KR102155344B1 - Performance monitoring system and method in thermal power plant and combined cycle power plant - Google Patents

Abstract

An embodiment of the present invention is an invoice-based fuel information providing server for generating invoice-based coal information, which is fuel information used for energy generation on an invoice basis, and invoice-based gas information, which is fuel information used for combined power generation, on an invoice basis; An analysis reference fuel information providing server that generates analysis reference coal information, which is coal information that analyzes coal components at the time of use of energy generation, and generates analysis reference gas information that is gas information that analyzes the gas component at the time of use of combined power generation; And applying the invoice-based bullet information and the energy generation operation measurement data to a preset performance calculation engine, and applying the invoice-based energy power plant performance value, the invoice-based gas information and the combined power generation operation measurement data to the performance calculation engine. Calculate and store the performance value of the complex power plant based on the invoice for each set monitoring cycle, and apply the analysis standard coal information at the time of use and the measured data of the energy generation operation at the time of use to the performance calculation engine, and the analysis standard energy power plant performance value at the time of use. And a power plant performance evaluation server that calculates and stores the analysis standard composite power plant performance value calculated by applying the analysis reference gas information and the measurement data of the combined power generation operation at the time of use to the performance calculation engine for each set use time; .

Description

Performance monitoring system and method in thermal power plant and combined cycle power plant}

The present invention relates to a power plant performance monitoring system, which monitors the performance of a power plant or a combined power plant.

Existing real-time performance monitoring systems installed in mechanical power plants and complex power plants include a performance calculation engine, and apply measured measurement data and fuel information to derive performance calculation results. In addition, the derived data is used to monitor the performance of power plants and major components in real time, and is used for the purpose of grasping the trend of performance status rather than absolute performance evaluation.

In other words, the existing real-time performance monitoring system derives the performance calculation result in real time through the performance calculation engine by linking the measured measurement data and fuel information (energy: coal information, compound: gas information) with an interface according to the historian format. , It is the purpose of grasping the trend of the performance state (performance deterioration) between the power plant and the constituent facilities from the derived performance calculation result data, but it is necessary to input accurate fuel information data (composition and calorific value) in order to accurately grasp the trend.

However, in the actual field, the composition and calorific value data of the fuel information (energy: coal information, complex: gas information) is not real-time, but data is applied through analysis (direct component analysis by collecting fuel samples at the time of use). In the case of silver energy generation (burn information), it usually takes 20 to 30 days, and combined power generation (gas information) takes 1 day.

For this reason, since the accuracy of grasping the trend of the performance status using the calculation result data in real time is inferior, there is a problem in that the system utilization and reliability are very low because many persons in charge are reluctant to use the real-time performance monitoring system.

Korean Patent Publication 10-2013-0035554

The technical problem of the present invention is to construct an interface for linkage between a database reflecting accurate fuel information (energy: coal information, composite: gas information) and a performance calculation engine, and apply data to the performance calculation engine to calculate the performance in real time. It is to derive.

Another object of the present invention is to provide a real-time concept energy/complex power plant performance monitoring means using an interface linkage program for reflecting accurate fuel information and a performance calculation engine linked based on accurate fuel information data.

An embodiment of the present invention is an invoice-based fuel information providing server for generating invoice-based burn information, which is fuel information used for energy generation on an invoice basis, and invoice-based gas information, which is fuel information used for combined power generation, on an invoice basis; An analysis reference fuel information providing server that generates analysis reference coal information, which is coal information that analyzes the composition of coal at the time of use of energy generation, and analysis reference gas information, which is gas information that analyzes the component of gas at the time of use of combined power generation; And applying the invoice-based bullet information and the energy generation operation measurement data to a preset performance calculation engine, and applying the invoice-based energy power plant performance value, the invoice-based gas information and the combined power generation operation measurement data to the performance calculation engine. Calculate and store the performance value of the complex power plant based on the invoice for each set monitoring cycle, and apply the analysis standard coal information at the time of use and the measured data of the energy generation operation at the time of use to the performance calculation engine, and the analysis standard energy power plant performance value at the time of use. And a power plant performance evaluation server that calculates and stores the analysis standard composite power plant performance value calculated by applying the analysis reference gas information and the measurement data of the combined power generation operation at the time of use to the performance calculation engine for each set use time; .

