CN110957665A - Transformer substation damaged situation display method and device - Google Patents

Abstract

The invention relates to a method and a device for displaying damage situations of transformer substations, belonging to the field of transformer substation monitoring, wherein the method comprises the following steps of 1) monitoring the state of primary equipment in each transformer substation, judging whether the primary equipment in each transformer substation is damaged, if the primary equipment in any transformer substation is damaged, superposing the weight coefficients α corresponding to the damaged primary equipment, and calculating a fault range index η of the transformer substation, 2) correcting η corresponding to the damaged transformer substation according to the correction coefficient gamma corresponding to each damaged transformer substation, and calculating a disaster situation index delta of each damaged transformer substation, 3) displaying each damaged transformer substation in an image, and outputting the image, wherein the larger the delta of the damaged transformer substation is, the more prominent the corresponding area display is.

Description

Transformer substation damaged situation display method and device

Technical Field

The invention relates to a method and a device for displaying a damaged condition of a transformer substation, and belongs to the field of transformer substation monitoring.

Background

In the operation process of the transformer substation, the transformer substation is influenced by severe weather, for example, strong wind and rainstorm brought in the typhoon landing process greatly threatens the safe operation of a power grid. Typhoon landing each time causes damage to a power grid and power transmission and transformation equipment in different degrees, and a typhoon period is a dangerous period of cascading failure, large-area power failure accidents are caused for many times, and great economic loss is caused.

The real-time display of the damaged condition of the transformer substation is a necessary condition for related personnel to orderly and efficiently carry out typhoon-resistant work, but a feasible method or device for displaying the damaged condition of the transformer substation in real time is not available in the prior art.

Disclosure of Invention

The invention aims to provide a method and a device for displaying a damaged condition of a transformer substation, and the method and the device are used for solving the problem that the damaged condition of the transformer substation cannot be displayed in real time in the prior art.

In order to achieve the purpose, the invention provides a method for displaying the damaged condition of a transformer substation, which comprises the following steps:

1) for any substation, if the primary equipment in the substation is damaged, overlapping α weight coefficients corresponding to the damaged primary equipment, and calculating η fault range indexes of the substation, wherein the more important the damaged primary equipment is in the substation, the larger α weight coefficients corresponding to the damaged primary equipment are;

2) correcting the fault range index η of each damaged transformer substation according to the corresponding correction coefficient gamma of each damaged transformer substation, and calculating the disaster situation index delta of each damaged transformer substation, wherein the more important the damaged transformer substation is in the power supply system, the larger the corresponding correction coefficient gamma of the damaged transformer substation is;

3) and displaying each damaged substation in an image, and outputting the image, wherein the larger the disaster tolerance index delta corresponding to the damaged substation is, the more prominent the area corresponding to the damaged substation is displayed in the image.

In addition, the invention also provides a substation damage situation display device which comprises a data acquisition unit, a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein the input end of the data acquisition unit is used for acquiring the state of each primary device in each substation, and the output end of the data acquisition unit is connected with the processor and is used for transmitting the acquired state of each primary device to the processor; the processor, when executing the computer program, implements the above described substation damage live display method.

The beneficial effects are that: based on the state of primary equipment in the transformer substation, effective judgment on the fault range index of the damaged transformer substation is realized; on the basis, the fault range index of the damaged transformer substation is corrected according to the correction coefficient, and the disaster condition index obtained after correction can reflect the damage severity of the damage of the damaged transformer substation; according to the disaster situation index, the damage situation of the transformer substation can be displayed, related personnel can rapidly position the damaged and seriously damaged area when carrying out emergency repair work, and the influence of disasters can be effectively reduced.

Further, in the method and the device for displaying the damaged condition of the transformer substation, the basis for judging damage of the primary equipment is as follows: the primary device is actuated.

The beneficial effects are that: the damage of primary equipment is effectively judged.

Further, in the method and the device for displaying the damaged live condition of the substation, the weight coefficient α corresponding to the damaged primary equipment is determined according to the voltage level and the load level of the primary equipment.

The beneficial effects are that: the basis for simply and quickly determining the weight coefficient of the primary equipment is provided.

