CN111768177B - County-level power supply company operation analysis system and county-level power supply company operation analysis method - Google Patents
County-level power supply company operation analysis system and county-level power supply company operation analysis method Download PDFInfo
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Abstract
The invention discloses an operation analysis system and method for a county power supply company, which relate to the field of electric power and solve the problems that the management system of the county power supply company is imperfect, the labor productivity of the company is low, the power supply cost is high, line loss statistics is inconvenient, and production and marketing data cannot be synchronized, and the technical scheme comprises the following steps: the information processing platform is used for establishing a service system on the information processing platform and dispatching service information of a plurality of power stations to the same information processing platform; the marketing and distribution through system and the synchronous line loss system are matched, so that production and marketing can be coordinated well, line loss identification and monitoring are improved, force production data and marketing customer information scheduling are carried out, data comparison is carried out after information scheduling, data consistency is judged, line loss and power supply cost are reduced, and faults can be monitored and identified and overhauled more quickly.
Description
Technical Field
The invention relates to the field of electric power, in particular to an operation analysis system and method for county-level power supply companies.
Background
With the improvement of county-level power grids, the power grid structure is gradually reasonable, the power supply safety and reliability are continuously improved, the comprehensive line loss is continuously reduced, the rural residential home-to-home electricity price is greatly reduced, the burden of farmers is effectively lightened, the farmers are affordable, and the social benefit is gradually highlighted.
However, in specific working practice, the following problems still exist that the working conditions of each power supply station are different, the management system is imperfect for some areas, the management working difficulty is high, the electricity consumption liabilities are entangled in some areas, the burden of power supply enterprises is increased, serious loss occurs for some county power supply enterprises, and due to the fact that the personnel management mechanism is complex, the personnel are more, the electricity sales quantity is less, the labor productivity of the county power supply enterprises is low, and the power supply cost is higher. Because the investment on rural power grid transformation in the past is less, at present, partial rural power lines are old, aged and have large electric energy loss, although the power grid transformation is performed at present, partial old and aged lines still exist, so that the line loss is large, line loss statistics is inconvenient, and meanwhile, certain hidden danger is brought to safe production.
Disclosure of Invention
The invention aims to provide an operation analysis system and an operation analysis method for a county power supply company, and solve the problems of low labor productivity, high line loss and high power supply cost caused by imperfect management of the conventional county power grid.
The invention is realized by the following technical scheme:
an information processing platform:
the information processing platform is provided with a service system which is used for dispatching service information of a plurality of power stations to the information processing platform;
the business system comprises: the system comprises an industrial personal control system, a contemporaneous line loss system and a marketing and distribution through system;
the industrial personal control system is used for counting daily working conditions of each power supply station, finding working problems and managing the working;
the synchronous line loss system is used for timely monitoring line loss indexes, timely finding out line loss abnormality and comprehensively evaluating power utilization indexes of a power supply station;
the marketing and distribution communication system is used for scheduling the power production data and marketing customer information, comparing the data after the information scheduling and timely detecting line loss fault sources according to the data comparison result.
In the scheme, the power supply station information of a plurality of places in county is uniformly scheduled, so that unified client information which can be better in the power distribution and marketing process is associated with power consumption information, the marketing and distribution through system is matched with the synchronous line loss system, production and marketing can be better coordinated, line loss identification and monitoring are improved, and fault monitoring and maintenance are better realized by the marketing and distribution through system by accurately matching the power supply information with the client information to a higher degree.
Further, the industrial personal control system includes:
the work task system is used for consulting the flow state of the work order and displaying a work task bar;
the business work order system displays responsible parties, the daily work order situation and the work order accumulation situation;
the work taskbar includes: information in three forms of waiting to be processed, in progress and ending; the work task bar is used for displaying the work order creation time, the work order source, the distributor, the business content, the time limit, the signer, the work order state and the operation;
the daily work order comprises dispatch number, on-the-way number, transaction number and early warning number, and the work order accumulation comprises accumulated dispatch ratio number, accumulated transaction number and over-time number.
In the scheme, the signing personnel, the work order state, the distributing personnel and the business content are unified, the distribution of the work orders is optimized, the processing condition of the work orders is fed back in time, the work order task quantity of the working personnel can be counted in time, performance assessment on the working personnel is facilitated, and the working problems are found in time.
