CN115600968A - Regional industry collaborative management method for power generation enterprises - Google Patents

Abstract

The invention discloses a power generation enterprise-oriented regional industry collaborative management method, which comprises the following steps: according to the actual production operation conditions of each region divided by a power generation enterprise, all industrial blocks including coal, electric power, railways, ports and shipping are collected and classified, and business interaction relations among the industrial blocks covered by different regions, among the blocks, among the regions and between the regions and headquarters are obtained through statistics; the real-time dynamic integrated monitoring of key data of each plate, including fuel, generating capacity, load and the like, is carried out; and comprehensively managing and controlling the registration of plan objects and the management of plan parameters among all the industrial units and the area management departments in the area. The invention establishes a business circulation method including industry classification, integrated monitoring and plan management, improves the regional comprehensive management and control capability of the power generation enterprises, and can assist the power generation enterprises to carry out clear and efficient regional industry cooperative management.

Description

Regional industry collaborative management method for power generation enterprises

Technical Field

The invention relates to supply chain multi-service plate collaborative management, in particular to a regional industry collaborative management method for power generation enterprises.

Background

The development of industrial collaborative management for large-scale energy enterprises is an important way for implementing new energy safety strategies and overall development and deployment, and is also an important support for improving the overall operation efficiency, reducing the comprehensive operation cost, effectively coping with external challenges and consolidating the core competitiveness of energy enterprises. For large-scale energy enterprises, the integration of industrial collaborative operation is mainly embodied as the integration of a supply chain, and the management goal of industrial collaboration is to realize information sharing, efficient communication and effective organization in industrial collaboration and provide strong support for building top-grade world energy enterprises with global competitiveness.

Under the background, full-flow organization cooperative intelligent management is developed facing to an area-level energy supply chain, the top layer design of a management system architecture is built, integrated linkage display is carried out on multiple boards, and planning management and control and multidimensional data analysis are imperative. The project aims at the popularization, implementation and application deepening of the regional energy supply chain, is oriented to different levels of units of energy enterprises, integrates data resources, and provides powerful support for integrated collaborative management of the regional energy enterprises.

Disclosure of Invention

The invention aims to provide a regional industry collaborative management method for power generation enterprises, establishes a business circulation method including industry classification, integrated monitoring and plan management, and improves regional comprehensive management and control capability of the power generation enterprises.

In order to achieve the purpose, the technical scheme adopted by the invention is as follows:

the invention provides a region-level industry collaborative management method for power generation enterprises, which comprises the following steps:

summarizing and classifying the services in each region oriented to the power generation enterprises based on the industrial plates, and determining the interactive relationship among the industrial plates;

simultaneously carrying out real-time dynamic monitoring on key production data of each industrial plate in each area;

and establishing an evaluation index system, calculating evaluation indexes based on the key production data of each industrial plate and the interactive relation between each industrial plate, and performing collaborative management and control on the production operation plan of each industrial plate in each area.

Further, the collecting and classifying of the services in each region facing the power generation enterprise based on the industrial plates includes:

and summarizing and classifying the businesses in each region oriented to the power generation enterprises according to five industrial blocks of coal, electric power, railways, ports and shipping.

Further, the determining the interaction relationship between the industrial boards includes:

and determining the interaction relationship among the industrial plates according to the supply-demand relationship and the geography-margin relationship, as follows:

the coal industry plate and the electric power industry plate have supply and demand relationship;

the coal industry plate and the railway industry plate have a relationship of land edge;

and a geodesic relationship exists between the port industry plate and the shipping industry plate.

Further, the method also comprises the following steps:

and determining coal supply and demand interaction, railway management interaction and coal-electricity cooperative interaction relationship among the areas.

Further, the real-time dynamic monitoring of the key production data of each industrial plate in each area includes:

and performing real-time dynamic monitoring on fuel, generating capacity and load key production data of each industrial plate.

Further, the establishing of the evaluation index system includes:

the industry synergy completion rate is calculated as follows:

wherein eta _c,i As the cooperative completion rate of the cooperative item i, q _in,i For the actual supply quantity, q, to which the synergistic term i relates _out,i Actual demand, q, referred to as co-ordinating term i _er,i Is the planned value of the supply and demand difference;

the planned achievement rate in the area is calculated as follows:

wherein eta is _p,i For planned achievement rate of the synergy term i, q _plan,i Planned completion quantity, q, for the collaborative item i _act,i Is the actual completion amount of the synergy term i.

