KR101040735B1 - Diesel generator and the velocity of the wind generator real time checking system for an islands area - Google Patents

Abstract

The present invention is to provide a continuous diagnosis system for the diesel generator and wind power generator in the island area that can monitor a large number of island diesel generators and wind generators in real time through the Internet.

The island diesel generator and wind generator continuous diagnosis system according to the present invention includes a sensor unit for collecting the operating state of the island engine and the generator in real time, a condition monitoring system and a display management unit for processing and storing the collected signals in real time; A first Internet for transmitting the collected signal to land, a condition monitoring system server for storing the signal transmitted from the island area, an analysis unit for analyzing and processing the signal transmitted in real time, and the condition monitoring And a second Internet for transmitting a signal from the system server unit to the analysis unit.

Island, Diesel Generator, Wind Generator

Description

DIESEL GENERATOR AND THE VELOCITY OF THE WIND GENERATOR REAL TIME CHECKING SYSTEM FOR AN ISLANDS AREA}

The present invention is to provide a continuous diagnosis system for the diesel generator and wind power generator in the island area that can monitor a large number of island diesel generators and wind generators in real time through the Internet.

Since the island area is separated from the land, the island does not receive power stably from the large-scale power generation facilities, but is supplying electricity by installing diesel engines as the island's own power generation facilities. Unlike on-site and stable land-based power generation facilities, island-based diesel engines frequently break down and cause serious damage to island residents due to long-term interruptions in electricity supply.

In order to prevent accidents that occur frequently, regular preventive maintenance is carried out every year. However, due to the low technical skills and small size of construction companies, it is necessary to evaluate the appropriateness of construction after preventive maintenance.

In addition, during normal operation of diesel generators, power generation stoppages occur due to rapid rise in lubrication oil temperature due to damage of diesel generator bearings and sudden changes in coolant temperature and pressure. Torsional vibrations in diesel generators often cause engine shaft damage, resulting in long-term power generation. It is a major factor in the suspension.

However, even if the power generation stops due to these factors, it is difficult to determine the cause, and in particular, it is very difficult to establish a countermeasure due to the difficult access due to the sea weather in winter.

In particular, it is difficult to accurately monitor the driving situation even in the event of a sudden power outage. Therefore, it is difficult to predict accident factors and it takes a long time to find out the stopping factors.

Therefore, by monitoring the operating status of diesel generators in real time in real time, it is possible to immediately identify the cause of abnormality in the island diesel generators so that the cause of power failure can be removed in advance, and monitor the status of diesel generators after planned preventive maintenance. By analyzing the adequacy of construction through the project, the system is required to compensate for inadequate factors, thus preventing the stopping of island diesel generators in advance.

In order to solve the above problems, the present invention relates to an island diesel generator and a wind generator continuous diagnosis system that can monitor a large number of island diesel generators and wind generators in real time through the Internet.

In order to achieve the above technical problem, the diesel generator and the wind generator continuous diagnosis system according to the present invention is a sensor unit for collecting the operating state of the island engine and the generator in real time, and conditions for processing and storing the collected signal in real time A monitoring system and a display management unit, a first Internet for transmitting the collected signals to land, a condition monitoring system server unit for storing signals transmitted from the island area, and an analysis for analyzing and processing the signals transmitted in real time And a second Internet for transmitting a signal from the condition monitoring system server unit to the analyzing unit.

At this time, the sensor unit is provided with a plurality of sensors in each of the island diesel generator and the wind generator, bearing oil state, torsional vibration, bearing vibration, engine body vibration, generator current, coolant pressure, coolant temperature, generator frequency, It collects the operating state, such as the generator output and the generator voltage.

The Condition Monitoring System (CMS) and the Display Manager process and store a signal supplied from the sensor unit and display the data acquisition (DAQ) and data control unit to display the signal. Digital Signal Processing (DSP), and Data Base Managment System (DBMS).

In this case, the data receiver includes an analog-digital converter unit for converting the analog signal of the operating state of the diesel generator detected by a plurality of sensors into a digital signal, and a terminal unit for storing the signal converted from the analog-digital converter unit It features.

In addition, the data control unit receives and stores the signal supplied from the terminal unit, and the data receiving unit, data storage unit, database handling unit, data handling unit, data transmitting / receiving unit to process the signal such as handling the signal. Characterized in that it comprises a.

The display manager includes a data transmitter / receiver, a database handling unit, a data analyzer, and a display unit to receive and store data supplied from the data controller and the data manager, and to analyze and display the data on the screen. Characterized in that.

The condition monitoring system server unit may include a data receiving unit receiving and storing a signal supplied from the condition monitoring system unit in real time, and an analyzing unit analyzing the data.

The management unit may include a data transmission / reception unit, a database handling unit, a data analysis unit, and a graph display unit to analyze and process signals received in real time from a signal supplied from the condition monitoring system server unit. do.