Further, the contemporaneous line loss system includes:
the transformer substation bus balance rate system is used for displaying voltage level, unbalance rate, input electric quantity, unbalance circuit, output voltage and transformer substation name information, and further displaying a tag name for naming a certain bus, and can be used for naming substations which do not reach standards and facilitating later statistics and inquiry.
The 10KV voltage division line loss rate system is used for displaying power supply quantity, power selling quantity, line loss rate, line loss reference value, deviation from the reference value and standard condition;
the system is used for displaying the total number of the areas, the last day condition, the current day condition, the continuous multi-day substandard condition, the white list condition and the current day work order condition;
the system is used for displaying the maximum continuous standard condition and the number of days of non-standard month-dividing detail;
the public transformer station area line loss substandard list system is used for displaying 0 power supply quantity, negative line loss, 12% -20%, 20% -40%, 40% and above of each power supply station, substandard station area subtotal and current day substandard station area change conditions;
public transformer area line loss effective system, public transformer area line loss effective system is used for showing the public transformer area line loss effective page of setting to and will public transformer area line loss effective as x, includes: x is more than or equal to 0.00% and less than or equal to 4.00%, x is more than or equal to 4.00% and less than or equal to 7.00%, x is more than or equal to 0.00% and less than or equal to 7.00%, x is more than or equal to 7.00% and less than or equal to 10.00%, x is more than or equal to 0.00% and less than or equal to 10.00%, x is more than or equal to 10.00% and less than or equal to 12.00% in six sections, and the number of days, the number of days and the daily duty ratio of each power supply station are recorded in the corresponding sections;
the operation group setting system is used for displaying the platform region codes, the platform region names, the team names, the network manager names, the responsible person names and the editing and deleting operations, and the operation group comprises searching, adding, batch deleting and data importing functions;
the white list setting system is used for displaying the zone name, the starting time, the expiration time, the reason and the edit and delete operation, inquiring the 10KV partial pressure line loss rate of the transformer substation and processing the zone in operation to be added to the white list, so that the transformer substation in the operation process is prevented from being identified as an abnormal working state.
Preferably, the marketing and distribution penetration system comprises:
the consistency checking system is used for displaying the total number of marketing systems in each power substation transformer substation, public line, private line, public transformer, private transformer and household transformer, GIS building modules, the consistency number and the consistency rate (%), and the consistency checking system is provided with searching and exporting functions;
the GIS transformer substation consistency checking system is used for displaying management units, transformer substation numbers, service system IDs, transformer substation names, voltage levels, running states, inconsistent descriptions and operations, and searching power supply units and transformer substation names;
and the GIS distribution line consistency checking system is used for displaying management units, line identifications, service system IDs, line names, line properties, voltage levels, running states, transformer substation names, inconsistent descriptions and operations.
In the scheme, accurate association matching among lines, substations and users is realized through marketing and distribution, so that production and marketing can be efficiently connected
The county-level power supply company operation analysis method comprises the following steps:
s1: the method comprises the steps of monitoring the work order state in a work order management system in real time, inquiring work orders generating early warning numbers and out-of-date numbers, and tracking responsible parties, distributor and signers related to work order business according to work order creation time;
s2: monitoring different substations for generating work orders of early warning numbers and exceeding time numbers, and screening out power stations with more electric energy resource waste and inquiring the problems of the line loss of the voltage division lines by analyzing the up-to-standard condition of the 10KV voltage division line loss rate system, the line loss continuous multi-day up-to-standard condition of the station area and the line loss effective efficiency page of the public transformer station area line loss effective system;
s3: and inquiring a power supply station with more electric energy resource waste, and comparing a consistency check system of the corresponding power supply station, a GIS transformer substation consistency check system and a GIS distribution line consistency check system to timely control and solve the line loss condition.
In S1, the method further includes the following steps:
s11: the staff inquires the corresponding work orders in the work task bar, processes the work order information according to three states of the work orders to be processed, in progress and ended, and primarily analyzes the working condition of the staff according to the daily work order quantity and the work order accumulation condition;
s12: counting the proportion of the accumulated number of knots to the number of out-of-date knots to further evaluate the efficiency of the staff;
s13: and counting the proportion of the early warning number of strokes to the knot number of strokes, and further evaluating the quality of the staff.
