CN102142111A - Asset life information integrated control method and device suitable for power system - Google Patents

Abstract

The invention relates to an asset life information integrated control method and a device suitable for a power system. The method comprises the following steps: an asset strategy auxiliary decision module is used for controlling a power grid planning module according to life cycle cost evaluation results of the existing equipment to select a corresponding planning scheme from a database server and sending the life cycle cost evaluation results to a project control module. The asset life information integrated control device suitable for the power system comprises the database server, a PSP (Python Server Pagers) application server, a BW (Band Width) application server, a BPS (Basic Programming System) application server, an SRM (Storage Resource Management) application server, a PMS (Purchase Management System) application server, a WRP (Wireless Routing Protocol) application server, an internal client, an external client, an internal bus and an Internet. Compared with the prior art, the asset life information integrated control method and the device suitable for the power system have the advantages of forming the evaluation decision of closed-loop linkage, optimizing the life cycle cost of the equipment and the like.

Description

Be applicable to the assets life-cycle information integration control method and the device of electric system

Technical field

The present invention relates to assets information control method and device, especially relate to a kind of assets life-cycle information integration control method and device that is applicable to electric system.

Background technology

Power grid enterprises belong to infrastructure service industry and public utilities, and power network safety operation involves the interests of the state and the people.Simultaneously power grid enterprises are typical capital-intensive enterprises, and electrical network assets value amount is huge.Guaranteeing power network safety operation, ensure power supply reliability, improve power grid operation efficient, is the top priority that power grid enterprises face.Along with the acceleration of power network development, the problem under the mode of asset data information management in the past progressively manifests, mainly show as following some:

1, the electrical network asset operation is implemented assets " segmentation " management mode based on function, and planning, construction, operation, retirement phase lack unified standard, fail to form lean closed loop management mechanism.

2, electrical network basic data management system imperfection, lack the standardization accumulation and the analysis of basic data and management information, each relevant information system is separate, information is isolated, data deficiency unified standard standard, data interaction, integrated, shared mechanism imperfection can't provide assessment basis and foundation for the asset management overall process.

3, fail to form comprehensive Asset State evaluation mechanism, do not have the information-based integrated framework of unified assets life-cycle cycle management, can not provide decision-making foundation normality, science for assets life-cycle cycle management.

Summary of the invention

Purpose of the present invention is exactly to provide a kind of assets life-cycle information integration control method and device that is applicable to electric system for the defective that overcomes above-mentioned prior art existence.

Purpose of the present invention can be achieved through the following technical solutions:

A kind of assets life-cycle information integration control method that is applicable to electric system is characterized in that this method may further comprise the steps:

The planning and design stage

1) assets strategy aid decision making module is according to existing equipment overall life cycle cost assessment result, and control Electric Power Network Planning module is chosen corresponding programme from database server, and sends it to the project verification control module;

2) the project verification control module is according to programme option type, and from the project code device, obtain bullets, generate investment estimate information, investment estimate information is sent to the investment appraisal module, send to assets strategy aid decision making module after the investment appraisal resume module, assets strategy aid decision making module judges whether this project is feasible, if yes, execution in step 3), if not, return step 1);

3) the project verification control module sends to design module with bullets, design module adopts standardization material code input material information, generates project estimation, defines project material time node, obtain retired equipment list from stock's control module, set up the related of retired device number and bullets, generate the equipment inventory that this project also needs at last, design module is sent to the plan control module with bullets, project estimation, project material time node, simultaneously bullets, equipment inventory is sent to the engineering management module;

4) the plan control module is received bullets, project preliminary budget information, project material time node, carry out the project investment risk assessment, comprehensively examine and budget control, adjust project investment and scale, list bullets in annual investment budgey/plan, and bullets, project investment and scale are sent to the engineering management module;

The buying construction period

5) engineering management module is used unified material code and is created shopping list, and bullets, stock number, shopping list are sent to the purchase of goods and materials module according to bullets, equipment inventory, project investment plan and scale;

6) purchase of goods and materials module receives bullets, stock number, shopping list, supplier's assessment result with reference to supplier's evaluation module, create purchase order, the record supplier information, carry out procurement process, after purchase of goods and materials put in place, the purchase of goods and materials module sent to stock's control module with bullets, Bill of Material (BOM), and this stock's control module sends to the engineering management module with bullets, Bill of Material (BOM);

7) after the engineering completion, the engineering management module generates completion of works acceptance list and final account for completed project book, record entry numbering, Bill of Material (BOM) information, after the acceptance of work, the engineering management module generates changes the money inventory, bullets, Bill of Material (BOM) are sent to the production run module, bullets, commentaries on classics money inventory are sent to assets management module;