The island diesel generator and wind generator continuous diagnosis system according to the present invention should monitor and collect bearing vibration, torsional vibration, generator current and lubricant temperature in real time and send them to the monitoring center on land via the Internet. In addition, a server and a signal processing program that can store and analyze signals transmitted from islands can be built.

Accordingly, the island diesel generator and wind generator continuous diagnosis system according to the present invention monitors the operating state of the island diesel generator in real time, receives a signal through the Internet, and then stores the diesel signal through a large server to store the signal and process the diesel. It can contribute to the stable operation of the diesel generator by eliminating the failure stop factors of the engine and generator in advance.

In addition, operating conditions such as the load and frequency of diesel generators can be viewed in real time in the monitoring center on land, contributing to the efficient operation of the diesel generator operation department in the island.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 5.

1 is a block diagram illustrating a diesel generator continuous diagnosis system according to an exemplary embodiment of the present invention. FIG. 2 is a plan view showing an initial screen of the diesel generator always-on diagnosis system shown in FIG. 1.

The island diesel generator and wind generator continuous diagnosis system is installed on the diesel generator and the wind generator respectively in the island area to monitor the operation status of each diesel generator and the wind generator in the island area in real time. In this case, since the island diesel generator and the wind generator continuous diagnosis system will have the same components, the present invention will be described by taking the island diesel generator continuous diagnosis system as an example.

The island diesel generator continuous diagnosis system includes a sensor unit 100 for collecting the operating states of the island diesel engine and the generator, a condition monitoring system and a display management unit 110 for processing and storing the collected signals, and the collected signals. The first Internet 120 to be transmitted to the land, the condition monitoring system server unit 130 for storing the signal transmitted from the island area, and the signal from the condition monitoring system server unit 130 to transmit to the management unit 150 The second Internet 140, and the management unit 150 for analyzing and processing the signal transmitted in real time.

Sensor unit 100 has a plurality of sensors (100-1 to 100-8) is installed in the island diesel generators, bearing oil state, torsional vibration, bearing vibration, engine body vibration, generator current, coolant Collect operating conditions such as pressure, coolant temperature, generator frequency, generator output, and generator voltage.

The Condition Monitoring System (CMS) and the Display Management Unit (Display) 110 process and store a signal supplied from the sensor unit 100 and display the data Acquisition as shown in FIG. DAQ (115), a Digital Signal Processing (DSP) 116, and a Data Base Managment System (DBMS) 118.

The data acquisition (DAQ) 115 may include an analog-digital converter 112 for converting an analog signal of an operating state of a diesel generator detected from a plurality of sensors 100-1 to 100-8 into a digital signal. The terminal unit 114 stores a signal converted from the analog-digital converter unit 112. The analog-digital converter unit 112 is connected to the plurality of sensors 100-1 to 100-8 and supplies the converted signal to the terminal unit 114. The terminal unit 114 includes a plurality of components, and each of the plurality of components receives a signal from the analog-digital converter unit 112.

The digital signal processing (DSP) 116 receives and stores a signal supplied from the terminal unit 114, and processes the signal such as handling the signal such as the data receiving unit 210, the data storage unit ( 212), a database handling unit 214, a data handling unit 216, and a data transmission / reception unit 218, and a data base management system (DBMS) 118 manages data.

The display management unit receives and stores data supplied from the data control unit 116 and the data management unit 118, and analyzes and displays the data on the screen. The data transmission / reception unit 220 and the database handling unit 226 ), A data analyzer 222, and a display unit 224.

The first Internet unit 120 transmits the collected signal of the operating state of the diesel generator in the urban area to the land.

As shown in FIG. 4, the condition monitoring system server unit 130 receives a signal supplied from the condition monitoring system unit 110 in real time and stores the data receiving unit 132 and an analysis unit 134 analyzing the data. It includes. Each of the data receiver 132 and the analyzer 134 of the condition monitoring system server 130 includes a data receiver 230 and 240, a data transmitter 232 and 242, a message sorter 234 and 244, and a database handling unit 236 and 248. do.

The second internet unit 140 transmits a signal supplied from the condition monitoring system server unit 130 to the management unit 150.

As shown in FIG. 5, the management unit 150 receives a signal supplied from the condition monitoring system server unit 130 in real time, and analyzes and processes the signal. The data transmitting / receiving unit 152 and the database handling unit 154 ), A data analyzer 156, and a graph display unit 158.

The island diesel generator continuous diagnosis system formed as described above may store the driving status of at least one island diesel generator in one server through the Internet, and monitor the driving status of the diesel generator of the at least one island island in real time. Can be.

In addition, the island diesel generator and wind generator continuous diagnosis system predicts engine failure by monitoring the state of torsional vibration that may occur in diesel generators and wind generators in the island area, and prevents shaft loss due to torsion. Prediction of engine failure can be prevented through the state monitoring to prevent the shaft from being damaged by torsion, and the bearing health can be assessed by monitoring the bearing vibration and the abnormal condition of the oil. By determining the adequacy of maintenance work such as shaft alignment, it can greatly contribute to the stable operation of diesel generators in island areas. In addition, information such as load, frequency and voltage, which are very important for the power quality of the island power plant, is also delivered to the land in real time, which can greatly contribute to stable power supply in the island area.

