CN115033320B - Interface implementation method for intelligent monitoring alarm system of thermal power plant - Google Patents
Interface implementation method for intelligent monitoring alarm system of thermal power plant Download PDFInfo
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- CN115033320B CN115033320B CN202210519044.XA CN202210519044A CN115033320B CN 115033320 B CN115033320 B CN 115033320B CN 202210519044 A CN202210519044 A CN 202210519044A CN 115033320 B CN115033320 B CN 115033320B
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Abstract
The invention discloses an implementation method for an intelligent monitoring alarm system interface of a thermal power plant, wherein the system interface comprises a scoring display area, and the scoring display area comprises a plurality of scoring frames which are distributed in an array; the scoring frame is displayed by the steps of: obtaining scoring values of a plurality of devices in the thermal power generating unit, and displaying the scoring values of the plurality of devices in a plurality of scoring frames in a system interface; the score frame comprises a score display area and a background area; the scoring values are displayed in a display area, and the colors of the background area are correspondingly selected and displayed according to the current scoring values. According to the invention, the scoring values of a plurality of devices in the thermal power generating unit are displayed, and the background color of the scoring frame is adjusted based on the scoring values, so that the running state of the machine can be intuitively perceived by operation and maintenance personnel.
Description
Technical Field
The invention belongs to the technical field of computers, and particularly relates to an interface implementation method for an intelligent monitoring alarm system of a thermal power plant.
Background
The operation digital monitoring of the thermal power plant is a mature technology so far, but the digital operation data brings a large amount of operation data, the operation data of the thermal power plant is only analyzed by experience of operation and maintenance personnel, the requirement on the operation and maintenance personnel is high, the operation data amount is large, the working strength of the operation and maintenance personnel is high, and the required operation and maintenance personnel is huge.
The reason for this is that the interface of the monitoring disc alarm system is lack of good design, so that the running state of the machine presented by the running data is difficult to be intuitively felt by operation and maintenance personnel.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides an interface implementation method for an intelligent monitoring alarm system of a thermal power plant, which can intuitively sense the running state of a machine by operation and maintenance staff by displaying the scoring values of a plurality of devices in the thermal power plant and adjusting the background color of a scoring frame based on the scoring values.
In order to solve the technical problems, the invention adopts the following technical scheme: the system interface comprises a scoring display area, wherein the scoring display area comprises a plurality of scoring frames which are distributed in an array;
the scoring frame is displayed by the steps of:
obtaining scoring values of a plurality of devices in the thermal power generating unit, and displaying the scoring values of the plurality of devices in a plurality of scoring frames in a system interface; the score frame comprises a score display area and a background area;
the scoring values are displayed in a display area, and the colors of the background area are correspondingly selected and displayed according to the current scoring values.
The implementation method for the intelligent monitoring disc alarm system interface of the thermal power plant further comprises an abnormal state display area, wherein the abnormal state display area is displayed through the following steps:
alarm information of a plurality of devices in the thermal power generating unit is obtained, and the obtained alarm information is displayed in an abnormal state display area in a rolling broadcast mode according to a time sequence.
The implementation method for the intelligent monitoring disc alarm system interface of the thermal power plant further comprises a unit load operation trend display area, wherein the unit load operation trend display area is displayed through the following steps:
acquiring real-time load data of a unit and predicted load data of the unit, and generating a real-time load change curve and a predicted load change curve along with time;
and generating a line graph containing a real-time load time change curve and a predicted load time change curve by taking the time sequence as the horizontal axis and the load value as the vertical axis for display.
The implementation method for the intelligent monitoring panel alarm system interface of the thermal power plant is characterized in that the system interface further comprises a unit health degree display area, and the unit health degree display area is displayed through the following steps:
acquiring a unit total score, a safety score, an economic score, an environmental-friendly score and an automatic score;
generating a pentagonal energy map, five corners of the pentagonal energy map representing a crew total score, a safety score, an economic score, an environmental score, and an automatic score; the safety score is an evaluation score of the thermal power unit in a safe mode operation, the economic score is an evaluation score of the thermal power unit in an economic mode operation, the environmental protection score is an evaluation score of the thermal power unit in an environmental protection mode operation, and the automatic score is an evaluation score of the thermal power unit in an automatic mode operation; the total score of the machine set is an average score of the sum of a safety score, an economic score, an environmental-friendly score and an automatic score;
in the pentagon capability map, generating a corresponding pentagon pattern according to the current unit total score, the safety score, the economic score, the environmental protection score and the automatic score;
and displaying the pentagon energy map generated with the pentagon pattern in the unit health degree display area.
