KR20060069547A - Apparaus for monitoring and diagnosing the real-time operating performance of a thermoelectric power plant - Google Patents

Abstract

The present invention relates to a real-time operating performance monitoring and diagnostic apparatus of a thermal power plant.

The present invention provides a measurement system for obtaining field data including temperature, pressure, flow rate, and other measured values from various power generation facilities of a thermal power plant in real time, converting them into digital signals and outputting them as real-time operation data; A server system that calculates performance and efficiency of the various power generation facilities by using real-time operation data of the measurement system, displays the calculated result as operation information, and outputs it to the outside; And a client system for receiving and displaying driving information of the server system in real time, and performing performance diagnosis simulation of the various power generation facilities using the driving information.

Therefore, the present invention is to monitor and diagnose the operating performance of various power generation facilities of the thermal power plant in real time, a system for monitoring various power generation facilities such as boiler, air preheater, water heater, condenser, fan in the thermal power plant in real time By providing a stand-alone module and interface environment that is not dependent on the existing distributed control system, and by providing a remote system manager a real-time operation performance simulation function to determine the optimal operating conditions during operation of the power plant. By outputting the performance change during operation or improvement of the thermal power plant to the operator and system manager in real time, it prevents economic operation and sudden accidents of the thermal power plant, as well as the inspection cycle of the power plant. It has the effect of smoothly determining the time for repair and replacement.

Description

APPARAUS FOR MONITORING AND DIAGNOSING THE REAL-TIME OPERATING PERFORMANCE OF A THERMOELECTRIC POWER PLANT}             

1 is a block diagram showing the configuration of a real-time operating performance monitoring and diagnostic apparatus of the thermal power plant according to the present invention.

2 is a block diagram showing the configuration of an example in which a measurement system is implemented in a combined form of a data acquisition system and a distributed control system in a real-time operating performance monitoring and diagnostic apparatus of a thermal power plant according to the present invention;

*** Description of the symbols for the main parts of the drawings ***

10 sensor 20 measurement system

21: field data processing unit 22: operation data storage unit

30: server system 31: database

32: server control unit 33: performance result storage unit

40: client system 41: simulation result storage unit

42: client control unit 43: client performance result storage unit

44: client control unit

The present invention relates to a power plant management device of a thermal power plant, in particular, in monitoring and diagnosing operation performance of various power plants of a thermal power plant in real time, such as a boiler, air preheater, feed water heater, condenser, fan, etc. A system for monitoring various power generation facilities in real time provides a stand-alone module and interface environment not dependent on the existing distributed control system, and also determines the optimal operating conditions during operation of the power plant to a remote system manager. By providing real-time operation performance simulation function to output real-time performance change during operation or improvement of thermal power plant power generation facilities to operators and system administrators to prevent economic operation and sudden accident of thermal power plant in advance. Inspection period, repair and replacement time of power generation facilities The present invention relates to smoothly perform real-time driver performance monitoring and diagnostic system for the thermal power plant of.

In general, Distributed Control System (DCS) of thermal power generation facilities, by distributing control functions and centralizing information processing and operation operation functions, facilitate operation data management of thermal power generation facilities, and In addition to the control function, it is a complex control system that requires monitoring and communication functions for the safe operation of the entire system.

This distributed control system is provided as a unified system of plant process management and information control system, providing optimized control, high efficiency operation and monitoring diagnostic functions to the operators of thermal power plants.

The real-time performance monitoring calculation of the thermal power plant currently operating in Korea is calculated by the performance calculation logic built in this distributed control system, and the database is generated as a result of the calculation, and the MMI (man supporting text or graphic screen) is supported. The results are displayed on the machine interface, etc. to provide the operator with operational information on the thermal power plant.

In addition, the distributed control system of the thermal power plant as described above centralizes control functions, information processing, operation, and operation functions, making it difficult to operate efficiently due to the load burden other than the most important control function in power plant operation. In the case of facility management through upgrade of the system or change of existing data due to the improvement, in most cases, there is a problem of obtaining technical help from the distributed control system provider by the complexity of each centralized function.

In addition, the performance monitoring and diagnostic apparatus of the conventional thermal power plant, it is not possible to implement the Unix environment, such as the operating system of the power plant control system with the performance of the personal computer and the operating system, and as a result, the performance evaluation of the power plant There is a problem that it is impossible to develop in an online client and server method.

There was a problem in that real-time monitoring and real-time performance simulation could not be performed simultaneously on a personal computer due to the poor performance of the instrument system.