8) production run module is created Unit account of plant automatically according to the material information in the Bill of Material (BOM), brings simultaneously material code corresponding in the shopping list, relevant purchase order number and row number automatically into, the corresponding relation of apparatus for establishing numbering and stock number; Assets management module is created the assets card automatically according to the cost information and the material information that change in the money inventory, and the engineering cost of project correspondence is shared the equipment monomer;

9) device management module and production run module, assets management module carry out data sync, the corresponding relation of apparatus for establishing numbering and asset number is realized the interlock of account, card, thing automatically;

The operation maintenance stage

10) the daily O﹠M of production run module collecting device, maintenance, transformation information, according to the facility information of gathering, the automatic generation of the project verification of trigger equipment overhauling project and check man's list is stored in device management module with the cost of overhaul, and assets management module shares the cost of overhaul to the equipment monomer;

11) generating run module, device management module send to the equipment state evaluation module with equipment operation information, failure message, O﹠M cost information, this equipment state evaluation module is by the assets performance of cost accumulation and allocation way record single devices, single devices residual life, risk cost are calculated, assessed, the single devices assessment result is fed back to assets strategy aid decision making module, and it is retired to judge whether this single devices needs, execution in step 12 if yes), if, do not continue execution in step 11);

12) device management module will treat that retired device numbering is sent to retired disposal module, and related by with assets management module obtains and treat retired asset of equipments initial value, net value data and be sent to retired disposal module simultaneously;

Retired scrapping the stage

13) retired disposal module generates retired assets inventory according to retired device numbering, the dead assets evaluation module is according to retired equipment residual life, assets performance and risk cost, generate the dead assets inventory, determine retired equipment disposal options, generate and utilize assets inventory, dead assets inventory again, retired assets disposal result is fed back to assets strategy aid decision making module, retired disposal module will utilize the assets inventory to be sent to inventory management module again, the dead assets inventory is sent to scrap the disposal module;

14) scrap dispose module write-off equipment scrapped disposal after, the recovery residual value of these assets is sent to the financial data processing module, the financial data processing module is being specified record on the account of finance automatically, finishes asset retirement and disposes.

Described Electric Power Network Planning module, design module are embedded on PSP (Electric Power Network Planning system) application server.

Described investment appraisal module, assets strategy aid decision making module are embedded on BW (data warehouse) application server.

Described plan control module, project verification control module are embedded on BPS (approving and initiate a project and the planned budget platform) application server.

Described supplier evaluation module is embedded on SRM (supplier relationship management) application server.

Described equipment state evaluation module, production management module, retired disposal module are embedded on PMS (power transmission and transformation production management system) application server.

Described device management module, assets management module, inventory management module, purchase of goods and materials module, scrap dispose module, the dead assets evaluation module is embedded on ERP (Enterprise Resources Plan) application server.

A kind of assets life-cycle information integration control device that is applicable to electric system, it is characterized in that, this device comprises database server, the PSP application server, the BW application server, the BPS application server, the SRM application server, the PMS application server, the ERP application server, internal client, external client, internal bus, Internet, described database server, the PSP application server, the BW application server, the BPS application server, the SRM application server, the PMS application server, the ERP application server, internal client is formed LAN (Local Area Network) by internal bus, and described external client is connected with LAN (Local Area Network) by Internet.

Compared with prior art, the present invention has the following advantages:

1, the present invention has set up a cover and has run through from basic data standard and the information coding scheme of strategy, planning, design, investment, purchase of goods and materials, engineering construction, asset management, equipment control and waste and old material disposal overall process information management requirement, set up the unified standard of material code, device coding, assets coding, project code, WBS digital coding such as (project work decomposition textures), realized effectively sharing integrated and each professional lateral direction penetrating, the effective linking and closed loop between realizing senior application and Back ground Information flowing of each intermodule information.

2, serve as theme with project,, realize approving and initiate a project, design, purchase, building until the full-range project information of final acceptance of construction, value control in conjunction with the Electric Power Network Planning scheme.With project alternative in the cycle of operation relevant capital input sum up project, and assets are shared to the equipment monomer after changeing money putting into operation, realize standardized Project design and construction.