The power plant performance evaluation server includes: an invoice-based fuel information interface unit configured to collect the invoice-based bullet information and invoice-based gas information from the invoice-based fuel information providing server; An invoice reference fuel information database in which invoice reference burn information and invoice reference gas information collected through the invoice reference fuel information interface unit are stored; An operation measurement data interface unit that receives measurement data of energy generation operation applied to the energy generation from the energy plant operation server, and receives measurement data from the complex power generation operation operation server applied to the complex power generation from the complex power plant operation server; Extracts the invoice reference bullet information and invoice reference gas information of the energy generation from the invoice reference fuel information database, obtains the energy generation operation measurement data and the combined power generation operation measurement data from the operation measurement data interface unit, and the invoice reference coal By applying information and measurement data of energy generation operation to a preset performance calculation engine, the performance value of energy plant based on invoice is calculated for each monitoring period, and the invoice reference gas information and combined power generation operation measurement data are applied to the performance calculation engine to invoice An invoice reference performance value calculation unit that calculates a reference complex power plant performance value for each monitoring period; An invoice-based performance value database in which the calculated invoice-based energy power plant performance value and the invoice-based composite power plant performance value are stored for each monitoring period; An analysis reference fuel information interface for collecting the analysis reference bullet information and analysis reference gas information from the analysis reference fuel information providing server; An analysis reference fuel information database in which analysis reference burn information and analysis reference gas information collected through the analysis reference fuel information interface unit are stored; Analysis standard coal information and analysis standard gas information at the time of use of energy generation is extracted from the analysis reference fuel information database, and measurement data of energy generation operation and combined power generation operation measurement data at the time of use are obtained, and analysis standard at the time of use By applying the coal information and the measurement data of the energy generation operation at the time of use to the performance calculation engine, the analysis standard energy power plant performance value is calculated for each use, and the analysis standard gas information at the time of use and the measurement data of the combined power generation operation at the time of use are recalled. An analysis reference performance value calculating unit that applies the performance calculation engine to the analysis reference complex power plant performance value for each use time; And an analysis reference performance value database in which the calculated analysis reference mechanical power plant performance value and the analysis reference composite power plant performance value are stored for each use time.

The invoice-based fuel information interface unit collects invoice-based munition information and invoice-based gas information for each first cycle, and the analysis reference fuel information interface unit collects analysis-based munition information and analysis reference gas information for each second cycle, and the second The 1st period and the 2nd period may be characterized as being synchronized as the same period.

When the analysis reference fuel information at the time of use is applied to the performance calculation engine, the analysis reference performance value calculating unit may apply driving measurement data at the time of use at the same time.

The analysis reference performance value calculation unit, when the munition information 20 days before the current standard is used as the analysis reference munition information, applies the energy generation operation measurement data 20 days prior to the performance calculation engine to the analysis reference energy power plant 20 days before the current standard. It is calculated as a performance value, and when coal information 30 days before the current standard is used as the analysis standard coal information, the energy generation operation measurement data 30 days ago is applied to the performance calculation engine and the analysis standard energy power plant performance value 30 days before the current standard Can be calculated as

When the analysis reference performance value calculation unit is used as the analysis reference gas information 1 day prior to the current reference, the analysis reference complex power plant 1 day prior to the current reference by applying the measurement data of the complex power generation operation measurement data 1 day prior to the performance calculation engine It can be calculated as a performance value.

The coal information stored in the invoice-based fuel information database and analysis-based fuel information includes C content, H content, O content, N content, S content, A content, TM (total moisture), and HFC (dry basis high calorific value). It may contain more than one.

The gas information stored in the invoice reference fuel information database and analysis reference fuel information includes CH4 content, C2H6 content, C3H8 content, i-C4H10 content, n-C4H10 content, i-C5H12 content, n-C5H12 content, C6H14 content, It may include one or more of N2 content, CO2 content, HHV (higher heating value), and LHV (lower heating value).

The power plant performance evaluation server compares the invoice-based energy power plant performance value and the analysis standard energy power plant performance value, and compares the graphic displayed on one screen, and the invoice-based composite power plant performance value and the analysis standard composite power plant performance value. It may include; a performance value information providing unit for providing the graphic displayed on one screen to the manager terminal.