In S2, the method further includes the steps of:
s21: inquiring the 10KV partial voltage line loss rate of each substation, counting the substations under the condition of substations which are not up to standard for a plurality of continuous days, and recording the area names and codes of the operation groups;
s22: establishing a white list and not checking and distributing work orders for the data added in the white list;
s23: monitoring whether the counted power substation newly increases the area or is the area under test, and adding the newly increased area or the power substation of the area under test into a white list;
s24: and counting the power substation data outside the white list, counting the power substations with x being more than or equal to 4.00% and less than 7.00%, x being more than or equal to 7.00% and less than 10.00%, and screening the power substations needing maintenance and modification according to the maximum continuous standard condition and the number of days of non-standard month-dividing detail.
In S3, the method further includes the steps of:
s31: searching a substation to be maintained and changed, matching relevant data of a consistency check system, a GIS substation consistency check system and a GIS distribution line consistency check system, and keeping information in the three systems consistent;
s32: the method comprises the steps of combining a power supply substation, public lines, special lines, public transformers, private transformers, the total number of marketing systems in household transformers, GIS building modules, the number of consistences, the consistence rate (%) with substation numbers, service system IDs, substation names, voltage levels, running states, inconsistent descriptions and operations to realize fault positioning, and then combining with a display management unit, line identifications, service system IDs, line names, line properties, voltage levels, running states, substation names, inconsistent descriptions and operations to realize line loss statistics, and enabling service data to be communicated and matched, so that line loss problems can be analyzed and processed conveniently, and faults can be checked timely.
Compared with the prior art, the invention has the following advantages and beneficial effects:
1. the invention relates to an operation analysis system and method for county power supply companies, which are characterized in that information of a plurality of county power supply centers is uniformly scheduled on the same platform, business analysis of the same platform is performed, an evaluation work order is analyzed by means of a business system, early warning is generated, abnormal work order problems are analyzed, a synchronous line loss system for monitoring line loss abnormality is arranged, faults can be monitored and analyzed in time, and information in a consistency check system, a GIS transformer substation consistency check system and a GIS distribution line consistency check system is analyzed by combining with a marketing and distribution system, so that fault positioning is realized, and white lists for distinguishing line loss of a maintenance platform area are arranged to improve monitoring accuracy;
2. according to the county-level power supply company operation analysis system and method, information of a plurality of county-level power supply stations is uniformly scheduled on the same platform, efficiency of staff is analyzed and evaluated by means of a business system, working problems are found, and working efficiency is improved.
Drawings
The accompanying drawings, which are included to provide a further understanding of embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention. In the drawings:
FIG. 1 is a block diagram of the overall structure of the present invention;
FIG. 2 is a block diagram of a industrial personal control system according to the present invention;
FIG. 3 is a block diagram of a synchronous line loss system according to the present invention;
FIG. 4 is a block diagram of a marketing and distribution system according to the present invention;
FIG. 5 is a flow chart of an embodiment of the present invention.
Detailed Description
For the purpose of making apparent the objects, technical solutions and advantages of the present invention, the present invention will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present invention and the descriptions thereof are for illustrating the present invention only and are not to be construed as limiting the present invention.
Examples
As shown in fig. 1, the county power supply company operation analysis system of the present invention includes:
the information processing platform is used for establishing a service system on the information processing platform and dispatching service information of a plurality of power stations to the same information processing platform;
the business system comprises: the system comprises an industrial personal control system, a contemporaneous line loss system and a marketing and distribution through system;
the industrial personal management system is used for counting daily working conditions of each power supply station, finding working problems, making scientific decisions and managing work;
the contemporaneous line loss system is used for timely monitoring the line loss index, timely finding out the abnormality of the line loss and comprehensively evaluating the transmission power index of the power supply station;
and the marketing and distribution communication system is used for scheduling the electric power production data and marketing customer information, comparing the data after the information scheduling and judging the consistency of the data.
The analysis method comprises the following steps:
s1: the method comprises the steps of monitoring the work order state in a work order management system in real time, inquiring work orders generating early warning numbers and out-of-date numbers, and tracking responsible parties, distributor, signers and transformer substations related to work order business according to work order creation time;
s2: monitoring different substations for generating work orders of early warning numbers and exceeding time numbers, and screening out power stations with more electric energy resource waste and inquiring the problems of the line loss of the voltage division lines by analyzing the up-to-standard condition of the 10KV voltage division line loss rate system, the line loss continuous multi-day up-to-standard condition of the station area and the line loss effective efficiency page of the public transformer station area line loss effective system;
s3: and inquiring a power supply station with more electric energy resource waste, and comparing a consistency check system of the corresponding power supply station, a GIS transformer substation consistency check system and a GIS distribution line consistency check system to timely control and solve the line loss condition.