Therefore, the present invention has been proposed to solve the conventional problems as described above, in monitoring and diagnosing the operation performance of various power generation facilities of the thermal power plant, the boiler, air preheater, feed water heater, condenser, It provides stand-alone module and interface environment for real-time monitoring of various power generation facilities such as fans and independent of the existing distributed control system. It is an object of the present invention to provide an apparatus for providing a real-time driving performance simulation function for determining conditions.

The present invention for achieving the above object is a measurement system for acquiring in real time field data including temperature, pressure, flow rate, and other measured values from various power generation facilities of a thermal power plant, converting them into digital signals and outputting them as real-time operation data and; A server system that calculates performance and efficiency of the various power generation facilities by using real-time operation data of the measurement system, displays the calculated result as operation information, and outputs it to the outside; And receiving and displaying the driving information of the server system in real time, and performing a performance diagnosis simulation on the various power generation facilities using the driving information.

In addition, the present invention is a system for monitoring various power generation facilities of the thermal power plant, the field data including the temperature, pressure, flow rate, and other measured values directly from the various power generation facilities and output the real-time operation data converted into digital signals A Data Acquisition System (DAS); A distributed control system (DCS) for controlling real-time operation data by using field data including temperature, pressure, flow rate, and other measured values obtained from various power generation facilities to control the power generation facilities; A server system for calculating the performance and efficiency of the various power generation facilities using real-time operation data of the data acquisition system and the distributed control system, displaying the calculated result as operation information, and transmitting it to the outside; And receiving and displaying the driving information of the server system in real time, and performing a performance diagnosis simulation on the various power generation facilities using the driving information.

In addition, the present invention is a system for monitoring various power generation facilities of the thermal power plant, the real-time operation data using the field data including the temperature, pressure, flow rate, and other measured values obtained from the various power generation facilities to output the power plant A distributed control system for controlling; A power production management system server (PGMS) for receiving real-time operation data of the distributed control system and displaying it to the outside; A server system that calculates the performance and efficiency of the power generation facility by using real-time operation data displayed on the power production management system server, displays the calculated result value as operation information, and transmits it to the outside; And receiving and displaying the driving information of the server system in real time, and performing a performance diagnosis simulation on the various power generation facilities using the driving information.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a block diagram showing the configuration of the real-time operation performance monitoring and diagnostic apparatus of the thermal power plant of the present invention, as shown in this, temperature, pressure, flow rate, and other measurements from the sensor 10 of the various power plants of the thermal power plant A measurement system 20 for acquiring field data including a value in real time, converting the data into a digital signal, and outputting the digital data as real-time operation data; A server system 30 for calculating the performance and efficiency of the various power generation facilities by using real-time operation data of the measurement system 20, displaying the calculated result as operation information, and transmitting it to the outside; The client system 40 is configured to receive and display operation information of the server system 30 in real time, and perform performance diagnosis simulation on the various power generation facilities using the operation information.

The present invention relates to a real-time operating performance monitoring and diagnostic apparatus of a thermal power plant that can contribute to maintaining the optimum operating performance for improving the efficiency and performance of various power plants of the thermal power plant, in particular boiler, air preheater, water supply of thermal power plant The system for monitoring various power generation facilities such as heaters, condensers and fans in real time provides stand-alone module and interface environment that is not dependent on the existing distributed control system. Real-time operation performance simulation function to determine the optimal operating condition during operation of the power plant, and output the performance change according to the operation or improvement of the thermal power plant power plant in real time to the operator, system administrators, etc. In addition to preventing driving and sudden accidents, The inspection period, repair and replacement time determination is carried out smoothly.

In FIG. 1, various power generation facilities such as a boiler, an air preheater, a water heater, a condenser, and a fan of a thermal power plant have a sensor 10 for sensing temperature, pressure, flow rate, and other measured values around a body and a pipe. The measurement system 20 acquires, from the sensor 10, field data including temperature, pressure, flow rate, and other measured values generated in the power generation facility during operation in the field data processing unit 21, and then converts them into digital signals. By storing the real-time operation data in the operation data storage unit 22, and outputs it to the server system (30).

Then, the server system 30 calculates the performance and efficiency of the various power generation facilities using the real-time operation data of the measurement system 20, displays the calculated result as the operation information and the client system (connected to the outside) 40).

That is, the database 31 of the server system 30 stores performance design values of various power generation facilities, steam tables for determining operating parameter values, ASME PTC CODE related to performance tests, and correction coefficient values, and stores the measurement system ( According to the real time operation data of 20), the server control unit 32 calculates operation performance and efficiency of various power generation facilities in real time using the data stored in the database 31 and displays the operation information as well as real time operation information. To the client system 40.

