CN114693868A - Three-dimensional standardized display method based on thermal power plant big data platform - Google Patents
Three-dimensional standardized display method based on thermal power plant big data platform Download PDFInfo
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Abstract
The invention discloses a three-dimensional standardized display method based on a thermal power plant big data platform, which comprises the steps of combing and calculating five thermal power plant events; building a WebGL webpage three-dimensional visualization project, drawing a three-dimensional model of the thermal power plant, and introducing the three-dimensional model into the Unity-inducing project; introducing a BestHTTP component into the Unity project, and establishing communication connection with a large data platform of a thermal power plant; then, establishing display standards of the five thermal power plant events; and finally, when a certain event occurs, standardized two-dimensional and three-dimensional display is directly carried out according to the data of the corresponding event. According to the invention, a plurality of events of the operation of the thermal power plant form a display standard, and the display standard is displayed by combining a three-dimensional visualization technology, so that the operation condition of the thermal power plant can be more intuitively expressed, and the management efficiency is improved.
Description
Technical Field
The invention relates to the technical field of thermal power plant informatization management and control, in particular to a three-dimensional standardized display method based on a thermal power plant big data platform.
Background
The thermal power plant big data platform uses an internet of things set big data technology, can obtain various information of current thermal power plant operation, generally has no standardized display mode, and the current display mode is basically to display the current operating condition of the thermal power plant through characters and table modes, and is not visual, and the management efficiency is lower, so, a standard display method is needed to display the operating condition of the thermal power plant more visually and improve the management efficiency.
Disclosure of Invention
Aiming at the technical problems in the related art, the invention provides a three-dimensional standardized display method based on a thermal power plant big data platform, which can overcome the defects of the prior art.
In order to achieve the technical purpose, the technical scheme of the invention is realized as follows:
a three-dimensional standardized display method based on a thermal power plant big data platform comprises the following steps:
s1, firstly, combing and calculating a unit consumption difference event, an environmental protection index overrun event, a unit starting event, an equipment starting and stopping event and an equipment rotation event by a large data platform of the thermal power plant according to the service requirement of the thermal power plant;
s2, building a WebGL webpage three-dimensional visualization project on a large data platform of the thermal power plant by using Unity software, drawing a three-dimensional model of the thermal power plant by using 3DMax software, packaging the three-dimensional model into an FBX file format, and introducing the FBX file format into the Unity project;
s3, importing a BestHTTP component in the Unity project, and establishing communication connection with a thermal power plant big data platform by using a WebSocket.send method of the BestHTTP component;
s4, then, formulating a display standard of the unit consumption difference event, wherein the formulation of the unit consumption difference event adopts a display mode of a histogram, and the difference between the unit consumption value and the standard value is exhibited by establishing two columnar graphs respectively representing the current consumption and the standard value;
s5, formulating a display standard of the environmental protection index overrun event, wherein the formulation of the environmental protection index overrun event adopts a trend graph display mode, a GraphMake component in the Unity assetStroe is led into a Unity project, a fluctuation data set in the previous minute is obtained from a large data platform of a thermal power plant, the data set is led into the GraphMake component and displays a trend graph, and an Iamge method is used for creating a new straight line as a standard value so as to form contrast display;
s6, formulating a display standard of a unit starting event, making a configuration file comprising a unit number and a corresponding three-dimensional model name, finding out the three-dimensional model of the unit by using a transform.
S7, formulating a display standard of an equipment start-stop event, drawing a three-dimensional model of common equipment of the power plant in advance, importing the three-dimensional model into a Unity project, compiling a configuration table, determining the position of the three-dimensional model of the equipment according to the name of the equipment when the equipment start-stop event occurs, changing the color of the three-dimensional model of the equipment by using a Mesh method, highlighting the color, and showing the start or stop of a certain equipment of the power plant by matching with UGUI (user generated user interface) text display of Unity;
s8, formulating a display standard of the equipment rotation event, namely acquiring data groups of the two equipment within the first 10 minutes of the operation measuring points from a big data platform of the thermal power plant by adopting a double-trend graph display mode, and importing the two data groups of the two equipment into a GraphMake component, namely realizing the effect of displaying two lines in one trend graph;
and S9, finally, after the display standard of each event is formulated, when a certain event occurs, standardized two-dimensional and three-dimensional display is directly carried out according to the data of the corresponding event.