The implementation method for the intelligent monitoring alarm system interface of the thermal power plant further comprises a model alarm ranking display area, wherein the alarm ranking display area is displayed through the following steps:
acquiring historical alarm information of a plurality of devices in the thermal power generating unit, counting the alarm times of each device from the historical alarm information, generating a histogram based on the alarm times, and displaying the histogram in an alarm ranking display area.
Compared with the prior art, the invention has the following advantages: according to the invention, by utilizing a scoring mechanism for scoring a plurality of devices of the thermal power generating unit, operation and maintenance personnel can know the operation condition of the devices through scoring, and the operation state of the machine can be intuitively felt by the operation and maintenance personnel by adjusting the background color of the scoring frame based on the scoring value because the scoring value lacks visual feeling.
The technical scheme of the invention is further described in detail through the drawings and the embodiments.
Drawings
FIG. 1 is an exemplary diagram of a system interface.
Detailed Description
As shown in FIG. 1, the system interface comprises a scoring display area 100, wherein the scoring display area 100 comprises a plurality of scoring frames which are distributed in an array;
the scoring frame is displayed by the steps of:
obtaining scoring values of a plurality of devices in the thermal power generating unit, and displaying the scoring values of the plurality of devices in a plurality of scoring frames in a system interface; the score frame comprises a score display area and a background area;
the scoring values are displayed in a display area, and the colors of the background area are correspondingly selected and displayed according to the current scoring values.
It should be noted that, the scoring value of the device is calculated and scored by establishing a scoring model for the device, using the scoring model to score the operation data of the device, for example, the initial score of the device defaults to 100 points, using an interval scoring model, when the operation data value appears once in the alarm interval, the device scoring value is obtained by buckling 10 according to the change of the operation data in real time.
The color of the background area may correspond to different colors in different scale values, for example 100 for white, 80-99 for light blue, 50-79 for orange, and less than 50 for red.
In this embodiment, the system interface further includes an abnormal state display area 200, and the abnormal state display area 200 is displayed by the following steps:
alarm information of a plurality of devices in the thermal power generating unit is acquired, and the acquired alarm information is displayed in an abnormal state display area 200 in a rolling broadcast mode according to a time sequence.
In this embodiment, the system interface further includes a unit load operation trend display area 300, where the unit load operation trend display area 300 is displayed by the following steps:
acquiring real-time load data of a unit and predicted load data of the unit, and generating a real-time load change curve and a predicted load change curve along with time;
and generating a line graph containing a real-time load time change curve and a predicted load time change curve by taking the time sequence as the horizontal axis and the load value as the vertical axis for display.
It should be noted that, the unit load data can be measured by installing a sensor at a position such as a liquid outlet pipe, an exhaust pipe and the like, and can be calculated by utilizing data such as motor power and the like to obtain prediction data, and whether the unit has faults can be known by comparing the prediction data with the real-time data.
In this embodiment, the system interface further includes a unit health degree display area 400, and the unit health degree display area 400 is displayed through the following steps:
acquiring a unit total score, a safety score, an economic score, an environmental-friendly score and an automatic score;
generating a pentagonal energy map, five corners of the pentagonal energy map representing a crew total score, a safety score, an economic score, an environmental score, and an automatic score; the safety score is an evaluation score of the thermal power unit in a safe mode operation, the economic score is an evaluation score of the thermal power unit in an economic mode operation, the environmental protection score is an evaluation score of the thermal power unit in an environmental protection mode operation, and the automatic score is an evaluation score of the thermal power unit in an automatic mode operation; the total score of the machine set is an average score of the sum of a safety score, an economic score, an environmental-friendly score and an automatic score;
in the pentagon capability map, generating a corresponding pentagon pattern according to the current unit total score, the safety score, the economic score, the environmental protection score and the automatic score;
the pentagon energy map in which the pentagon pattern is generated is displayed in the unit health display area 400.
