and to improve the efficiency of boiler management by the operator It is an object of the present invention to provide a method and system for determining the level and timing of supply of coal fuel supplied to a power plant boiler.

Another object of the present invention is to provide a method and a system for automatically determining a low coal level and a supply time of each coal type of coal fuel by a programmed calculation.

In order to achieve the object of the present invention as described above, and to perform the characteristic functions of the present invention described below, the characteristic configuration of the present invention is as follows.

According to an aspect of the present invention, there is provided a method for determining coal type and supply time of coal fuel supplied to a power plant boiler, the method comprising: (a) coal type detection information of coal coal to be stored in a coal silo (the coal type is the first coal; And (b) obtaining total low coal level information (coal quantity information of coal fuel) of the coal fuel introduced into the coal silo, (c) in a coal feeder Obtaining cumulative total weight information of the coal fuel supplied at the time of coal feeding; (d) collecting and storing all information from the steps (a), (b) and (c), and using the information, Calculating a low coal level of each coal type of the coal type and a point of supply of coal fuel supplied to the power plant boiler, and (e) displaying the low coal level of coal type and the information of the supply point in the form of a text or an image. My Ball.

In addition, according to another aspect of the present invention, as a system for determining and monitoring the coal type and the supply time of coal fuel supplied to the power plant boiler, the coal type detection information of the coal fuel to be low coal into the coal silo ( A trigger sensor management unit for acquiring the first coal and the second coal from the trigger sensor, and a level sensor for acquiring total low coal level information (coal fuel stacked amount information) of the coal fuel introduced into the coal silo from a level sensor; Management unit, a weight sensor management unit for obtaining the cumulative total weight information of the coal fuel supplied to the coal feed in the coal feeder from the weight sensor, collects and stores all the information from the management unit, by using the information by coal type A level / time calculation unit for calculating a low coal level and a time point of supplying coal fuel supplied to the power plant boiler, and The system comprises a text / image display unit for displaying the group classification burnt Low level and the information of the supply point, as either text or image is provided.

In addition, there is further provided a recording medium in which the method according to the method is programmed.

According to the present invention, based on the information collected through the various sensors to monitor the real-time by automatically calculating the low coal level by coal type entering the plurality of coal silo and the time of supply of coal fuel supplied to the power plant boiler By doing so, the effect of enabling the operator to manage the power generation facilities more conveniently and efficiently is achieved.

In addition, according to the present invention, the information is collected from the various sensors through the network, and by using a programmed algorithm to automatically determine the low coal level by coal type by coal type and supply time can manage the power generation equipment based on more accurate data Ultimately, the efficiency of management performance is improved, resulting in a safe fuel production.

DETAILED DESCRIPTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is defined only by the appended claims, along with the full range of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention.

[Preferred Embodiments of the Invention]

Configuration of the entire system

Figure 2 is a block diagram showing the configuration of the entire system for determining the coal type and supply time of coal fuel according to an embodiment of the present invention.

2, the entire system according to an embodiment of the present invention includes a monitoring system 200, a transfer device 300, and a power plant boiler 400.

First, before describing the monitoring system 200 of the present invention, the transfer device 300, and the power plant boiler 400 will be described first. The conveying apparatus 3000 of the present invention may be composed of a low coal coal silo 310, a coal feeder 320, etc. The coal silo 310 is a coal species of at least one or more various coal fuels are transferred from the outside It is laminated and performs a function of low coal.

On the other hand, the feeder 320 of the present invention serves to continuously feed coal species of various coal fuels transferred from the coal silo 310. The power plant boiler 400 of the present invention performs a function of burning and fueling coal species of various coal fuels supplied from the feeder 320. In particular, the transfer device 300 may further configure sensors (not shown) for detecting and measuring coal inflow, weight, amount of coal, etc. stacked in the coal silo 310.

The monitoring system 200 of the present invention obtains the information detected and measured from the sensors that can be formed inside and outside the transport apparatus 300 through a network, and is supplied to the power plant boiler 400 using the information. It performs the function of discriminating coal type and supply time of coal fuel. At this time, the monitoring system 200 manages at least one transfer device.

Here, the network illustrated in FIG. 2 may be configured regardless of communication modes such as wired and wireless, and may include a local area network (LAN), a metropolitan area network (MAN), and a wide area network (WAN). It can be composed of various open communication networks such as Wide Area Network. In addition, the network shown in FIG. 2 may be configured as a dedicated communication network.