Further, the collaborative management and control of the production operation plan of each industrial plate in each area includes:

comprehensively managing and controlling plan object registration and plan parameters among all industrial units and area management departments in an area;

multi-target and multi-constraint production operation planning of different time scales is carried out on each industrial unit in the region;

and the number of the first and second groups,

and carrying out collaborative compilation on the production operation plan of each industrial unit.

Further, the comprehensive management and control of the plan object registration and plan parameters between each industrial unit and the area management department in the area includes:

managing the regional management departments participating in the production operation plan and each industrial unit as information objects, and defining member types, service ranges, participation plan contents and registration information of each unit, including contacts, contact phones and mailboxes;

basic data and parameter information influencing production operation planning are configured, wherein the basic data and the parameter information comprise railway topological relation configuration, coal mine/power plant/port/chemical plant basic information configuration, skylight plan configuration, plan task period configuration, short message sending template configuration and maintenance plan configuration.

Further, the planning of the multi-target and multi-constraint production operation plan with different time scales for each industrial unit in the area includes:

after resource quantity declaration is carried out by each industrial unit in the region, selecting a corresponding plan balance strategy according to port inventory and sales demand information, and adjusting plan declaration resources; the plan balancing strategy comprises the steps of sequencing and displaying the resource amount declaration information of each site according to the distance from each site to a port when the system detects that data needs to be reduced, and preferentially reducing the sites with short distances.

Further, the collaborative compilation of the production operation plans of each industrial unit includes:

and auditing the production operation plan of each industrial unit, if other industrial units are required to be matched, performing linkage compilation, issuing a plan amount for suggesting reference to each industrial unit by a regional dispatching management department, and confirming each industrial unit again until the actual declaration requirements of the two parties are met.

Further, the collaborative management and control of the production operation plan of each industrial plate in each area further includes:

carrying out visual display on enterprise information of each industrial unit, wherein the display information comprises information of each link of production operation planning, monthly planning quantity, declaration quantity, completion quantity and planning deviation rate of each industrial unit;

and the number of the first and second groups,

and performing authority management on the display of information of each link of production operation plan compilation and performing authority management on plan participation personnel.

The invention has the following beneficial effects:

according to the regional multi-industrial plate management and control system, the regional multi-industrial plates of the power generation enterprise are classified, monitored, planned, controlled and statistically analyzed, the standardization and timeliness in the regional supply chain management and control process of the power generation enterprise are improved, and the overall operation efficiency of the enterprise at a regional level is improved.

The invention improves the centralized control specialization, intensification and informatization levels of the area-level energy supply chain, realizes the transition of the management mode from single specialization analysis to comprehensive summary prediction, changes the business control from regular summary reports to real-time online data, and changes the business process management from professional longitudinal striping to professional longitudinal penetration and enterprise-level transverse collaborative fusion. By means of centralized construction and centralized operation and maintenance of the information system, rapid decision-making and response capabilities of management of each level are improved. Promote the digital transformation of power generation enterprise, further deepen the enterprise reform, perfect management and control system construction, strengthen key business field risk management and control, promote the administration efficiency of enterprise, realize the treatment ability modernization.

Drawings

Fig. 1 is a flowchart of a power generation enterprise-oriented area-level industry collaborative management method according to an embodiment of the present invention;

fig. 2 is a schematic diagram of typical service boards at a region level in an embodiment of the present invention.

Detailed Description

The invention is further described below. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1

The embodiment provides a region-level industry collaborative management method for power generation enterprises, and with reference to fig. 1, the method includes:

summarizing and classifying the services in each region oriented to the power generation enterprises based on the industrial plates, and determining the interactive relationship among the industrial plates;

simultaneously carrying out real-time dynamic monitoring on key production data of each industrial plate in each area;

and establishing an evaluation index system, calculating evaluation indexes based on the key production data of each industrial plate and the interactive relation between each industrial plate, and performing cooperative management and control on the production operation plan of each industrial plate in each area.