3, serve as theme with equipment, realize equipment refinement management and assessment based on account, card, thing unification and interlock.Carry out operation maintenance, maintenance, retired disposing task based on the equipment monomer, guarantee the lateral direction penetrating of assets information, facility information, business information, financial information.Putting into operation of all electrical network asset datas changeed money, operation detection, Maintenance and Repair, technological transformation, retired facility information, assets information management of scrapping Life cycle after the covering project construction was finished, and assessed cycle overlay device life-cycle for Asset State and established the data basis.

4, under the support of each service node, launch Asset State assessment and decision-making, under the guidance of assets strategy and state estimation, carry out each service node work management, form the evaluation decision of closed loop interlock, the optimizing equipment overall life cycle cost.

Description of drawings

Fig. 1 is a process flow diagram of the present invention;

Fig. 2 is a hardware structure diagram of the present invention.

Embodiment

The present invention is described in detail below in conjunction with the drawings and specific embodiments.

Embodiment

As shown in Figure 1 and Figure 2, certain station 10kV box type transformer assets life-cycle periodic Control process is as follows:

The planning and design stage

1) based on Electric Power Network Planning, network load will be than existing Load lifting 20% in 3 years futures in certain sub-district, and the existing power supply configuration can not be satisfied the production and construction requirement, exists new equipment to put into operation on development plan or existing equipment increase-volume requirement.Assets strategy aid decision making module 18 is according to existing equipment overall life cycle cost assessment result, control Electric Power Network Planning module 1 is chosen at the programme of a newly-increased 10kV box type transformer in this zone from database server a, and sends it to project verification control module 2;

2) project verification control module 2 is selected the capital construction intermediate item according to programme, and from the project code device, obtain bullets 0000023, investment estimate information is sent to investment appraisal module 3, after handling, investment appraisal module 3 sends to assets strategy aid decision making module 18, assets strategy aid decision making module 18 judges whether this project is feasible, if yes, and execution in step 3), if, do not return step 1);

3) project verification control module 2 sends to design module 4 with bullets, design module 4 adopts standardization material code input material information, generate project estimation, definition project material time node, obtain retired equipment list from stock's control module 8, set up the related of retired device number and bullets, generate the equipment inventory (comprise newly added equipment and scrap the equipment inventory in advance) that this project also needs at last, design module is with bullets, project estimation, project material time node is sent to plan control module 5, simultaneously with bullets, the equipment inventory is sent to engineering management module 6;

4) plan control module 5 is received bullets, project preliminary budget information, project material time node, carry out the project investment risk assessment, comprehensively examine and budget control, adjust project investment and construction scale, list bullets in annual investment budgey/plan, and bullets, project investment and construction scale equipment inventory are sent to engineering management module 6;

The buying construction period

5) engineering management module 6 is used unified material code and is created shopping list, and bullets, stock number, shopping list are sent to purchase of goods and materials module 7 according to bullets, equipment inventory, project investment plan and construction scale;

6) purchase of goods and materials module 7 receives bullets, stock number, shopping list, supplier's assessment result with reference to supplier's evaluation module 15, create purchase order, the record supplier information, carry out procurement process, after the buying of 10kV box type transformer put in place, purchase of goods and materials module 7 sent to stock's control module 8 with bullets, Bill of Material (BOM), and this stock's control module 8 sends to engineering management module 6 with bullets, Bill of Material (BOM);

7) after the engineering completion, engineering management module 6 generates completion of works acceptance list and final account for completed project book, generate 10kV box type transformer Bill of Material (BOM) information, after the acceptance of work, engineering management module 6 generates the commentaries on classics money inventory of 10kV box type transformer, bullets, Bill of Material (BOM) are sent to production run module 9, bullets, commentaries on classics money inventory are sent to assets management module 11;

8) production run module 9 is according to the material information in the 10kV box type transformer Bill of Material (BOM), automatically create Unit account of plant, generate device numbering 000089, bring simultaneously material code corresponding in the shopping list, relevant purchase order number and row number automatically into, the corresponding relation of apparatus for establishing numbering and stock number; Assets management module 11 is created the assets card automatically according to the cost information and the material information that change in the money inventory, generates asset number 000078, and the engineering cost of project correspondence is shared the equipment monomer;

9) data sync of carrying out of device management module 10 and production run module 9, assets management module 11, the corresponding relation of apparatus for establishing numbering and asset number is realized the interlock of account, card, thing automatically, the 10kV box type transformer formally puts into operation;