Configuration hierarchy diagram of the entire system

3 is a diagram illustrating a configuration hierarchy of an entire system according to an embodiment of the present invention.

Referring to FIG. 3, a configuration layer of the entire system according to an embodiment of the present invention may include a measurement sensor layer, an information collection layer, a low coal level and a supply point calculation layer, a user interface layer, and the like.

The measurement sensor layer includes at least one sensor module (sensor module 1 (sensor 1, sensor 2, sensor 3 ..), sensor for detecting and measuring coal fuel inflow, weight, level (the amount of coal species), etc. from the sensors. Module 2 ...). The information collection layer may be configured as an information collection module for collecting information detected and measured from the sensor module (sensor module 1, sensor module 2 ...).

The low coal level and the supply time calculation layer may include a calculation module that calculates the low coal level and the supply time for each transport device and the power plant boiler by using the sensed and measured information obtained from the information collection module. The user interface layer may be composed of an interface module that is displayed by implementing a low coal level and a supply time point calculated from the calculation module as a graphic user interface. Therefore, the operator can conveniently manage the low coal level of each type of coal fuel and the timing of supply by the transport device and the power plant boiler through the implemented GUI environment.

Hereinafter, the monitoring system 200 implemented based on the above-described module for each layer will be described in more detail.

monitoring  Configuration of the System 200

4 is a configuration diagram showing in detail the monitoring system 200 according to an embodiment of the present invention.

Referring to FIG. 4, the monitoring system 200 according to an embodiment of the present invention is a system for determining and monitoring coal type and supply time of coal fuel supplied to a power plant boiler. The trigger sensor managing unit 210 and a level sensor are monitored. The manager 220, the weight sensor manager 230, the level / view calculator 240, the text / image display unit 250, the communication unit 260, the controller 270, and various databases may be included.

First, the trigger sensor manager 210 according to the present invention performs a function of acquiring coal type detection information of the coal fuel to be low coal into the coal silo 310 from the module of the trigger sensor. The detection information refers to the start and end time of each type of coal fuel continuously introduced into the coal silo 310 from the outside. For example, if coal coal of the first coal and the second coal is introduced into the coal silo 310, the module of the trigger sensor detects start and end points of the first coal flowing into the coal silo 310, Thereafter, the second shot detects a start point and an end point flowing into the coal silo 310 and can be provided to the trigger sensor management unit 210 in real time through the network.

The level sensor manager 220 according to the present invention performs a function of acquiring total low coal level information Htotal of coal fuel introduced into the coal silo 310 from the module of the level sensor. The total low coal level information of the coal fuel may be referred to as stacked quantity (height) information of coal fuel which is introduced into the coal silo 310 regardless of the type of coal. For example, when coal fuels of the first and second coals are introduced into the coal silo 310 and stacked, the total stacked height of the first and second coals is the total low coal level of the coal fuel. It can be information. The total low coal level information may be measured and generated by a level sensor module formed inside or outside the coal silo 310. The level sensor module has an organic relationship with the module of the trigger sensor, so that low level information may be identified by referring to the sensing information. Therefore, the module of the level sensor is able to provide the total low coal level information measured and generated to the level sensor manager 220 in real time through a network.

The weight sensor manager 230 according to the present invention is transferred from the Coal Silo 310 to perform a function of acquiring cumulative total weight information of coal fuel fed in the coal feeder 320 from the weight sensor module. The cumulative total weight information is information generated when the coal is sent from the coal silo 310 to the coal feeder 320 by a middle action to be plundered for each type of coal fuel. In other words, the total weight of coal fuel can be cumulative total weight information regardless of the type of coal fuel that can be supplied to the boiler. This cumulative total weight information may be measured and generated by the weight sensor module. Therefore, the weight sensor module can provide the accumulated total weight information measured and generated to the weight sensor manager 230 in real time through a network.

The level / time calculation unit 240 according to the present invention, as described above, from the trigger sensor management unit 210, the level sensor management unit 220 and the weight sensor management unit 230 by coal type by the coal type detection information, the total low coal of coal fuel It collects all the level information (Htotal), cumulative total weight information of the coal fuel, and stores the information in the information collection database 280 to be described later.