Further, in the unit difference event, if the current consumption value is lower than the standard value, the consumption value cylinder is lower than the standard value cylinder, otherwise, the consumption value cylinder is higher than the standard value cylinder, and the difference degree of the heights is determined by the difference of the two values.
Further, freely adjusting the height of the columnar block diagram is achieved by using Unity's image.
Further, the host indexes of the unit in the unit starting event include a main steam temperature, a host pressure and a unit load.
Further, in the event of starting the unit, the fluctuation data set of the host index needs to be refreshed every 1 minute.
Further, the configuration table in the device start-stop event is a configuration table of the model position, and includes the name and the coordinates of the model.
The invention has the beneficial effects that: the operation conditions of the thermal power plant can be expressed more intuitively by forming a display standard for a plurality of events of the operation of the thermal power plant and combining the three-dimensional visualization technology to display the events, so that the management efficiency is improved; the method can be directly used, is convenient and simple, meets the service requirements of most thermal power plants, and also improves the effect of the scheme commonly adopted in the industry.
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In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required in the embodiments will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
Fig. 1 is an overall flow chart of a three-dimensional standardized display method based on a thermal power plant big data platform according to an embodiment of the invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments of the present invention belong to the protection scope of the present invention, and for the convenience of understanding the above technical solutions of the present invention, the above technical solutions of the present invention are described in detail below by specific use modes.
As shown in fig. 1, the three-dimensional standardized display method based on the thermal power plant big data platform according to the embodiment of the present invention includes the steps of: firstly, according to the service requirement of the thermal power plant, a unit consumption difference event, an environmental protection index overrun event, a unit starting event, an equipment starting and stopping event and an equipment rotation event are combed and calculated by a large data platform of the thermal power plant. The five times of the thermal power plant can be combed to accurately reflect the current operating conditions of the thermal power plant.
Building a WebGL webpage three-dimensional visualization project by using Unity software on a large data platform of the thermal power plant, drawing a three-dimensional model of the thermal power plant by using 3DMax software, packaging the three-dimensional model into an FBX file format, and introducing the FBX file format into the Unity project; and introducing a BestHTTP component in the Unity project, and establishing communication connection with a thermal power plant big data platform by using a WebSocket.
And then, setting display standards of unit consumption difference events, environment protection index overrun events, unit starting events, equipment starting and stopping events and equipment rotation events.
The unit consumption difference event is formulated in a manner of displaying a histogram, the difference between a unit consumption value and a standard value is displayed by establishing two cylindrical body graphs respectively representing a current consumption value and a standard value, if the current consumption value is lower than the standard value, the consumption value cylindrical body is lower than the standard value, otherwise, the consumption value cylindrical body is higher than the standard value cylindrical body, and the degree of the height is determined by the difference of the two value-to-standard values. In addition, the height of the histogram can be freely adjusted by using the Unity image.
In the environment-friendly index overrun event, the environment-friendly index overrun refers to the situation that the current emission index exceeds a standard value, the environment-friendly index overrun is formulated by adopting a trend graph display mode, a GraphMake component in the Unity assetStroe is led into a Unity project, a fluctuation data set in the previous minute is obtained from a large data platform of a thermal power plant, the data set is led into the GraphMake component, the display of the environment-friendly index trend graph in the minute is completed, and a straight line is newly built by using an Iamge method to serve as the standard value, so that contrast display is formed.
The method comprises the steps of firstly, making a configuration file containing a unit number and a name of a corresponding three-dimensional model, finding the three-dimensional model of the unit by using a transform. In addition, since the unit start-up may last for several hours, the display needs to be refreshed every 1 minute.