The operation maintenance stage

10) the daily O﹠M of production run module 9 collecting devices, maintenance, transformation information, according to the facility information of gathering, the project verification of trigger equipment overhauling project, after the overhauling project project verification, in production run module 9 by the comprehensive production schedule, carrying out the maintenance task arranges, simultaneously overhauling project number, repair apparatus number are sent to device management module 10, automatically it is single to generate the check man, the record cost of overhaul, and the cost of overhaul shared this 10kV box type transformer, and as the operating maintenance cost of its run duration, the assets assessment in cycle participation device life-cycle and supplier's assessment;

11) constantly increase owing to this cell load, the renewal of rolling of original Electric Power Network Planning, trigger the project verification of technological transformation intermediate item, cause that this equipment is retired, generating run module 9, device management module 10 is with equipment operation information, failure message, O﹠M cost information sends to equipment state evaluation module 16, this equipment state evaluation module 16 is by the assets performance of cost accumulation and allocation way record 10kV box type transformer, to 10kV box type transformer residual life, risk cost is calculated, assessment, the assessment result of 10kV box type transformer is fed back to assets strategy aid decision making module 18, and judge whether this 10kV box type transformer needs retired, execution in step 12 if yes), if, do not continue execution in step 11);

12) device management module 10 is sent to retired disposal module 12 with the numbering of 10kV box type transformer, and related by with assets management module 22 obtains 10kV box type transformer initial asset value, net value data and be sent to retired disposal module 12 simultaneously;

Retired scrapping the stage

13) retired disposal module 12 generates retired assets inventory according to 10kV box type transformer asset number, dead assets evaluation module 17 is according to 10kV box type transformer residual life, assets performance and risk cost, generate retired assets inventory and determine 10kV box type transformer disposal options, generate and utilize assets inventory, dead assets inventory again, retired assets disposal result is fed back to assets strategy aid decision making module 18, retired disposal module 12 will utilize the assets inventory to be sent to inventory management module 8 again, the dead assets inventory is sent to scrap dispose module 13;

14) scrap dispose 13 pairs of write-off equipments of module and scrap disposal after, the recovery residual value of these assets is sent to financial data processing module 14, financial data processing module 14 is being specified record on the account of finance automatically, finishes asset retirement and disposes.

A kind of assets life-cycle information integration control device that is applicable to electric system, this device comprises database server a, PSP application server b, BW application server d, BPS application server c, SRM application server e, PMS application server g, ERP application server h, internal client f, external client i, internal bus j, Internet, described database server a, PSP application server b, BW application server d, BPS application server c, SRM application server e, PMS application server g, ERP application server h, internal client f forms LAN (Local Area Network) by internal bus j, and described external client i end is by Internet n, fire wall m, strong xegregating unit k is connected with LAN (Local Area Network).Described Electric Power Network Planning module 1, design module 4 are embedded on the PSP application server b.Described investment appraisal module 3, assets strategy aid decision making module 18 are embedded on the BW application server d.Described plan control module 5, project verification control module 2 are embedded on the BPS application server c.Described supplier evaluation module 15 is embedded on the SRM application server e.Described equipment state evaluation module 16, production management module 9, retired disposal module 12 are embedded on the PMS application server g.Described device management module 10, assets management module 11, inventory management module 8, purchase of goods and materials module 7, scrap dispose module 13, dead assets evaluation module 17 is embedded on the ERP application server h.

Claims (8)

1. assets life-cycle information integration control method that is applicable to electric system is characterized in that this method may further comprise the steps:

The planning and design stage

1) assets strategy aid decision making module is according to existing equipment overall life cycle cost assessment result, and control Electric Power Network Planning module is chosen corresponding programme from database server, and sends it to the project verification control module;

2) the project verification control module is according to programme option type, and from the project code device, obtain bullets, generate investment estimate information, investment estimate information is sent to the investment appraisal module, send to assets strategy aid decision making module after the investment appraisal resume module, assets strategy aid decision making module judges whether this project is feasible, if yes, execution in step 3), if not, return step 1);

3) the project verification control module sends to design module with bullets, design module adopts standardization material code input material information, generates project estimation, defines project material time node, obtain retired equipment list from stock's control module, set up the related of retired device number and bullets, generate the equipment inventory that this project also needs at last, design module is sent to the plan control module with bullets, project estimation, project material time node, simultaneously bullets, equipment inventory is sent to the engineering management module;

4) the plan control module is received bullets, project preliminary budget information, project material time node, carry out the project investment risk assessment, comprehensively examine and budget control, adjust project investment and scale, list bullets in annual investment budgey/plan, and bullets, project investment and scale are sent to the engineering management module;

The buying construction period

5) engineering management module is used unified material code and is created shopping list, and bullets, stock number, shopping list are sent to the purchase of goods and materials module according to bullets, equipment inventory, project investment plan and scale;