According to an embodiment of the present invention, it is possible to derive an accurate performance calculation result through the performance calculation engine by applying the fuel information of the analysis standard, and the performance status (performance deterioration) of the power plant and major components from the derived performance calculation result In addition to trend identification, absolute performance evaluation can be performed.

In addition, according to an embodiment of the present invention, a user can analyze data as needed by deriving and storing a continuous performance calculation result in a real-time concept rather than a one-time performance calculation result.

In addition, according to an embodiment of the present invention, users directly check the performance status evaluation performed by professionals such as managers, thereby increasing the utilization of the real-time performance monitoring system, and improving the accuracy of the performance result data to increase reliability. Can bring.

1 is a block diagram of a system for monitoring performance of an energy/combined power plant according to an embodiment of the present invention.
Figure 2 is a block diagram of the configuration of the power plant performance evaluation server according to an embodiment of the present invention.
Figure 3 is a functional block diagram for calculating the energy / combined power plant performance according to an embodiment of the present invention.
4 is an exemplary diagram of a manager terminal displaying a comparison graphic of a performance value before analysis and a performance value after analysis according to an embodiment of the present invention.

Hereinafter, the advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, and is provided to completely inform the scope of the invention to those of ordinary skill in the art to which the present invention belongs. As such, the invention is only defined by the scope of the claims. In addition, when it is determined that related well-known technologies or the like may obscure the subject matter of the present invention in describing the present invention, detailed descriptions thereof will be omitted.

1 is a configuration diagram of a system for monitoring performance of an energy/combined power plant according to an embodiment of the present invention, FIG. 2 is a block diagram showing a configuration of a power plant performance evaluation server according to an embodiment of the present invention, and FIG. 3 is an embodiment of the present invention. It is a functional block diagram for calculating the energy/complex power plant performance according to, and FIG. 4 is an exemplary diagram of a manager terminal displaying a contrast graphic of a performance value before analysis and a performance value after analysis according to an embodiment of the present invention.

In general, power plants are equipped with facilities that convert thermal energy and mechanical energy into electrical energy, rotate a turbine using an energy source such as water, coal, natural gas, or nuclear power, and produce electricity through a generator connected to the turbine.

Power plants are classified into hydroelectric power plants, thermal power plants, nuclear power plants, and complex power plants according to the type of energy source used and the power generation method accordingly.

Depending on the type of prime mover, a thermal power plant is a thermal power plant using boilers and steam turbines, an internal combustion power plant using an internal combustion period such as a diesel engine, a gas turbine power plant using a gas turbine, and a combine by a combination of a gas turbine and a steam turbine. It is classified as a de-cycle power plant.

Among them, mechanical power generation is a power generation method in which electricity is generated by turning a steam turbine with thermal power, that is, a power generation method in which the steam turbine is driven with steam produced by a boiler to generate electricity. Since it has high thermal efficiency and is suitable for large output, it is most commonly used for commercial thermal power generation. In a mechanical power plant, water flowing into the boiler through a feed pump is converted into steam and supplied to the turbine through a pipeline. Power is generated by the generator by rotating the propeller by the steam supplied to the turbine, and the water discharged from the turbine is condensed in a condenser through a pipeline, and then circulated in a closed circulation method through a feed pump to generate power.

In addition, combined power generation is a combination of gas turbine power generation and thermal (steam turbine) power generation in which steam is generated from the high-temperature gas used in gas turbine power generation to increase the thermal efficiency of thermal power generation and rotates other turbines with this steam.

When calculating the performance values of such power generation and combined power generation, there is a problem in that accuracy is inferior because only the fuel analysis value analyzed by collecting fuel samples at the time of use is used, not real-time data.

Accordingly, the present invention provides a performance value calculated using real-time data based on an invoice, so that it can be compared, thereby improving utilization and reliability of performance analysis.

To this end, the energy/complex power plant performance monitoring system of the present invention includes an invoice reference fuel information providing server 100, an analysis reference fuel information providing server 300, and a power plant performance evaluation server 200 as shown in FIG. Can include.