At this time, the performance result storage unit 33 stores the real-time operation data received from the measurement system 20 or the performance value and the efficiency value calculated by the server control unit 32.

The client system 40, which has received the driving information from the server system 30, displays the driving information in real time, and simulates the performance diagnosis of the various power generation facilities using the driving information according to the selection of a system administrator. Do this.

That is, the client database 41 includes data of the database 31 of the server system 30 including performance design values of various power generation facilities, steam tables for determining operating parameter values, ASME PTC CODE related to performance tests, correction coefficient values, and the like. In this case, the client controller 42 receives and displays the driving information in real time from the server system 30 and displays the driving information and data stored in the client database 41 according to the selection of a system administrator. Control performance simulation of power generation facilities.

The client performance result storage unit 43 stores driving information received from the server system 30 in real time, and the simulation result storage unit 44 stores the performance diagnosis simulation results performed by the client control unit 42. do.

The measurement system 20, the server system 30, and the client system 40 communicate with each other by any one of Transmission Control Protocol / Internet Protocol (TCP / IP), MODBUS, and OLE for Process Control (OPC). The interface is used to transmit and receive data.

Meanwhile, according to the present invention, each system 20 to 40 for real-time monitoring of various power generation facilities such as a boiler, an air preheater, a water heater, a condenser, and a fan of a thermal power plant is independent of the existing distributed control system. (Stand Alone Type) has a form of a module, which is specifically applied to the thermal power plant, as shown in Figures 2 and 3, the temperature, pressure, flow rate, and other from the sensor 10 of various power generation facilities The measurement system 20 which acquires field data including measurement values in real time, converts them into digital signals, and outputs them as real-time operation data is obtained from a data acquisition system (DAS) and a distributed control system (DCS). ) May be implemented in a first embodiment of a combined type and a second embodiment in which roles are divided into a distributed control system and a power production management system server.

That is, in the first embodiment of FIG. 2, the distributed control system 200 uses real-time operation data using field data including temperature, pressure, flow rate, and other measured values obtained from various power generation facilities 100 of a thermal power plant. Outputs to control the power generation equipment, wherein the data acquisition system 210 separates the field data including temperature, pressure, flow rate, and other measured values directly from the various power generation facilities 100 separately from the distributed control system 200. By outputting the real-time operation data acquired and converted into a digital signal, the load of the distributed control system 200 is reduced.

In addition, the server system 300 uses the real-time operation data of the data acquisition system 210 and the distributed control system 200 through the programmed performance calculation logic (corresponding to the server controller 32 in FIG. 1). It calculates the performance and efficiency for the power plant 100, and displays the calculated result to the operator in the field as the operation information and transmits the operation information to the remote client system 400 remotely.

Then, the client system 400 receives the operation information of the server system 300 in real time and displays it to a remote system administrator, and the various power generation facilities 100 using the operation information according to the selection of the system administrator. By performing the performance diagnosis simulation for the system, the system administrator can set the optimum operating conditions based on the performance and efficiency results provided.

Here, the distributed control system 200, the data acquisition system 210, the server system 300, and the client system 400 may be interfaced with each other using any one of TCP / IP, MODBUS, and OPC methods. Send and receive.

Meanwhile, in the second embodiment of FIG. 3, the distributed control system 200 outputs real-time operation data by using field data including temperature, pressure, flow rate, and other measured values obtained from various power generation facilities 100. The power generation control system, and a power generation management server (PGMS) 500 receives the real-time operation data of the distributed control system 200 is displayed to the outside, where the distributed control system 200 Is responsible for the control of various power generation equipment 100 as a main function and the power production management system server 500 serves to monitor the real-time operation data to the operator of the field, thereby reducing the load of the distributed control system 200 By reducing the power plant 100 is operated efficiently and stably.

Then, the power generation system 100 using real-time operation data displayed on the power production management system server 500 through the performance calculation logic (corresponding to the server control unit 32 in FIG. 1) programmed in the server system 300. Calculate the performance and efficiency of the control panel, and display the calculated result as driving information and transmit the driving information to a remote client system 400 remotely located therefrom. Receives 300) operation information in real time and displays it to the system administrator, and performs the performance diagnosis simulation for the various power generation facilities using the operation information according to the selection of the system administrator, the performance and efficiency results provided by the system administrator Based on this, the optimum operating conditions can be set.

In this case, the distributed control system 200, the power production management system server 500, the server system 300 and the client system 400 by using any one of the communication method of the TCP / IP, MODBUS, OPC method Interface to send and receive data.