As shown in fig. 2, the industrial personal control system includes:
the work task system is used for consulting the flow state of the work order and displaying a work task bar;
the business work order system displays responsible parties, the daily work order situation and the work order accumulation situation;
the work taskbar includes: information in three forms of waiting to be processed, in progress and ending; the work task bar is used for displaying the work order creation time, the work order source, the distributor, the business content, the time limit, the signer, the work order state and the operation;
the daily work order condition comprises the number of dispatching strokes, the number of in-transit strokes, the number of handling strokes and the number of early warning strokes, and the work order accumulation condition comprises the accumulated number of dispatching ratios, the accumulated number of handling strokes and the number of exceeding the period.
The industrial control management and control system analyzes the working condition of personnel as follows:
s11: the staff inquires the corresponding work orders in the work task bar, processes the work order information according to three states of the work orders to be processed, in progress and ended, and primarily analyzes the working condition of the staff according to the daily work order quantity and the work order accumulation condition;
s12: counting the proportion of the accumulated number of knots to the number of out-of-date knots to further judge the efficiency of the staff;
s13: and counting the proportion of the early warning number of strokes to the knot number of strokes, and further judging the quality of the staff.
The efficiency of the staff is comprehensively analyzed and evaluated by means of the industrial control management and control system, the working problems are found, and the working efficiency of the staff can be improved. As shown in fig. 3, the contemporaneous line loss system includes:
the transformer substation bus balance rate system is used for displaying voltage class, unbalance rate, input electric quantity, unbalance circuit, output voltage and transformer substation name information, and the transformer substation bus balance rate system also displays a tag name for naming a certain bus;
the 10KV voltage division line loss rate system is used for displaying power supply quantity, power selling quantity, line loss rate, line loss reference value, deviation from the reference value and standard condition;
the system is used for displaying the total number of the areas, the last day condition, the current day condition, the continuous multi-day substandard condition, the white list condition and the current day work order condition;
the system is used for displaying the maximum continuous standard condition and the number of days of substandard month detail;
the public transformer area line loss substandard list system is used for displaying the change conditions of 12% -20%, 20% -40%, more than 40% of negative line loss of each power supply station, substandard area subtotal and the current substandard area;
the public transformer area line loss effective system is used for displaying a set public transformer area line loss effective page and setting the public transformer area line loss effective page as x, and comprises: x is more than or equal to 0.00% and less than or equal to 4.00%, x is more than or equal to 4.00% and less than or equal to 7.00%, x is more than or equal to 0.00% and less than or equal to 7.00%, x is more than or equal to 7.00% and less than or equal to 10.00%, x is more than or equal to 0.00% and less than or equal to 10.00%, x is more than or equal to 10.00% and less than or equal to 12.00% in six sections, and the number of days, the number of days and the daily duty ratio of each power supply station are recorded in the corresponding sections;
the operation group setting system is used for displaying the platform region codes, the platform region names, the team names, the network manager names, the responsible person names and the editing and deleting operations, and the operation group comprises searching, adding, batch deleting and data importing functions;
and the white list setting system is used for displaying the zone name, the starting time, the expiration time, the reason and the editing and deleting operation.
The synchronous line loss system monitors the line loss condition through the following steps:
s21: inquiring the 10KV partial voltage line loss rate of each substation, counting the substations under the condition of substations which are not up to standard for a plurality of continuous days, and recording the area names and codes of the operation groups;
s22: establishing a white list and not checking and distributing work orders for the data added in the white list;
s23: monitoring whether the counted power substation newly increases the area or is the area under test, and adding the newly increased area or the power substation of the area under test into a white list;
s24: and counting the power substation data outside the white list, counting the power substations with x being more than or equal to 4.00% and less than 7.00%, x being more than or equal to 7.00% and less than 10.00%, and screening the power substations needing maintenance and modification according to the maximum continuous standard condition and the number of days of non-standard month-dividing detail.
In S23, the transformer substation recorded on the white list may be deleted, so as to avoid erroneous addition.