The thermal power generating unit operates in a safe mode, namely, an operation mode in which safe production is used as a first purpose, and in the mode, a safety protection facility of the thermal power generating unit operates at full power.
The thermal power generating unit operates in an economic mode, namely, the thermal power generating unit operates with the aim of lowest production consumption on the premise of ensuring production.
The thermal power generating unit operates in an environment-friendly mode, and the thermal power generating unit operates with the aim of lowest carbon emission.
The thermal power generating unit operates in an automatic mode, namely the thermal power generating unit alternately operates in three modes of a safe mode, an economic mode and an environment-friendly mode according to the production task of the thermal power generating unit on the same day.
Furthermore, the scoring mechanism in each mode can be designed according to the actual situation of the thermal power generating unit, for example, the scoring mechanism is designed based on the alarming times.
In this embodiment, the system interface further includes a model alert ranking display area 500, where the alert ranking display area is displayed by:
acquiring historical alarm information of a plurality of devices in the thermal power generating unit, counting the alarm times of each device from the historical alarm information, generating a histogram based on the alarm times, and displaying the histogram in an alarm ranking display area.
In the application of the invention, an operation and maintenance person can analyze possible fault problems in time by comprehensively checking the scoring display area 100, the abnormal state display area 200, the unit load operation trend display area 300, the unit health display area 400 and the model alarm ranking display area 500.
The foregoing description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and any simple modification, variation and equivalent structural changes made to the above embodiment according to the technical substance of the present invention still fall within the scope of the technical solution of the present invention.
Claims (1)
1. The method for realizing the intelligent monitoring alarm system interface of the thermal power plant is characterized in that the system interface comprises a scoring display area, and the scoring display area comprises a plurality of scoring frames which are distributed in an array;
the scoring frame is displayed by the steps of:
obtaining scoring values of a plurality of devices in the thermal power generating unit, and displaying the scoring values of the plurality of devices in a plurality of scoring frames in a system interface; the score frame comprises a score display area and a background area;
the scoring values are displayed in a display area, and the colors of the background area are correspondingly selected and displayed according to the current scoring values; the system interface also comprises an abnormal state display area, wherein the abnormal state display area is displayed by the following steps:
acquiring alarm information of a plurality of devices in the thermal power generating unit, and displaying the acquired alarm information in an abnormal state display area in a rolling broadcast mode according to a time sequence;
the system interface also comprises a unit load operation trend display area, and the unit load operation trend display area is displayed by the following steps:
acquiring real-time load data of a unit and predicted load data of the unit, and generating a real-time load change curve and a predicted load change curve along with time;
generating a line graph containing a real-time load time change curve and a predicted load time change curve by taking the time sequence as a horizontal axis and the load value as a vertical axis for display;
the system interface also comprises a unit health degree display area, and the unit health degree display area is displayed through the following steps:
acquiring a unit total score, a safety score, an economic score, an environmental-friendly score and an automatic score;
generating a pentagonal energy map, five corners of the pentagonal energy map representing a crew total score, a safety score, an economic score, an environmental score, and an automatic score; the safety score is an evaluation score of the thermal power unit in a safe mode operation, the economic score is an evaluation score of the thermal power unit in an economic mode operation, the environmental protection score is an evaluation score of the thermal power unit in an environmental protection mode operation, and the automatic score is an evaluation score of the thermal power unit in an automatic mode operation; the total score of the machine set is an average score of the sum of a safety score, an economic score, an environmental-friendly score and an automatic score;
in the pentagon capability map, generating a corresponding pentagon pattern according to the current unit total score, the safety score, the economic score, the environmental protection score and the automatic score;
displaying the pentagon energy map generated with the pentagon pattern in the unit health degree display area;
the system interface also includes a model alert ranking display area that is displayed by:
acquiring historical alarm information of a plurality of devices in the thermal power generating unit, counting the alarm times of each device from the historical alarm information, generating a histogram based on the alarm times, and displaying the histogram in an alarm ranking display area.
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