In this embodiment, the summarizing and classifying the services in each region oriented to the power generation enterprise based on the industrial plates, as shown in fig. 2, includes:

according to the actual production operation conditions of each region divided by a power generation enterprise, all industrial blocks including coal, electric power, railways, ports and shipping are collected and classified, and the industrial blocks covered by different regions and the business interaction relations among the blocks, the regions and the headquarters are obtained through statistics.

It should be noted that each industrial block can be specifically divided into five parts, i.e., coal, electric power, railway, port and shipping, wherein different areas of a power generation enterprise can evaluate the construction conditions of five service blocks corresponding to the area according to the actual production operation conditions, and the interaction between the blocks in the area and the interaction mode between the areas can be comprehensively considered according to the construction integrity of each service block.

In this embodiment, the interaction modes between the service boards may be divided according to the supply-demand relationship, the geography-associated relationship, and the like, and a typical interaction mode includes:

a. there is obvious supply and demand relation between coal and the electric power, and the supply condition of coal is also considered in the production of electric power needs to be synthesized, and the exploitation and the storage of coal also receive the restriction of actual power generation demand simultaneously, and coal and electric power need carry out the linkage in production data monitoring and plan management process, promptly: the regional scheduling management department needs to master coal production data and count the fuel quantity required by power plant power generation in a region, judge whether the two are matched and balanced, and if the balance relation cannot be met in the region, further consider the purchasing and selling relations between the regions and between the regions to maintain a normal production operation level.

b. In the process of transporting coal, relevant modes such as railway, steam transportation and shipping are usually adopted, wherein the railway directly influences relevant services such as fuel supply and sales of power generation enterprises as a crucial link, so that the coal and the railway have obvious interaction relationship, the transportation capacity of the railway of a site where the coal is located needs to be considered, and if the transportation capacity of the coal exceeds the bearing capacity of the railway, adjustment of a management plan, modification of a transportation time period or change of other transportation modes need to be considered.

c. Stronger service interaction exists between the port and the shipping, the bearing capacity of the port needs to be linked with planned inverted arrangement of the shipping, and the related risks of port blockage and the like are avoided.

d. In addition to the typical interaction relationship among the business boards, different types of business interaction also exist among the areas, the areas are influenced by factors such as business construction level and geography relationship, and coal supply and demand interaction, railway management interaction, coal and electricity collaborative interaction and the like exist among the areas. When the regional management department of the power generation enterprise develops the industrial cooperative management, not only the industrial cooperative relationship in the region needs to be considered comprehensively, but also the business linkage and the industrial cooperation between the region and other regions need to be considered, so that the regional power generation and the efficient and orderly development of related businesses are supported, and meanwhile, the support is provided for the integrated comprehensive management and control of the headquarter level of the power generation enterprise.

In this embodiment, the real-time dynamic monitoring of the key production data of each industrial plate in each area includes:

the method is characterized in that authority configuration and partition management are carried out on each industrial plate for production operation in each area of a power generation enterprise, integrated comprehensive monitoring is carried out on each plate in real time and dynamically and key data including fuel, generated energy, load and the like, and comprehensive checking service is provided for area-level monitoring and management personnel.

In the embodiment, the key production data of each industrial plate is dynamically monitored in real time by building a unified visualization platform, and the unified visualization platform provides functions of data visualization, such as unified data service packaging, unified display object management, unified design service and unified display service, so that the visualization platform with the characteristics of visual impact, free layout, chart analysis, convenience in operation, flexibility in assembly, dynamic interaction and the like is formed. The main functions include:

1) Unified data service encapsulation: calling a data platform or a third-party data interface, and packaging the data platform or the third-party data interface into a service interface according to the requirement so as to meet the calling of a report engine, a 2D engine and a 3D engine;

2) Unified display object management: uniformly coding and packaging display objects such as 2D (two-dimensional), 3D (three-dimensional) and the like, storing information of the display objects into a display object table of a uniform visual platform, performing uniform management, and finally forming a page to display all the display objects;

3) Unified design service: the designer is managed uniformly, the designed information is stored in a designer table of a uniform visual platform, a uniform designer display page is provided, the designer is a BS frame, and other systems or web pages can call the corresponding designer through the uniform visual platform through id;

4) Unified display service: other systems or web pages can display objects through the calling of the unified visualization platform by the id, and display objects such as a designed report, 2D and 3D are displayed on the pages.