The marketing and distribution through system comprises:
the consistency checking system is used for displaying the total number of marketing systems in each power substation transformer substation, public line, private line, public transformer, private transformer and household transformer, GIS building modules, the consistency number and the consistency rate (%), and the consistency checking system is provided with searching and exporting functions;
the GIS transformer substation consistency checking system is used for displaying management units, transformer substation numbers, service system IDs, transformer substation names, voltage levels, running states, inconsistent descriptions and operations, and searching power supply units and transformer substation names;
and the GIS distribution line consistency checking system is used for displaying management units, line identifications, service system IDs, line names, line properties, voltage levels, running states, transformer substation names, inconsistent descriptions and operations.
The marketing and distribution through mode comprises the following steps:
s31: searching a substation to be maintained and changed, matching relevant data of a consistency check system, a GIS substation consistency check system and a GIS distribution line consistency check system, and keeping information in the three systems consistent;
s32: the method comprises the steps of combining a substation number, a service system ID, a substation name, a voltage level, an operation state and inconsistent description and operation of a power supply substation, a public line, a private line, a public transformer, a private transformer, a household transformer, a marketing system total number, a GIS building module, a consistent number and a consistent rate (%), realizing fault positioning, and then realizing line loss statistics after being combined with a display management unit, a line identification, a service system ID, a line name, line properties, a voltage level, an operation state, a substation name, inconsistent description and operation, and enabling service data to be in through matching.
The cooperation of the marketing and distribution through system, the contemporaneous line loss system and the industrial personal management system enables production and marketing to be coordinated well, and the identification and monitoring of line loss are improved, and the marketing and distribution through system is used for achieving fault monitoring and overhauling well through accurate matching of power supply information and customer information to a high degree.
The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the invention, and is not meant to limit the scope of the invention, but to limit the invention to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the invention are intended to be included within the scope of the invention.
Claims (7)
1. An operation analysis system for a county-level power supply company, comprising:
an information processing platform:
the information processing platform is provided with a service system which is used for dispatching service information of a plurality of power stations to the information processing platform;
the business system comprises: the system comprises an industrial personal control system, a contemporaneous line loss system and a marketing and distribution through system;
the industrial personal control system is used for counting daily working conditions of each power supply station, finding working problems and managing the working;
the synchronous line loss system is used for timely monitoring the line loss index, timely finding out the abnormality of the line loss and comprehensively evaluating the transmission power index of the power supply station;
the marketing and distribution communication system is used for scheduling the power production data and marketing customer information, comparing the data after the information scheduling and timely detecting line loss fault sources according to the data comparison result;
the contemporaneous line loss system comprises:
the system comprises a transformer substation bus balance rate system, a control unit and a control unit, wherein the transformer substation bus balance rate system is used for displaying voltage level, unbalance rate, input electric quantity, unbalance circuit, output voltage and transformer substation name information, and the transformer substation bus balance rate system also displays a tag name for naming a certain bus;
the 10KV voltage division line loss rate system is used for displaying power supply quantity, power selling quantity, line loss rate, line loss reference value, deviation from the reference value and standard condition;
the system is used for displaying the total number of the areas, the last day condition, the current day condition, the continuous multi-day substandard condition, the white list condition and the current day work order condition;
the system is used for displaying the maximum continuous standard condition and the number of days of non-standard month-dividing detail;
the public transformer station area line loss substandard list system is used for displaying 0 power supply quantity, negative line loss, 12% -20%, 20% -40%, 40% and above of each power supply station, substandard station area subtotal and current day substandard station area change conditions;
public transformer area line loss effective system, public transformer area line loss effective system is used for showing the public transformer area line loss effective page of setting to and will public transformer area line loss effective as x, includes: x is more than or equal to 0.00% and less than or equal to 4.00%, x is more than or equal to 4.00% and less than or equal to 7.00%, x is more than or equal to 0.00% and less than or equal to 7.00%, x is more than or equal to 7.00% and less than or equal to 10.00%, x is more than or equal to 0.00% and less than or equal to 10.00%, x is more than or equal to 10.00% and less than or equal to 12.00% in six sections, and the number of days, the number of days and the daily duty ratio of each power supply station are recorded in the corresponding sections;
the operation group setting system is used for displaying the platform region codes, the platform region names, the team names, the network manager names, the responsible person names and the editing and deleting operations, and the operation group comprises searching, adding, batch deleting and data importing functions;
and the white list setting system is used for displaying the zone name, the starting time, the expiration time, the reason and the editing and deleting operation.