The invoice-based fuel information providing server 100 includes fuel information such as coal used for energy generation on an invoice basis (hereinafter referred to as'invoice-based coal information') and fuel information such as gas used for combined power generation on an invoice basis. It performs the function of generating (hereinafter referred to as'invoice reference gas information'). Here, the invoice is a recording sheet that is provided together when fuel is supplied from a fuel supplier, and the components of the supplied fuel are recorded in the invoice. In the case of an electronic invoice, the invoice content is automatically stored in the invoice-based fuel information providing server 100, and in the case of a handwritten invoice, the invoice content is inputted by an operator and stored in the invoice-based fuel information providing server 100. Accordingly, the invoice-based fuel information providing server 100 may generate invoice-based bullet information and invoice-based gas information based on the stored invoice content.

The analysis standard fuel information providing server 300 generates information that analyzes the components of coal at the time of use of energy generation (hereinafter referred to as'analysis standard coal information'), and analyzes the components of gas at the time of use of combined power generation. It performs a function of generating information (hereinafter referred to as'analysis reference gas information').

The fuel analysis value analyzed by collecting a fuel sample at the time of use of energy generation or combined power generation is registered in the analysis reference fuel information providing server 300, and analysis reference burn information and analysis reference gas information based on these fuel analysis values Can be created.

For reference, such invoice reference bullet information, invoice reference gas information, analysis reference coal information, and analysis reference gas information are provided to the power plant performance evaluation server 200 through wired communication or wireless communication. That is, wired communication methods such as Ethernet, Universal Serial Bus, IEEE 1394, serial communication, and parallel communication can be used, and infrared communication, Bluetooth Wireless communication methods such as (Bluetooth), home radio frequency (RF), and wireless LAN may be used.

The power plant performance evaluation server 200 applies the invoice-based coal information and the energy generation operation measurement data to a preset performance calculation engine to calculate the invoice-based energy plant performance value, the invoice-based gas information, and the combined power generation operation measurement data. Invoice-based complex power plant performance values calculated by applying to the engine are calculated and stored for each set monitoring cycle.

In addition, the power plant performance evaluation server 200 applies the analysis reference coal information at the time of use and the energy generation operation measurement data at the time of use to the performance calculation engine, and the analysis reference energy power plant performance value, the analysis reference gas information at the time of use, and The analysis standard composite power plant performance value calculated by applying the measurement data of the composite power generation operation at the time of use to the performance calculation engine is calculated and stored for each set use time.

To this end, the power plant performance evaluation server 200, as shown in Figure 2, invoice-based fuel information interface unit 210, invoice-based fuel information database 220, operation measurement data interface unit 230, invoice-based performance value The calculation unit 240, the invoice reference performance value database 250, the analysis reference fuel information interface unit 260, the analysis reference fuel information database 270, the analysis reference performance value calculation unit 280, and the analysis reference performance value database (290) may be included. In addition, it may include a performance value information providing unit (not shown).

The invoice-based fuel information interface unit 210 performs a function of collecting invoice-based fuel information and invoice-based gas information from the invoice-based fuel information providing server 100. The collected invoice-based burn information corresponds to the burn information written on the invoice, and the invoice-based gas information corresponds to the gas information written on the invoice. In addition, the invoice-based fuel information interface unit 210 collects invoice-based burn information and invoice-based gas information for each first cycle. For example, invoice-based burn information and invoice-based gas information are collected at 30-minute intervals. It is read from the providing server 100.

The invoice-based fuel information database 220 is a storage body in which invoice-based fuel information and invoice-based gas information collected through the invoice-based fuel information interface unit 210 are stored.

When the invoice-based fuel information stored in the invoice-based fuel information database 220 is invoice-based coal information, the C (carbon) content, H (hydrogen) content, O (oxygen) content, N (nitrogen) of the coal recorded in the invoice ) Content, S (sulfur) content, A (Ash) content, TM (total moisture), HFC (dry standard high-order calorific value) may be included.

In addition, when the invoice-based fuel information stored in the invoice-based fuel information database 220 is invoice-based gas information, the CH4 content, C2H6 content, C3H8 content, i-C4H10 content, n-C4H10 content, i of the gas recorded in the invoice -Can contain one or more C5H12 content, n-C5H12 content, C6H14 content, N2 content, CO2 content, HHV (higher calorific value), LHV (lower calorific value)

For reference, the storage of the fuel information database 220 based on invoices is a hard disk drive, a solid state drive, a flash memory, a compact flash card, and an SD card. (Secure Digital Card), SM card (Smart Media Card), MMC card (Multi-Media Card) or memory stick (Memory Stick), etc., as a module that can input and output information, and may be provided inside the device or a separate device It may be equipped with.