The unified visual platform can be used for unified single sign-on, unified to-do reminding, unified data display, unified retrieval query and unified message announcement, and can flexibly deploy customized extraction display and service custom functions of important information. The method has the advantages that the operation condition of an enterprise is displayed in real time, the production process of each affiliated unit is monitored and managed comprehensively on line, a wisdom coordination ecological system is established, the dynamic monitoring function of operators on duty on production operation data and index data is met, the service monitoring capability and the production operation risk prevention and control capability are comprehensively improved, meanwhile, the core information of the service can be displayed in a centralized mode, and a powerful auxiliary effect is achieved for leadership daily decision making and emergency commanding.

In this embodiment, establishing an evaluation index system includes:

A. cooperative rate of completion of industry

The industry cooperation integrity is mainly used for evaluating the completion condition of each industry plate under the specified cooperation requirement, and the industry cooperation completion rate is calculated as follows:

in the formula eta _c,i The cooperative completion rate, q, of the cooperative item i _in,i For the actual supply quantity, q, referred to by the co-ordinating term i _out,i Actual demand, q, referred to as synergistic term i _er,i Is the planned value of the supply-demand difference, if _c,i Controlled at eta _c,i,min ≤η _c,i ≤η _c,i,max Within the interval, the completion condition of the synergy item i is better, otherwise, if eta is _c,i Too small or too small means that the service has a big problem in the collaboration process. Eta _c,i,min And η _c,i,max The minimum limit and the maximum limit of the cooperative completion rate of the cooperative item i.

B. Planned achievement rate in a region

The plan achievement rate in the region is used for evaluating the completion condition and the actual completion condition of the plan, and can provide more intuitive and independent evaluation aiming at cooperative business with unobvious supply-demand relation, and the specific calculation mode is as follows:

in the formula eta _p,i For the planned achievement rate, q, of the synergistic term i _plan,i Planned completion quantity, q, for the synergistic item i _act,i Is the actual completion amount of the synergy term i. The same thing as the above-mentioned index is true if η _p,i Controlled at eta _p,i,min ≤η _p,i ≤η _p,i,max Within the interval, the completion condition of the synergy item i is better, otherwise, if eta is _p,i Too small or too small means that the service has a big problem in the collaboration process. Eta _p,i,min And η _p,i,max The minimum limit and the maximum limit of the cooperative completion rate of the cooperative item i.

Furthermore, index selection can be performed from the perspective of comprehensive management of production and operation in a collaborative area. And (4) combing the core business process and key business links of the collaborative area, and determining important indexes of multidimensional data analysis of the collaborative area. The index sample data needs to consider the data acquisition mode. Original format of data, connection mode, conversion rule, update frequency, etc. The data dimensions include at least: the date dimension and the organization dimension can be expanded to other business dimensions according to different business requirements. Considering the statistical analysis characteristics of data, such as the relationship between a main sub-table of a fact table and the relationship between a dimension table and the fact table; and the business theme corresponding to the data table and the like.

Further, the quality of the index data is checked. The data quality is checked by setting data rules, wherein the data rules mainly comprise: integrity rules, uniqueness rules, correctness rules, timeliness rules, consistency rules, accuracy rules. The verification content at least comprises: non-null verification, main key verification, value domain verification, update time verification, data link verification and precision verification.

In this embodiment, the collaborative management and control of the production operation plan of each industrial plate in each area includes:

(1) Comprehensively managing and controlling the work of plan object registration, plan parameter management and the like among all industrial units and area management departments in an area;

plan object registration: the plan object registration refers to that the regional management departments and the industry cooperative units participating in the operation plan related business are managed as information objects, and the member types, the business ranges, the participation plan contents and the detailed registration information of the units are defined, wherein the detailed registration information comprises contacts, contact phones, mailboxes and the like. The plan object registration comprises the functions of plan object registration, cancellation, change, query and the like, and each unit can participate in the subsequent plan flow only after registration.