Further, in the method and the device for displaying the damaged condition of the substation, the correction coefficient gamma corresponding to the damaged substation is determined according to the voltage level and the supplied load level of the substation.

The beneficial effects are that: the basis for simply and quickly determining the correction coefficient of the transformer substation is provided.

Further, in the method and the device for displaying the damaged condition of the transformer substation, a formula for calculating the fault range index η of the transformer substation is as follows:

wherein n is the number of damaged primary equipment in a certain substation, α_iAnd the weight coefficient is corresponding to the ith damaged primary equipment in the transformer substation.

The method has the beneficial effect that a specific algorithm of the fault range index η is provided.

In the method and the device for displaying the damaged condition of the transformer substation, the formula for calculating the disaster damage indicator delta of each transformer substation is that delta is gamma multiplied by η.

The beneficial effects are that: and provides a specific algorithm of the disaster condition index delta.

Further, in the method and the device for displaying the damaged live condition of the transformer substation, the image is a thermodynamic diagram, and the more prominent the display is, the darker the display color is.

The beneficial effects are that: the highlighted display of the damaged transformer substation with great harm is realized.

Drawings

Fig. 1 is a flow chart of a substation damaged live display method in the embodiment of the substation damaged live display method.

Detailed Description

The embodiment of the method for displaying the damaged condition of the transformer substation comprises the following steps:

in order to realize real-time evaluation of the disaster-stricken condition of the substation, the method for displaying the damaged live condition of the substation of the embodiment includes the following steps, as shown in fig. 1:

the method comprises the following steps of 1, monitoring the state of primary equipment in each transformer substation, judging whether the primary equipment in each transformer substation is damaged, and if the primary equipment in any transformer substation is damaged, superposing the weight coefficients α corresponding to the damaged primary equipment to calculate the fault range index η of the transformer substation.

The weight coefficient α of the breaker in the corresponding substation is determined by the importance of the breaker in the corresponding substation, the more important the damaged breaker is, the larger the weight coefficient α of the breaker is, the weight coefficient α of the breaker in the corresponding substation can be determined according to the voltage level and the load carried by the breaker, the higher the voltage level and the load carried by the breaker are, the more the weight coefficient α is, and 0 < α < 1, for a certain substation, if n breakers are damaged in total, the weight coefficient of the first damaged breaker is α 1, the weight coefficient of the second damaged breaker is α 2, and the weight coefficient of the ith breaker is α i, the fault range index of the substation

And 2, correcting the fault range index η of the corresponding damaged substation according to the correction coefficient gamma corresponding to each damaged substation, and calculating the disaster situation index delta of each damaged substation to be gamma multiplied by η.

In this embodiment, the correction coefficient γ corresponding to the damaged substation is determined by the importance of the damaged substation in the power supply system, and the more important the damaged substation is, the larger the correction coefficient γ is. In this embodiment, the correction coefficient γ corresponding to the substation is determined according to the voltage level and the load level of the substation, and γ is greater than 0 as the voltage level and the load level of the substation are higher. For example, in this embodiment, disaster situations of three substations are shown, where the correction coefficients corresponding to the three substations are γ 1, γ 2, and γ 3, respectively, and if the voltage level and the load level of the first substation are the maximum, and the second substation is the next lowest, and the third substation is the lowest, then γ 1 > γ 2 > γ 3 > 0.

And 3, displaying each damaged substation in the image, and outputting the image, wherein the larger the disaster condition index delta corresponding to the damaged substation is, the more prominent the area corresponding to the damaged substation is displayed in the image.

In this embodiment, the thermodynamic diagram is used to display the disaster tolerance of each substation, and the larger the value of the disaster tolerance index δ corresponding to the damaged substation is, the darker the color displayed in the corresponding area in the thermodynamic diagram is. As another embodiment, instead of using the thermodynamic diagram, a map indicating the corresponding area of each substation may be output, and the flickering frequency or brightness of each substation area may be changed to highlight a substation with a serious damage.

The application time of the method for displaying the damaged live condition of the transformer substation is not limited, the method can be adjusted according to needs, and is not limited in the process of coming of a disaster. The disaster in the embodiment can be typhoon or other disasters such as thunder and lightning weather.