2. The county power company operation analysis system according to claim 1, wherein said industrial personal control system comprises:
the work task system is used for consulting the flow state of the work order and displaying a work task bar;
the business work order system displays responsible parties, the daily work order situation and the work order accumulation situation;
the work taskbar includes: information in three forms of waiting to be processed, in progress and ending; the work task bar is used for displaying the work order creation time, the work order source, the distributor, the business content, the time limit, the signer, the work order state and the operation;
the daily work order comprises dispatch number, on-the-way number, transaction number and early warning number, and the work order accumulation comprises accumulated dispatch ratio number, accumulated transaction number and over-time number.
3. The county power company operation analysis system according to claim 1, wherein the marketing communication system comprises:
the consistency checking system is used for displaying the total number of marketing systems in each power substation transformer substation, public line, private line, public transformer, private transformer and household transformer, GIS building modules, the consistency number and the consistency rate, and is provided with searching and exporting functions;
the GIS transformer substation consistency checking system is used for displaying management units, transformer substation numbers, service system IDs, transformer substation names, voltage levels, running states, inconsistent descriptions and operations, and searching power supply units and transformer substation names;
and the GIS distribution line consistency checking system is used for displaying management units, line identifications, service system IDs, line names, line properties, voltage levels, running states, transformer substation names, inconsistent descriptions and operations.
4. A county power supply company operation analysis method, characterized in that a county power supply company operation analysis system according to any one of claims 1 to 3 is used, the county power supply company operation analysis method comprising the steps of:
s1: the method comprises the steps of monitoring the work order state in a work order management system in real time, inquiring work orders generating early warning numbers and out-of-date numbers, and tracking responsible parties, distributor, signers and transformer substations related to work order business according to work order creation time;
s2: monitoring different substations for generating work orders of early warning numbers and exceeding time numbers, and screening out power stations with more electric energy resource waste and inquiring the problems of the line loss of the voltage division lines by analyzing the up-to-standard condition of the 10KV voltage division line loss rate system, the line loss continuous multi-day up-to-standard condition of the station area and the line loss effective efficiency page of the public transformer station area line loss effective system;
s3: and inquiring a power supply station with more electric energy resource waste, and comparing a consistency check system of the corresponding power supply station, a GIS transformer substation consistency check system and a GIS distribution line consistency check system to timely control and solve the line loss condition.
5. The county power company operation analysis method according to claim 4, further comprising the steps of:
s11: the staff inquires the corresponding work orders in the work task bar, processes the work order information according to three states of the work orders to be processed, in progress and ended, and primarily analyzes the working condition of the staff according to the daily work order quantity and the work order accumulation condition;
s12: counting the proportion of the accumulated number of knots to the number of out-of-date knots to further judge the efficiency of the staff;
s13: and counting the proportion of the early warning number of strokes to the knot number of strokes, and further judging the quality of the staff.
6. The county power company operation analysis method according to claim 4, further comprising the steps of:
s21: inquiring the 10KV partial voltage line loss rate of each substation, counting the substations under the condition of substations which are not up to standard for a plurality of continuous days, and recording the area names and codes of the operation groups;
s22: establishing a white list and not checking and distributing work orders for the data added in the white list;
s23: monitoring whether the counted power substation newly increases the area or is the area under test, and adding the newly increased area or the power substation of the area under test into a white list;
s24: and counting the power substation data outside the white list, counting the power substations with x being more than or equal to 4.00% and less than 7.00%, x being more than or equal to 7.00% and less than 10.00%, and screening the power substations needing maintenance and modification according to the maximum continuous standard condition and the number of days of non-standard month-dividing detail.
7. The county power company operation analysis method according to claim 4, further comprising the steps of:
s31: searching a substation to be maintained and changed, matching relevant data of a consistency check system, a GIS substation consistency check system and a GIS distribution line consistency check system, and keeping information in the three systems consistent;
s32: the method comprises the steps of combining a power supply substation, public lines, special lines, public transformers, private transformers, the total number of marketing systems in household transformers, GIS building modules, the number of consistence, the consistence rate, a substation number, a service system ID, a substation name, a voltage class, an operation state, inconsistent description and operation to realize fault positioning, and then combining the fault positioning with a display management unit, a line identification, the service system ID, the line name, line properties, the voltage class, the operation state, the substation name, inconsistent description and operation to realize line loss statistics, and enabling service data to be communicated and matched.
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