The method comprises the steps of setting an equipment start-stop event, drawing a three-dimensional model of common equipment of the power plant in advance, leading the three-dimensional model into a Unity project, writing a configuration table containing model names and model positions of coordinates where the three-dimensional model is located, determining the position where the three-dimensional model of the equipment is located according to the equipment names when the equipment start-stop event occurs, changing colors of the three-dimensional model of the equipment by using a Mesh method, highlighting the three-dimensional model of the equipment, and displaying the three-dimensional model by matching with UGUI characters of Unity, namely displaying the start or stop of certain equipment of the power plant.
The device rotation event is made in such a way that a double-trend graph display mode is adopted, data groups in the first 10 minutes of operation measuring points of the two devices are obtained from a big data platform of a big thermal power plant, the two data groups of the two devices are led into the GraphMake component, and the effect that the two lines are displayed in one trend graph is achieved.
Finally, after the display standard of each event is formulated, when a certain event occurs, standardized two-dimensional and three-dimensional display is directly carried out according to the data of the corresponding event. Through the standardized exhibition, the running state of a complicated power plant can be simply and clearly displayed, the visual effect and the three-dimensional effect are greatly improved in the form of traditional characters and tables, managers and special workers in the thermal power plant can visually know the current running state before a screen, and accurate judgment and management can be made.
In addition, the real-time broadcasting mode of the three-dimensional active monitoring large-screen system of the thermal power plant enables leaders or specialists of the thermal power plant to visually know the current occurrence condition of the thermal power plant in front of the screen, the three-dimensional active monitoring large-screen system of the thermal power plant can communicate with a large data platform to actively detect the current occurrence event of the thermal power plant, and different display standards are applied according to different events.
In conclusion, by means of the technical scheme, the operating conditions of the thermal power plant can be more intuitively expressed by forming a display standard for a plurality of operating events of the thermal power plant and combining the three-dimensional visualization technology to display the display standard, and the management efficiency is improved; the method can be directly used, is convenient and simple, meets the service requirements of most thermal power plants, and also improves the effect of the scheme commonly adopted in the industry.
The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.
Claims (6)
1. A three-dimensional standardized display method based on a thermal power plant big data platform is characterized by comprising the following steps:
s1, firstly, combing and calculating a unit consumption difference event, an environmental protection index overrun event, a unit starting event, an equipment starting and stopping event and an equipment rotation event by a large data platform of the thermal power plant according to the service requirement of the thermal power plant;
s2, building a WebGL webpage three-dimensional visualization project on a large data platform of the thermal power plant by using Unity software, drawing a three-dimensional model of the thermal power plant by using 3DMax software, packaging the three-dimensional model into an FBX file format, and introducing the FBX file format into the Unity project;
s3, introducing a BestHTTP component into the Unity project, and establishing communication connection with a thermal power plant big data platform by using a WebSocket.
S4, then, formulating a display standard of the unit consumption difference event, wherein the formulation of the unit consumption difference event adopts a display mode of a histogram, and the difference between the unit consumption value and the standard value is exhibited by establishing two columnar graphs respectively representing the current consumption and the standard value;
s5, formulating a display standard of the environmental protection index overrun event, wherein the formulation of the environmental protection index overrun event adopts a trend graph display mode, a GraphMake component in the Unity assetStroe is led into a Unity project, a fluctuation data set in the previous minute is obtained from a large data platform of a thermal power plant, the data set is led into the GraphMake component and displays a trend graph, and an Iamge method is used for creating a new straight line as a standard value so as to form contrast display;
s6, formulating a display standard of a unit starting event, making a configuration file comprising a unit number and a corresponding three-dimensional model name, finding out the three-dimensional model of the unit by using a transform.