In this embodiment, the primary device is a circuit breaker, and as another embodiment, it may be a disconnecting switch, an earthing switch, or the like. When the type of the primary equipment is changed, the judgment basis for judging the damage of the primary equipment can be changed according to the actual situation.

In the embodiment, the weight coefficient α is determined according to the voltage level and the load level of the primary equipment, the correction coefficient γ is determined according to the voltage level and the load level of the substation, as other embodiments, the weight coefficient α and the correction coefficient γ may be respectively determined according to other quantities capable of reflecting the importance of the primary equipment and the substation, for example, the weight coefficient α corresponding to the primary equipment is determined according to the importance degree of a line connected to the primary equipment in the substation, or the weight coefficient α corresponding to the primary equipment is determined according to whether the primary equipment is in the junction position in a substation topological graph, the correction coefficient γ of the substation is determined according to whether the substation is in the power supply junction position in a power supply system, or the correction coefficient γ of the substation is determined according to the attributes (hospital, school, resident, etc.) of the load of the substation, or the correction coefficient γ of the substation is determined according to the magnitude of the load flow of the substation.

In this embodiment, δ ═ γ × η can be corrected by another correction method, such as δ ═ γ + η, as another embodiment.

Damaged live condition display device embodiment of transformer substation:

the damaged live condition display device of the transformer substation comprises a data acquisition unit, a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein the input end of the data acquisition unit is used for acquiring the state of each primary device in each transformer substation, and the output end of the data acquisition unit is connected with the processor and is used for transmitting the acquired state of each primary device to the processor; the processor, when executing the computer program, implements a substation damaged live display method in a substation damaged live display method embodiment.

The specific implementation process of the method for displaying the damaged live condition of the transformer substation is already described in the embodiment of the method for displaying the damaged live condition of the transformer substation, and redundant description is not repeated here.

Claims (8)

1. A method for displaying damaged situations of a transformer substation is characterized by comprising the following steps:

1) for any substation, if the primary equipment in the substation is damaged, overlapping α weight coefficients corresponding to the damaged primary equipment, and calculating η fault range indexes of the substation, wherein the more important the damaged primary equipment is in the substation, the larger α weight coefficients corresponding to the damaged primary equipment are;

2) correcting the fault range index η of each damaged transformer substation according to the corresponding correction coefficient gamma of each damaged transformer substation, and calculating the disaster situation index delta of each damaged transformer substation, wherein the more important the damaged transformer substation is in the power supply system, the larger the corresponding correction coefficient gamma of the damaged transformer substation is;

3) and displaying each damaged substation in an image, and outputting the image, wherein the larger the disaster tolerance index delta corresponding to the damaged substation is, the more prominent the area corresponding to the damaged substation is displayed in the image.

2. The method for displaying the damage condition of the transformer substation according to claim 1, wherein the basis for judging the damage of the primary equipment is as follows: the primary device is actuated.

3. The method for displaying the damaged live condition of the substation according to claim 1, wherein the weight coefficient α corresponding to the damaged primary equipment is determined according to the voltage level and the load level of the primary equipment.

4. The method for displaying the damage status of the substation according to claim 1, wherein the correction coefficient γ corresponding to the damaged substation is determined according to the voltage class and the supplied load class of the substation.

5. The method for displaying the damage condition of the substation according to claim 1, wherein the formula for calculating the fault range index η of the substation is as follows:

wherein n is the number of damaged primary equipment in a certain substation, α_iTo change the electricityAnd the weighting coefficient corresponding to the ith damaged primary equipment in the station.

6. The method for displaying the damage condition of the transformer substation according to claim 1, wherein the formula for calculating the disaster situation index δ of each transformer substation is δ - γ × η.

7. The substation damage live display method according to claim 1, wherein the image is a thermodynamic diagram, and more prominent display means darker display color.

8. A substation damaged live display device comprises a data acquisition unit, a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein the input end of the data acquisition unit is used for acquiring the state of each primary device in each substation, and the output end of the data acquisition unit is connected with the processor and is used for transmitting the acquired state of each primary device to the processor; characterized in that the processor, when executing the computer program, implements a substation damaged live display method according to any one of claims 1-7.

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