In particular, the level / time calculation unit 240 of the present invention may perform a function of calculating the low coal level by coal type of coal fuel and the supply time of coal fuel supplied to the power plant boiler 400 using the collected information. . The low coal level by coal type of the coal fuel may be calculated using the total low coal level information (Htotal) and the sensing information of the stored coal fuel, and the supply time of coal fuel is based on the calculated low coal level by coal type and the low coal level by coal type. If the corresponding abbreviation value is obtained and the cumulative total weight value is compared with the calculated specific abbreviation value, and it is the same, it is recognized by the point of supply of coal of a specific coal fuel with respect to the coal of a specific coal fuel supplied to a power plant boiler. The timing of supplying the coal can be determined. A more detailed calculation method will be described later with reference to FIG. 5.

The text / image display unit 250 according to the present invention implements a function of displaying the low coal level of each type of coal fuel and information on a supply time by using a graphic user interface (GUI) in the form of a text or an image of a driver's convenience. .

The communication unit 260 according to the present invention serves as an interface module, and the monitoring system 200 transmits and receives various data through a network between the transfer device 300 and the power plant boiler 400.

The control unit 270 according to the present invention is trigger sensor management unit 210, level sensor management unit 220, weight sensor management unit 230, level / time point calculation unit 240, text / image display unit 250, information collection data It performs a function of controlling the flow of data between the base 280, and the calculation information database 290. That is, the control unit 160 according to the present invention by controlling the signals transmitted and received between each component through the communication unit 260, trigger sensor management unit 210, level sensor management unit 220, weight sensor management unit 230 The level / view calculator 240 and the text / image display unit 250 may perform their own functions.

Finally, the information collection DB 280 of the present invention stores the information collected from the sensors, the calculation information database 290 is low coal level by coal type of coal fuel generated by the level / time calculation unit 240 And it stores the supply time information of the coal fuel supplied to the power plant boiler.

Example of calculation of low coal level and supply time

FIG. 5 is a view for explaining a method of calculating a low coal level for each type of coal fuel and a supply time of coal fuel by the level / time calculator 240 according to an embodiment of the present invention.

Referring to FIG. 5, a method of calculating a low coal level by coal type and a supply time of coal fuel according to an embodiment of the present invention may include coal coal of the first coal and the second coal in the coal silo 310. In the case of inflow to order will be described as an example.

First, a method for determining the low coal level of the second coal, the low coal level (H2) of the second coal can be calculated using the low coal level (H1) and the total low coal level (Htotal) of the first coal. The expression can be expressed as follows.

 H2 = Htotal-H1 (Equation 1)

The total low coal level H total in Equation 1 may be obtained by using the sensing information obtained from the trigger sensor manager 210. That is, the detection information obtained from the trigger sensor management unit 210 is used to detect the time when the second shot is finished from the time when the first shot is low shot, the time when the first shot begins to burn low The H1 low coal level is the H2 low coal level at the time when the second round ends the low coal level, and thus the sum of the H1 low coal level and the H2 low coal level eventually becomes a total low coal level H total.

In addition, the first low coal level H1 in Equation 1 may be obtained by using the detection information obtained from the trigger sensor manager 210. The detection information may be stored in a state where the second coal is low while the first coal is low. Information about when to start. Accordingly, by calculating the first low coal level H1 and the total low coal level Htotal, the second low coal level H2 is calculated as shown in Equation 1, and thus, the low coal level by coal type of coal fuel introduced into the coal silo 310 is calculated. H1, H2) will both be known.

Next, in order to determine the supply time of coal fuel, the coal weight W1 value corresponding to the first low coal level H1 is first determined. That is, the coal weight W1 of the first low coal corresponding to the first low coal level H1 obtained by Equation 1 may be calculated using the above-described sensing information and an equation for calculating the volume of the cylindrical portion and the conical portion. The equation can be expressed as

W1 = (π × D ² × h1) / 4 + (0.262 × D ² × hs) / 4 (Equation 2)

The D ² in the formula 2 is a diameter of the circular portion of Coal Silo, wherein h1 is the Low level, the value of the first carbon present in the circular portion of Coal Silo (310), the cone of the hs is Coal Silo (310) Low coal level value of the first shot existing in the portion. In this case, the low bullet level of h1 is installed at the point where hs and h1 meet and the sensing part of the trigger sensor 210 is installed at the point where h1 and H2 meet, and the first or second bullet passing through the installed point is installed. By detecting the detection time, the low coal level of h1 and hs can be known. Therefore, by calculating h1 and hs, the value of the coal weight W1 corresponding to the first low coal level H1 can be calculated by the equation (2).