Plan parameter management: the planning parameter management refers to configuration of basic data and parameter information influencing planning, and includes railway topological relation configuration, coal mine/power plant/port/chemical plant basic information configuration, skylight planning configuration, planning task period configuration, short message sending template configuration, maintenance planning configuration and the like.

(2) The production operation plan with multi-target and multi-constraint different time scales is compiled, the basic requirements of typical energy enterprise supply chain operation plan compilation are met, the production operation plan is updated in a rolling mode regularly through a planning function, and guiding suggestions and suggestions are provided for plan execution.

The production operation planning specifically refers to a process of adjusting planning declaration resources by regional dispatching management personnel by selecting different planning balance strategies according to port inventory, sales demand and other information after resource quantity declaration is finished by each industry coordination unit in a region. The different balancing strategies comprise that when the system detects that the system needs to reduce data due to excess capacity, the distance from each station to a port is calculated according to the system, then reported data information of each station is displayed in a sequencing mode, and a user is assisted in preferentially reducing the distance when adjusting the data and then adjusting the distance to be far.

(3) The actual requirements of reporting linkage of all levels of units of a production plan of a power generation enterprise supply chain are considered integrally, and a regional dispatching management department and each plan reporting unit are cooperatively compiled in the planning process.

The cooperation process is that each industry cooperation department declares plans to the regional dispatching management department, the regional dispatching management department performs auditing, if the cooperation modification of each industry cooperation department is needed, the linkage compilation work can be performed, the regional dispatching management department issues plan amount of suggested reference, and each industry cooperation department performs confirmation again until the actual declaration requirements of both parties are met.

(4) Carry out visual show to each industry plate enterprise information

The problems that summarized data are complicated in the reporting process and the imported data error rate is high are considered, comparison methods of various types of key information are researched, a visual graphic display function is achieved by combining an intuitive and effective comparison mode, information display in different degrees is carried out on a total dispatching room of an energy enterprise and units at different levels, the supply chain is assisted to operate in a coordinated mode, and convenience is brought to production planning of different time scales.

The displayed information includes: and displaying the enterprise operation condition in real time, wherein the enterprise operation condition comprises information of each link of production operation planning such as plan declaration, plan summary, total balance, comprehensive balance, collaborative planning, plan generation and the like, and monthly plan quantity, declaration quantity, completion quantity and plan deviation rate ((completion quantity-plan quantity)/plan quantity multiplied by 100%) of each industrial collaborative unit are displayed in a visual mode.

The different degrees are embodied in that the data information amount which can be seen is different when the unit authority settings of all levels are different. And performing authority management on each link of planning before display, and performing authority maintenance on planning participants. The method comprises the steps of reporting, auditing of sub-branch companies, planning and auditing, planning and approving, and personnel and authority information configuration of planning and releasing. Meanwhile, production operation data of each sub-unit can be checked by regional scheduling management personnel, common part data can be checked when service intersection exists in cooperation with the industrial plates, and production operation data cannot be checked by other horizontal industrial units.

In this embodiment, finally, according to the area-level industry collaborative management method for power generation enterprises, the regional-level industry collaborative management method issues information at a regional level to instruct each regional management department and each regional subordinate station-level unit to implement and execute the regional management department and the regional subordinate station-level unit.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solutions of the present invention and not for limiting the same, and although the present invention is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: modifications and equivalents may be made to the embodiments of the invention without departing from the spirit and scope of the invention, which is to be covered by the claims.

Claims (11)

1. A region-level industry cooperative management method for power generation enterprises is characterized by comprising the following steps:

summarizing and classifying the services in each region oriented to the power generation enterprises based on the industrial plates, and determining the interactive relationship among the industrial plates;

simultaneously carrying out real-time dynamic monitoring on key production data of each industrial plate in each area;

and establishing an evaluation index system, calculating evaluation indexes based on the key production data of each industrial plate and the interactive relation between each industrial plate, and performing cooperative management and control on the production operation plan of each industrial plate in each area.

2. The area-level industry collaborative management method for power generation enterprises according to claim 1, wherein the step of performing summary classification on the businesses in each area targeted by the power generation enterprises based on industry boards comprises:

and summarizing and classifying the businesses in each region oriented to the power generation enterprises according to five industrial blocks of coal, electric power, railways, ports and shipping.