On the other hand, as a result of experimenting with the island diesel generator and wind generator constant diagnosis system according to the present invention, the island generator constant monitoring system developed in the latitude internal combustion diesel generator possessed by Korea Electric Power has been measured and delivered in real time The signal and the accuracy of the data obtained by installing the existing commercially available foreign products on the site were compared and predicted as shown in [Table 1] below.

Item Comparing Precision with Existing Commercial Programs Real time Compare numbers and match Total amplitude Good real-time tracking and close match Time base Excellent signal tracking per hour and better signal accuracy than use Trend Excellent signal tracking per hour, within 2% of peak error Bode Feature but excluded from experiment Spectrum Excellent signal tracking and relatively high resolution Orbit Appears identical to commercial programs Cascade Appears identical to commercial programs Waterfall Appears identical to commercial programs Temperature Same as actual site electric current Same as actual site Torsional vibration Inventive product development

As a result of comparing the accuracy of the acquired signals, the time base vibration magnitude was better than the existing foreign products, and the signal accuracy such as vibration trend, waterfall, and temperature was similar, so the real-time monitoring ability was excellent, and suddenly increased torsional vibration It can greatly contribute to the stable operation of diesel generators in island areas, such as monitoring the site immediately, predicting cylinder damage, and stopping the generator to prevent shaft loss.

In the detailed description of the present invention described above with reference to the preferred embodiment of the present invention, those skilled in the art or those skilled in the art having ordinary knowledge of the present invention described in the claims to be described later It is apparent that various modifications and changes can be made in the present invention without departing from the spirit and scope of the invention.

1 is a block diagram illustrating a diesel generator always-on diagnosis system according to an exemplary embodiment of the present invention.

FIG. 2 is a plan view illustrating an initial screen of the diesel generator always-on diagnosis system illustrated in FIG. 1.

3 is a block diagram illustrating a condition monitoring system and a display manager illustrated in FIG. 1.

4 is a block diagram illustrating a condition monitoring system server unit illustrated in FIG. 1.

5 is a block diagram illustrating the management unit illustrated in FIG. 1.

<Explanation of symbols for main parts of the drawings>

100: sensor unit 110: condition monitoring system and display management unit

120: first Internet unit 130: condition monitoring system server unit

140: second Internet 150: management

Claims (8)

A sensor unit for collecting a signal representing an operating state of an island engine and a generator in real time; A condition monitoring system and a display management unit which receive, process, and store a signal collected in real time by the sensor unit; A first Internet for transmitting the collected signal to a condition monitoring system server unit through the condition monitoring system; A condition monitoring system server unit which stores a signal transmitted from the condition monitoring system through the first internet; A management unit for analyzing and processing a signal transmitted from the condition monitoring system server unit via a second internet; A second internet for transmitting a signal from the condition monitoring system server unit to the management unit, The management unit receives a signal supplied from the condition monitoring system server unit in real time to include a data transmission / reception unit, a database handling unit, a data analysis unit, a graph display unit for analyzing and processing the signal Continuous diagnosis system for diesel generators and wind generators. The method of claim 1, The sensor unit is equipped with a plurality of sensors in each of the island diesel generators and wind generators, bearing oil condition, torsional vibration, bearing vibration, engine body vibration, generator current, coolant pressure, coolant temperature, generator frequency, generator output And island diesel generators and wind generators continuous diagnosis system, characterized in that for collecting a signal indicating an operating state, such as generator voltage. The method of claim 1, The Condition Monitoring System (CMS) and the Display Manager receive, process, and store signals collected in real time from the sensor, and display and process the data acquisition (DAQ) and data controller. (Digital Signal Processing (DSP)), a diesel generator and wind generator continuous diagnosis system, characterized in that it comprises a Data Base Managment System (DBMS). The method of claim 3, The data receiver comprises: an analog-digital converter unit for converting an analog signal of an operating state of a diesel generator detected from a plurality of sensors into a digital signal; Island diesel generator and wind generator continuous diagnosis system comprising a terminal unit for storing the signal converted from the analog-to-digital converter unit. 5. The method of claim 4, The data control unit receives and stores a signal supplied from the terminal unit, and includes a data receiver, a data storage unit, a database handling unit, a data handling unit, and a data transmitting / receiving unit to process the signal such as handling the signal. Island diesel generator and wind generator continuous diagnosis system, characterized in that. The method of claim 3, The display manager includes a data transmitter / receiver, a database handling unit, a data analyzer, and a display unit to receive and store data supplied from the data controller and the data manager, and to analyze and display the data on the screen. On-site diesel generator and wind generator continuous diagnosis system. The method of claim 1, The condition monitoring system server unit is an island diesel generator and wind generator continuous diagnosis system comprising a data receiving unit for receiving and storing the signal supplied from the condition monitoring system unit in real time, and an analysis unit for analyzing the data. delete

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