6) purchase of goods and materials module receives bullets, stock number, shopping list, supplier's assessment result with reference to supplier's evaluation module, create purchase order, the record supplier information, carry out procurement process, after purchase of goods and materials put in place, the purchase of goods and materials module sent to stock's control module with bullets, Bill of Material (BOM), and this stock's control module sends to the engineering management module with bullets, Bill of Material (BOM);

7) after the engineering completion, the engineering management module generates completion of works acceptance list and final account for completed project book, record entry numbering, Bill of Material (BOM) information, after the acceptance of work, the engineering management module generates changes the money inventory, bullets, Bill of Material (BOM) are sent to the production run module, bullets, commentaries on classics money inventory are sent to assets management module;

8) production run module is created Unit account of plant automatically according to the material information in the Bill of Material (BOM), brings simultaneously material code corresponding in the shopping list, relevant purchase order number and row number automatically into, the corresponding relation of apparatus for establishing numbering and stock number; Assets management module is created the assets card automatically according to the cost information and the material information that change in the money inventory, and the engineering cost of project correspondence is shared the equipment monomer;

9) device management module and production run module, assets management module carry out data sync, the corresponding relation of apparatus for establishing numbering and asset number is realized the interlock of account, card, thing automatically;

The operation maintenance stage

10) the daily O﹠M of production run module collecting device, maintenance, transformation information, according to the facility information of gathering, the automatic generation of the project verification of trigger equipment overhauling project and check man's list is stored in device management module with the cost of overhaul, and assets management module shares the cost of overhaul to the equipment monomer;

11) generating run module, device management module send to the equipment state evaluation module with equipment operation information, failure message, O﹠M cost information, this equipment state evaluation module is by the assets performance of cost accumulation and allocation way record single devices, single devices residual life, risk cost are calculated, assessed, the single devices assessment result is fed back to assets strategy aid decision making module, and it is retired to judge whether this single devices needs, execution in step 12 if yes), if, do not continue execution in step 11);

12) device management module will treat that retired device numbering is sent to retired disposal module, and related by with assets management module obtains and treat retired asset of equipments initial value, net value data and be sent to retired disposal module simultaneously;

Retired scrapping the stage

13) retired disposal module generates retired assets inventory according to retired device numbering, the dead assets evaluation module is according to retired equipment residual life, assets performance and risk cost, generate the dead assets inventory, determine retired equipment disposal options, generate and utilize assets inventory, dead assets inventory again, retired assets disposal result is fed back to assets strategy aid decision making module, retired disposal module will utilize the assets inventory to be sent to inventory management module again, the dead assets inventory is sent to scrap the disposal module;

14) scrap dispose module write-off equipment scrapped disposal after, the recovery residual value of these assets is sent to the financial data processing module, the financial data processing module is being specified record on the account of finance automatically, finishes asset retirement and disposes.

2. a kind of assets life-cycle information integration control method that is applicable to electric system according to claim 1 is characterized in that described Electric Power Network Planning module, design module are embedded on the PSP application server.

3. a kind of assets life-cycle information integration control method that is applicable to electric system according to claim 1 is characterized in that described investment appraisal module, assets strategy aid decision making module are embedded on the BW application server.

4. a kind of assets life-cycle information integration control method that is applicable to electric system according to claim 1 is characterized in that, described plan control module, project verification control module are embedded on the BPS application server.

5. a kind of assets life-cycle information integration control method that is applicable to electric system according to claim 1 is characterized in that described supplier evaluation module is embedded on the SRM application server.

6. a kind of assets life-cycle information integration control method that is applicable to electric system according to claim 1 is characterized in that described equipment state evaluation module, production management module, retired disposal module are embedded on the PMS application server.

7. a kind of assets life-cycle information integration control method that is applicable to electric system according to claim 1, it is characterized in that, described device management module, assets management module, inventory management module, purchase of goods and materials module, scrap dispose module, the dead assets evaluation module is embedded on the ERP application server.

8. assets life-cycle information integration control device that is applicable to electric system, it is characterized in that, this device comprises database server, the PSP application server, the BW application server, the BPS application server, the SRM application server, the PMS application server, the ERP application server, internal client, external client, internal bus, Internet, described database server, the PSP application server, the BW application server, the BPS application server, the SRM application server, the PMS application server, the ERP application server, internal client is formed LAN (Local Area Network) by internal bus, and described external client is connected with LAN (Local Area Network) by Internet.

Images