The operation measurement data interface unit 230 receives measurement data of energy generation operation applied to the energy generation from the energy plant operation server, and performs a function of receiving the measurement data of the operation measurement data applied to complex power generation from the complex power plant operation server. do.

The invoice-based performance value calculation unit 240 extracts invoice-based coal information and invoice-based gas information of energy generation from the invoice-based fuel information database 220. For example, invoice-based burn information and invoice-based gas information are read at intervals of 60 seconds, which is a monitoring period.

In addition, the invoice reference performance value calculation unit 240 obtains the energy generation operation measurement data and the complex power generation operation measurement data from the operation measurement data interface unit 230. For example, the measurement data of energy generation operation and the measurement data of complex power generation operation are read at intervals of 60 seconds, which is a monitoring period.

The invoice-based performance value calculation unit 240 calculates the invoice-based energy plant performance value for each monitoring period (eg, 60 seconds) by applying the invoice-based bullet information and the energy generation operation measurement data to a preset performance calculation engine. Here, the performance value of a mechanical power plant corresponds to performance values such as plant efficiency, boiler efficiency, air preheater efficiency, and turbine efficiency.

In addition, the invoice-based performance value calculation unit 240 calculates the invoice-based complex power plant performance value for each monitoring period (eg, 60 seconds) by applying the invoice-based gas information and the complex power generation operation measurement data to the performance calculation engine. Here, the composite power plant performance value corresponds to performance values such as plant efficiency, gas turbine efficiency, HRSG efficiency, and turbine efficiency.

The invoice-based performance value database 250 is a database in which the calculated invoice-based mechanical power plant performance value and the invoice-based composite power plant performance value are stored for each monitoring period. That is, the invoice-based energy power plant performance value calculated on the basis of the invoice through the invoice-based performance value calculation unit 240 and the invoice-based composite power plant performance value are stored in the form of a historian database for each monitoring period. It can be used efficiently in comparative analysis.

On the other hand, the energy/combined power plant performance monitoring system of the present invention calculates and provides a performance value using a fuel analysis value obtained by analyzing a fuel actually used as well as an invoice standard. To this end, an analysis reference fuel information interface unit 260, an analysis reference fuel information database 270, an analysis reference performance value calculation unit 280, and an analysis reference performance value database 290 are provided.

The analysis reference fuel information interface unit 260 performs a function of collecting analysis reference burn information and analysis reference gas information from a use reference fuel information providing server. The analysis standard coal information collected here corresponds to the coal information analyzed for coal used for energy generation, and the analysis reference gas information corresponds to gas information analyzed for the gas used for combined power generation. In addition, the analysis reference fuel information interface unit 260 collects the analysis reference burn information and the analysis reference gas information for each second cycle. For example, the analysis reference fuel information and the analysis reference gas information are collected at 30 minute intervals. It can be read from the providing server 100.

In particular, the present invention allows the first cycle and the second cycle to be synchronized as the same cycle for accurate comparison and comparison of the performance when the invoice standard is applied and the performance when the analysis standard is applied.

The analysis reference fuel information database 270 is a storage body in which analysis reference coal information and analysis reference gas information collected through the analysis reference fuel information interface unit 260 are stored.

When the invoice-based fuel information stored in the invoice-based fuel information database 220 is invoice-based coal information, the C (carbon) content, H (hydrogen) content, O (oxygen) content, N (nitrogen) of the sample analyzed coal It may contain one or more of content, S (sulfur) content, A (Ash) content, TM (total moisture), and HFC (dry basis high-order calorific value).

In addition, when the invoice-based fuel information stored in the invoice-based fuel information database 220 is the invoice-based gas information, the CH4 content, C2H6 content, C3H8 content, i-C4H10 content, n-C4H10 content, i- It may contain one or more C5H12 content, n-C5H12 content, C6H14 content, N2 content, CO2 content, HHV (higher heating value), LHV (lower heating value).