S7, formulating a display standard of an equipment start-stop event, drawing a three-dimensional model of common equipment of the power plant in advance, importing the three-dimensional model into a Unity project, compiling a configuration table, determining the position of the three-dimensional model of the equipment according to the equipment name when the equipment start-stop event occurs, changing the color of the three-dimensional model of the equipment by using a Mesh method, highlighting the color, and showing the start or stop of certain equipment of the power plant by matching with UGUI (Unity) character display;
s8, formulating a display standard of the equipment rotation event, namely acquiring data groups of the two equipment within the first 10 minutes of the operation measuring points from a big data platform of the thermal power plant by adopting a double-trend graph display mode, and importing the two data groups of the two equipment into a GraphMake component, namely realizing the effect of displaying two lines in one trend graph;
and S9, finally, after the display standard of each event is formulated, when a certain event occurs, standardized two-dimensional and three-dimensional display is directly carried out according to the data of the corresponding event.
2. The three-dimensional standardized displaying method based on the thermal power plant big data platform is characterized in that in the unit difference event, in step S4, if the current consumption value is lower than the standard value, the consumption value column is lower than the standard value column, otherwise, the consumption value column is higher than the standard value column, and the difference degree of the heights is determined by the difference of the two value-to-value ratios.
3. The three-dimensional standardized display method based on the thermal power plant big data platform is characterized in that the height of the columnar body graph is freely adjusted by using an image.
4. The three-dimensional standardized display method based on the thermal power plant big data platform is characterized in that host indexes of the unit in the unit starting event comprise main steam temperature, host pressure and unit load.
5. The three-dimensional standardized display method based on the thermal power plant big data platform is characterized in that in the unit starting event, the fluctuation data group for displaying the host machine index needs to be refreshed every 1 minute.
6. The three-dimensional standardized display method based on the thermal power plant big data platform is characterized in that the configuration table in the equipment start-stop event is a configuration table of model positions, and the configuration table comprises names and coordinates of the models.
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140132606A1 (en) * | 2012-11-15 | 2014-05-15 | Beijing Kedong Electric Power Control System Co., Ltd | Three-dimensional man-machine interaction display and control method for power grid operation monitoring |
CN109493420A (en) * | 2018-11-16 | 2019-03-19 | 北京华电天仁电力控制技术有限公司 | A kind of power plant's three-dimensional visualization methods of exhibiting based on Unity3D |
WO2022012285A1 (en) * | 2020-07-16 | 2022-01-20 | 中国能源建设集团湖南省电力设计院有限公司 | Multi-source integrated multi-platform energy information management system |
CN113989438A (en) * | 2021-11-03 | 2022-01-28 | 内蒙古汇能集团长滩发电有限公司 | Method and system for realizing whole-process three-dimensional visualization of thermal power plant |
CN114065601A (en) * | 2020-07-31 | 2022-02-18 | 北京国电智深控制技术有限公司 | Management method of operation information of thermal power generating unit, storage medium and electronic device |
-
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- 2022-03-08 CN CN202210227280.4A patent/CN114693868B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20140132606A1 (en) * | 2012-11-15 | 2014-05-15 | Beijing Kedong Electric Power Control System Co., Ltd | Three-dimensional man-machine interaction display and control method for power grid operation monitoring |
CN109493420A (en) * | 2018-11-16 | 2019-03-19 | 北京华电天仁电力控制技术有限公司 | A kind of power plant's three-dimensional visualization methods of exhibiting based on Unity3D |
WO2022012285A1 (en) * | 2020-07-16 | 2022-01-20 | 中国能源建设集团湖南省电力设计院有限公司 | Multi-source integrated multi-platform energy information management system |
CN114065601A (en) * | 2020-07-31 | 2022-02-18 | 北京国电智深控制技术有限公司 | Management method of operation information of thermal power generating unit, storage medium and electronic device |
CN113989438A (en) * | 2021-11-03 | 2022-01-28 | 内蒙古汇能集团长滩发电有限公司 | Method and system for realizing whole-process three-dimensional visualization of thermal power plant |
Non-Patent Citations (2)
Title |
---|
方彦军;曾俊;陈世和;罗嘉;: "基于三维虚拟技术的火电厂全生命周期管理研究", 电站***工程, no. 06, 15 November 2014 (2014-11-15) * |
高文松;王刚;尹金亮;刘正强;: "三维数字化电厂建设探讨", 智慧工厂, no. 02, 15 February 2018 (2018-02-15) * |
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