Thus, by obtaining the value of the coal weight W1 corresponding to the 1st low coal level H1, the supply timing of the 2nd coal supplied to a power plant boiler can be known. That is, when the information detected about the time when the second shot is low is used as information for initializing the state of the weight sensor, the level / time calculator 240 is initialized by the weight sensor manager 230 after it is initialized. The cumulative total weight value obtained from the sensor is compared with the abbreviated value of the specific low coal level calculated by the above-described Equation 2. For example, when it is determined that the cumulative total weight value after initialization and the abbreviated value corresponding to the second low coal level are equal, it is determined that the level / time calculator 240 recognizes that the first coal is completely supplied to the power plant boiler. And, by recognizing the second time supply of the second coal to the second supply to the power plant boiler, the supply time of the second round can be determined.

In the above description, only the first coal and the second coal are introduced into the coal silo 310, but when coal coals of a plurality of coal fuels are introduced, for example, the third coal and the fourth coal are stacked into the coal silo 310. Even if the coal is low, the level / time calculation unit 240 can know the low coal level for each of the third coal and the fourth coal and the supply time of the coal fuel supplied to the power plant boiler by the above-described procedure.

In addition, the level / time calculation unit 240 according to the present invention, when at least one or more Coal Silo-Carburettor (310, 320) is operated, collected through each of the Coal Silo-Carburettor (310, 320) Since it is obvious that the low coal level and the supply time can be calculated for each coal silo-charcoal machine using the information, a description thereof will be omitted.

Embodiments according to the present invention described above may be implemented in the form of program instructions that can be executed by various computer components and recorded in a computer-readable recording medium. The computer-readable recording medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the computer-readable recording medium may be those specially designed and configured for the present invention, or may be known and available to those skilled in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical recording media such as CD-ROMs, DVDs, and magnetic-such as floptical disks. Included are optical media and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine code generated by a compiler, but also high-level language code that can be executed by a computer using an interpreter or the like. The hardware device may be configured to operate as one or more software modules to perform the process according to the invention, and vice versa.

1 is a view showing a display range of a low coal level for a conventional coal silo coal fuel.

Figure 2 is a block diagram showing the configuration of the entire system for determining the coal type and supply time of coal fuel according to an embodiment of the present invention.

3 is a diagram illustrating a configuration hierarchy of an entire system according to an embodiment of the present invention.

4 is a configuration diagram showing in detail the monitoring system 200 according to an embodiment of the present invention.

FIG. 5 is a view for explaining a method of calculating a low coal level for each type of coal fuel and a supply time of coal fuel by the level / time calculator 240 according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

200: monitoring system

210: trigger sensor management unit

220: level sensor management unit

230: weight sensor management unit

240: level / view calculation unit

250: text / image display unit

260: communication unit

270: control unit

280: Information collection DB

290: Calculation information DB

Claims (14)