3. The area-level industry collaborative management method for power generation enterprises according to claim 2, wherein the determining of the interaction relationship between the industry slabs comprises:

and determining the interactive relationship among the industrial plates according to the supply-demand relationship and the geography-associated relationship, as follows:

the coal industry plate and the electric power industry plate have supply and demand relationship;

the coal industry plate and the railway industry plate have a relationship of land edge;

and a geodesic relationship exists between the port industry plate and the shipping industry plate.

4. The area-level industry collaborative management method for power generation enterprises according to claim 3, further comprising:

and determining coal supply and demand interaction, railway management interaction and coal-electricity cooperative interaction relationship among the regions.

5. The area-level industry collaborative management method for power generation enterprises according to claim 1, wherein the real-time dynamic monitoring of the key production data of each industry plate of each area comprises:

and carrying out real-time dynamic monitoring on the fuel, the generating capacity and the load key production data of each industrial plate.

6. The area-level industry collaborative management method for power generation enterprises according to claim 1, wherein the establishment of an evaluation index system comprises:

the industry synergy completion rate is calculated as follows:

wherein eta _c,i As the cooperative completion rate of the cooperative item i, q _in,i For the actual supply quantity, q, to which the synergistic term i relates _out,i Actual demand, q, referred to as synergistic term i _er,i Is a planned value of the supply and demand difference;

the planned achievement rate in the area is calculated as follows:

wherein eta _p,i For planned achievement rate of the synergy term i, q _plan,i Planned completion quantity, q, for the synergistic item i _act,i Is the actual completion amount of the synergy term i.

7. The area-level industry collaborative management method for power generation enterprises according to claim 6, wherein the collaborative management and control of the production operation plans of the industry blocks in each area comprises:

comprehensively managing and controlling plan object registration and plan parameters among all industrial units and area management departments in an area;

multi-target and multi-constraint production operation plan compilation with different time scales is carried out on each industrial unit in the region;

and (c) a second step of,

and carrying out collaborative compilation on the production operation plan of each industrial unit.

8. The area-level industry collaborative management method for power generation enterprises according to claim 7, wherein the comprehensive management and control of plan object registration and plan parameters between each industry unit and area management department in an area comprises:

managing the regional management departments participating in the production operation plan and each industrial unit as information objects, and defining member types, service ranges, participation plan contents and registration information of each unit, including contacts, contact phones and mailboxes;

and configuring basic data and parameter information influencing production operation planning, wherein the basic data and the parameter information comprise railway topological relation configuration, coal mine/power plant/port/chemical plant basic information configuration, skylight plan configuration, plan task period configuration, short message sending template configuration and maintenance plan configuration.

9. The area-level industry collaborative management method for power generation enterprises according to claim 7, wherein the planning of the production operation plan with multiple targets and constraints for different time scales for each industry unit in an area comprises:

after resource quantity declaration is carried out by each industrial unit in the area, selecting a corresponding plan balance strategy according to port inventory and sales demand information, and adjusting plan declaration resources; and the plan balance strategy comprises the steps of sequencing and displaying the resource amount declaration information of each site according to the distance from each site to a port when the system detects that data needs to be reduced, and preferentially reducing the sites with short distances.

10. The method for collaborative management of regional industry oriented to power generation enterprises according to claim 7, wherein the collaborative compilation of production and operation plans of each industry unit comprises:

and auditing the production operation plan of each industrial unit, if other industrial units are required to be matched, performing linkage compilation, issuing a plan amount for suggesting reference to each industrial unit by a regional dispatching management department, and confirming each industrial unit again until the actual declaration requirements of the two parties are met.

11. The area-level industry collaborative management method for power generation enterprises according to claim 7, wherein the collaborative management and control of the production operation plans of the industry blocks in each area further comprises:

the method comprises the steps that enterprise information of each industrial unit is visually displayed, and the displayed information comprises information of each link of production operation planning, monthly planning quantity, declaration quantity, completion quantity and planning deviation rate of each industrial unit;

and (c) a second step of,

and performing authority management on the display of information of each link of production operation plan compilation and performing authority management on plan participation personnel.

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