The analysis reference performance value calculation unit 280 extracts analysis reference coal information and analysis reference gas information at the time of use of the energy generation from the analysis reference fuel information database 270. In addition, the analysis reference performance value calculation unit 280 acquires measurement data for energy generation operation and measurement data for complex power generation operation at the time of use. The analysis reference fuel information and driving measurement data enable data at the same time point in the past to be acquired. For reference, the measurement data of the energy generation operation and the measurement data of the complex power generation operation at the time of use are obtained from the operation measurement data interface unit 230 or from the invoice reference performance value DB.

The analysis reference performance value calculation unit 280 applies the analysis reference bullet information at the time of use and the energy generation operation measurement data at the time of use to the performance calculation engine to calculate the analysis reference power plant performance value for each use time. In addition, the analysis reference performance value calculation unit 280 applies the analysis reference gas information at the time of use and the measurement data of the complex power generation operation at the time of use to the performance calculation engine to calculate the analysis reference complex power plant performance value for each use time.

In particular, when the analysis reference fuel information at the time of use is applied to the performance calculation engine, the analysis reference performance value calculation unit 280 allows the driving measurement data at the time of use to be applied.

Understanding this In the case of energy generation, since bullet information 20 or 30 days ago is applied, performance is calculated using the calculation time as the past time and stored in the historian database. For example, if coal information 20 days before the current standard is used as the analysis standard coal information, the measured data of the energy generation operation 20 days before is applied to the performance calculation engine and calculated as the analysis standard energy power plant performance value 20 days before the current standard. do. In addition, when the coal information 30 days before the current reference is used as the analysis reference coal information, the energy generation operation measurement data 30 days before is applied to the performance calculation engine to calculate the analysis reference energy power plant performance value 30 days before the current reference.

To this end, in the case of combined power generation, gas information is applied one day before, so the performance is calculated using the calculation time as the past time and stored in the historian database. For example, when gas information 1 day before the current standard is used as the analysis reference gas information, the measurement data of the combined power generation operation 1 day before is applied to the performance calculation engine and calculated as the analysis standard complex power plant performance value 1 day before the current standard. do.

The analysis reference performance value database 290 is a storage body in which the calculated analysis reference energy plant performance value and the analysis reference composite power plant performance value are stored for each time of use. In other words, the analysis standard energy power plant performance value calculated as the analysis standard through the analysis reference performance value calculation unit 280 and the analysis standard composite power plant performance value are stored in the form of a historian database for each monitoring period, so that future performance It can be used efficiently in comparative analysis.

The performance value information providing unit (not shown) compares the invoice-based energy plant performance value and the analysis reference energy plant performance value and provides a graphic displayed on one screen to the manager terminal as shown in FIG. 4. In addition, the performance value information providing unit (not shown) compares the performance value of the complex power plant based on the invoice and the performance value of the analysis standard complex power plant to provide a graphic displayed on one screen to the manager terminal.

Accordingly, according to the present invention, it is possible to derive a performance calculation result on a real-time basis and continuously and automatically store a calculation result and storage on a real-time basis based on a performance calculation result at a specific point in the past based on a current reference.

In addition, it can minimize the management work of the real-time performance monitoring system. In the time performance monitoring system, reliability can be improved by increasing the accuracy of the performance results for the energy plant and each major equipment. By applying accurate fuel information, it is possible to clarify performance analysis by performing performance evaluation using stored data without using other tools such as Excel.

The embodiments in the description of the present invention described above are presented by selecting the most preferable examples to aid the understanding of those skilled in the art from among various possible examples, and the technical idea of the present invention is not necessarily limited or limited only by this embodiment. , Various changes and modifications, and other equivalent embodiments are possible within the scope of the technical spirit of the present invention.