As a method for determining the coal species and timing of supply of coal fuel supplied to a power plant boiler, (a) obtaining, by the trigger sensor manager, coal type detection information (the coal type includes the first coal and the second coal) of the coal fuel to be low coal into the coal silo; (b) obtaining, by a level sensor management unit, the total low coal level information (the stacked amount of coal fuel) of the coal fuel introduced into the coal silo; (c) obtaining, by a weight sensor management unit, cumulative total weight information of the coal fuel supplied at the time of supplying the coal in the coal feeder, (d) The level / time calculation unit collects and stores all the information from the above steps (a), (b) and (c), and uses the information to provide a low coal level for each type of coal fuel and the coal supplied to the power plant boiler. Calculating the time of supply of fuel, and (e) displaying, by the text / image display unit, the information on the low coal level and supply time of each coal type in the form of text or an image; Method for determining the coal type and the supply time of coal fuel supplied to the power plant boiler comprising a. The method of claim 1, Total low coal level (Htotal) information of the step (b), The power plant boiler set by the level sensor management unit by using the detected information from the time point at which the first coal obtained from the step (a) starts to be fired to the time point at which the second coal ends the low coal. Method for determining the type of coal and the timing of supply of coal fuel supplied to the fuel. The method of claim 2, In step (d), And the level / time calculation unit calculates the low coal level (H2) of the second coal by using Equation 1 as follows. H2 = Htotal-H1 (Equation 1) The H1 (low coal level of the first coal) is information for detecting a time when the second coal starts to be low in the state where the first coal is low from the step (a). The method of claim 3, In step (d), The type of coal fuel supplied to the power plant boiler, characterized in that the level / time calculation unit calculates the weight value (W1) of the first coal corresponding to the low coal level of the first coal through the following equation 2 And method for determining the point of supply. W1 = (π × D ² × h1) / 4 + (0.262 × D ² × hs) (Equation 2) D ² is the diameter of the circular portion of the coal silo, h1 is the low coal level value of the first coal present in the circular portion of the coal silo, and hs is the diameter of the first coal present in the cone portion of the coal silo. Low bullet level. The method of claim 4, wherein In step (d), The level / time calculation unit is configured to provide setting information to the weight sensor manager to set the state of the weight sensor to be initialized by receiving information from the trigger management sensor that detects the time when the second shot is finished. Method for determining the coal species and the timing of supply of coal fuel supplied to the power plant boiler. The method of claim 5, In step (d), If the level / time calculation unit compares the cumulative value of the first shot of Equation 2 calculated with the cumulative total weight value obtained after the initialization, the first shot is fully supplied to the power plant boiler. The coal type and the supply time point of the coal fuel supplied to the power plant boiler are determined by supplying the second coal to the second coal supplied to the power plant boiler. How to determine. A computer-readable recording medium having recorded thereon a program for executing the method according to any one of claims 1 to 6. A system for determining and monitoring coal type and supply time of coal fuel supplied to a power plant boiler, Trigger sensor management unit for acquiring the coal type detection information (the coal type includes the first coal and the second coal) of the coal fuel to be low coal into the coal silo, A level sensor management unit for obtaining total low coal level information of coal coal introduced into the coal silo (a stacked amount of coal fuel); A weight sensor management unit for acquiring cumulative total weight information of the coal fuel supplied at the time of feeding the coal in the coal feeder; A level / time calculation unit that collects and stores all information from the management unit and calculates a low coal level for each coal type of coal fuel and a supply time of coal fuel supplied to the power plant boiler using the information; Text / image display unit for displaying the low coal level by each type of coal and information of the supply time in the form of text or image System for determining and monitoring the coal type and supply time of coal fuel supplied to the power plant boiler including. The method of claim 8, The level sensor management unit, A power plant boiler, characterized in that for setting the total low coal level (Htotal) by using the information detected from the time point at which the first coal obtained from the trigger sensor management begins to be low shot to the end of the low coal. A system for determining and monitoring the type of coal and the timing of supply of coal fuel. 10. The method of claim 9, The level / view calculation unit, A system for determining and monitoring the coal type and the supply time of coal fuel supplied to the power plant boiler, characterized in that for calculating the low coal level (H2) of the second coal by using the following equation 1. H2 = Htotal-H1 (Equation 1) The H1 (low bullet level of the first bullet) is information detected by the trigger sensor management unit when the second bullet starts to be low in a state where the first bullet is low. The method of claim 10, The level / view calculation unit, Determine and monitor the coal type and supply time of the coal fuel supplied to the power plant boiler, characterized in that the weight value (W1) of the first coal corresponding to the low coal level of the first coal is calculated by Equation 2 below. System for doing so. W1 = (π × D ² × h1) / 4 + (0.262 × D ² × hs) (Equation 2) D ² is the diameter of the circular portion of the coal silo, h1 is the low coal level value of the first coal present in the circular portion of the coal silo, and hs is the diameter of the first coal present in the cone portion of the coal silo. Low bullet level. The method of claim 11, The level / view calculation unit, Supplying setting information to the weight sensor management unit to set the state of the weight sensor to the initialization when the trigger sensor management to receive the information to detect the time when the second shot is finished low coal supply to the power plant boiler, characterized in that A system for identifying and monitoring the type of coal and the timing of supply of coal fuel. The method of claim 12, The level / view calculation unit, If the cumulative total weight value obtained after the initialization and the calculated value of the first shot of the formula 2 are equal to each other, it is recognized that the first shot is completely supplied to the power plant boiler and supplied to the power plant boiler. The system for determining and monitoring the coal type and the supply time of coal fuel supplied to the power plant boiler, characterized in that for determining the supply time of the second coal by recognizing it as the supply time of the second coal to the second coal. The method of claim 8, The level / view calculation unit, When at least one coal silo-charcoal is operated, the low coal level and supply time for each coal silo-charcoal is calculated using the information collected through each coal silo-charcoal. A system for determining and monitoring coal type and timing of supply of coal fuel.

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