 As described above, the present invention, in monitoring and diagnosing the operation performance of various power generation facilities of the thermal power plant in real time, the various power generation facilities such as boiler, air preheater, feed water heater, condenser, fan, etc. in the thermal power plant in real time The system for monitoring provides a stand-alone module and interface environment that is not dependent on the existing distributed control system, and also provides the remote system administrator with real-time operation performance simulation to determine the optimal operating conditions during operation of the power plant. By providing the function, the change in performance during operation or improvement of the thermal power plant's power generation facilities is output to the operator and system administrator in real time, thereby preventing economic operation and sudden accidents of the thermal power plant, as well as generating power generation facilities. Efficiently determine the inspection cycle, maintenance and replacement timing A.

Claims (8)

A measurement system which acquires field data including temperature, pressure, flow rate, and other measured values from various power generation facilities of the thermal power plant in real time, converts them into digital signals and outputs them as real-time operation data; A server system that calculates performance and efficiency of the various power generation facilities by using real-time operation data of the measurement system, displays the calculated result as operation information, and outputs it to the outside; And real-time operation performance monitoring of the thermal power plant, comprising: a client system for receiving and displaying operation information of the server system in real time, and performing performance diagnosis simulations for the various power generation facilities using the operation information. Diagnostic device. The system of claim 1, wherein the server system comprises: a database for storing performance design values of various power generation facilities, a steam table for determining operating parameter values, an ASME PTC CODE related to performance test, and a correction coefficient value; A server controller which calculates and displays operation performance and efficiency of various power generation facilities in real time using data stored in the database according to real time operation data of a measurement system and transmits the operation information to a client system in real time; And a performance result storage unit for storing real-time operation data received from a measurement system or a performance value and an efficiency value calculated by the server control unit. The system of claim 1, wherein the client system comprises: a client database for storing performance design values of various power generation facilities, steam tables for determining operating parameter values, ASME PTC CODE related to performance tests, and correction coefficient values; A client controller which receives and displays driving information in real time from a server system, and performs performance diagnosis simulation on various power generation facilities using the driving information and data stored in a client database; A client performance result storage unit for storing the driving information received in real time from the server system; And a simulation result storage unit for storing a performance diagnosis simulation result performed by the client control unit. The method of claim 1, wherein the measurement system, the server system, and the client system mutually transmit data using any one of a communication method such as Transmission Control Protocol / Internet Protocol (TCP / IP), MODBUS, and OLE for Process Control (OPC). Real-time operating performance monitoring and diagnostic device of the thermal power plant, characterized in that for transmitting and receiving. A system for monitoring various power generation facilities of a thermal power plant, comprising: a data acquisition system that obtains field data including temperature, pressure, flow rate, and other measured values directly from various power generation facilities, and outputs real-time operation data converted into digital signals ( DAS (Data Acquisition System); A distributed control system (DCS) for controlling real-time operation data by using field data including temperature, pressure, flow rate, and other measured values obtained from various power generation facilities to control the power generation facilities; A server system for calculating the performance and efficiency of the various power generation facilities using real-time operation data of the data acquisition system and the distributed control system, displaying the calculated result as operation information, and transmitting it to the outside; And real-time operation performance monitoring of the thermal power plant, comprising: a client system for receiving and displaying operation information of the server system in real time, and performing performance diagnosis simulations for the various power generation facilities using the operation information. Diagnostic device. The thermal power generation system of claim 5, wherein the data acquisition system, the distributed control system, the server system, and the client system transmit and receive data using any one of TCP / IP, MODBUS, and OPC methods. Real-time operating performance monitoring and diagnostic device of the facility. In the system for monitoring various power generation facilities of thermal power plant, distributed control system that controls real-time operation data by outputting real-time operation data using field data including temperature, pressure, flow rate and other measured values obtained from various power generation facilities. and; A power production management system server (PGMS) for receiving real-time operation data of the distributed control system and displaying it to the outside; A server system that calculates the performance and efficiency of the power generation facility by using real-time operation data displayed on the power production management system server, displays the calculated result value as operation information, and transmits it to the outside; And real-time operation performance monitoring of the thermal power plant, comprising: a client system for receiving and displaying operation information of the server system in real time, and performing performance diagnosis simulations for the various power generation facilities using the operation information. Diagnostic device. The system of claim 7, wherein the distributed control system, the power production management system server, the server system, and the client system transmit and receive data using any one of TCP / IP, MODBUS, and OPC methods. Real-time operation performance monitoring and diagnosis device of thermal power plant.

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