200: Power plant performance evaluation server
210: Invoice-based fuel information interface unit
220: Invoice-based fuel information database
230: operation measurement data interface unit
240: Invoice-based performance value calculation unit
250: Invoice-based performance value database
260: Analysis standard fuel information interface unit
270: Analysis standard fuel information database
280: analysis standard performance value calculation unit
290: Analysis Criteria Performance Value Database

Claims (6)

An invoice-based fuel information providing server for generating invoice-based burn information, which is fuel information used for energy generation on an invoice basis, and invoice-based gas information, which is fuel information used for combined power generation, on an invoice basis;
An analysis reference fuel information providing server that generates analysis reference coal information, which is coal information that analyzes the composition of coal at the time of use of energy generation, and analysis reference gas information, which is gas information that analyzes the component of gas at the time of use of combined power generation; And
An invoice calculated by applying the invoice-based bullet information and the energy generation operation measurement data to a preset performance calculation engine and applying the invoice-based energy power plant performance value, the invoice-based gas information and the combined power generation operation measurement data to the performance calculation engine The standard composite power plant performance value is calculated and stored for each set monitoring period, and the analysis standard coal information at the time of use and the energy generation operation measurement data at the time of use are applied to the performance calculation engine, A power plant performance evaluation server that calculates and stores an analysis standard composite power plant performance value calculated by applying the analysis reference gas information and measurement data of the combined power generation operation at the time of use to the performance calculation engine for each set use time;
The invoice-based fuel information providing server provides the invoice-based burn information and invoice-based gas information to the power plant performance evaluation server,
The analysis reference fuel information providing server provides the analysis reference coal information and analysis reference gas information to the power plant performance evaluation server,
The power plant performance evaluation server,
An invoice-based fuel information interface unit for collecting the invoice-based bullet information and invoice-based gas information from the invoice-based fuel information providing server;
An operation measurement data interface unit that receives measurement data of energy generation operation applied to the energy generation from the energy plant operation server, and receives measurement data from the complex power generation operation operation server, which is applied to the complex power generation; And
An analysis reference fuel information interface unit configured to collect the analysis reference coal information and analysis reference gas information from the analysis reference fuel information providing server;
The method according to claim 1, wherein the power plant performance evaluation server,
An invoice reference fuel information database in which invoice reference burn information and invoice reference gas information collected through the invoice reference fuel information interface unit are stored; And
Extracts the invoice reference bullet information and invoice reference gas information of the energy generation from the invoice reference fuel information database, obtains the energy generation operation measurement data and the combined power generation operation measurement data from the operation measurement data interface unit, and the invoice reference coal By applying information and measurement data of energy generation operation to a preset performance calculation engine, the performance value of energy power plant based on invoice is calculated for each monitoring period, and the invoice-based gas information and combined power generation operation measurement data are applied to the performance calculation engine. Energy/complex power plant performance monitoring system further comprising; an invoice reference performance value calculation unit that calculates a reference composite power plant performance value for each monitoring period.
The method according to claim 1, wherein the power plant performance evaluation server,
An invoice-based performance value database in which the calculated invoice-based energy power plant performance value and the invoice-based composite power plant performance value are stored for each monitoring period;
An analysis reference fuel information database in which analysis reference burn information and analysis reference gas information collected through the analysis reference fuel information interface unit are stored;
Analysis standard coal information and analysis standard gas information at the time of use of energy generation is extracted from the analysis reference fuel information database, and measurement data of energy generation operation and combined power generation operation measurement data at the time of use are obtained, and analysis standard at the time of use By applying the coal information and the measurement data of the energy generation operation at the time of use to the performance calculation engine, the analysis standard energy power plant performance value is calculated for each use, and the analysis standard gas information at the time of use and the measurement data of the combined power generation operation at the time of use are recalled. An analysis reference performance value calculating unit that applies the performance calculation engine to the analysis reference complex power plant performance value for each use time; And
An analysis reference performance value database in which the calculated analysis reference energy plant performance value and the analysis reference composite power plant performance value are stored for each use time;
Power plant performance monitoring system further comprising a.
The method according to claim 1,
And the invoice-based fuel information interface unit collects invoice-based coal information and invoice-based gas information for each first cycle.
The method according to claim 1,
The analysis reference fuel information interface unit collects the analysis reference coal information and the analysis reference gas information for each second cycle.
The method of claim 2, wherein the power plant performance evaluation server,
A graphic displayed on one screen by comparing the performance value of the invoice-based energy plant and the analysis-based energy plant performance value, and a graphic displayed on one screen by comparing the invoice-based composite power plant performance value and the analysis-based composite power plant performance value A performance value information providing unit that provides the manager terminal;
Power plant performance monitoring system comprising a.

Images