CN109857819A - A kind of global energy geography multimedia interactive display systems - Google Patents

Abstract

The invention discloses a kind of global energy geography multimedia interactive display systems, including sequentially connected data Layer, platform layer, application layer and client layer, data Layer is global energy geographical data bank, storage content includes global high-precision three-dimensional map datum and image data, global Renewable Energy Resources data, electric power data and smart city multi-energy data, application layer include basic function unit, analytic function unit, figure layer functional unit and stock assessment unit, data retrieval unit, engineering networking unit, smart city unit.The comprehensive integrated global multi-energy data of the present invention and geographic information data, construct global virtual three-dimensional live, in a manner of three-dimensional visualization, the distribution of reduction global energy and power network development rule, formation is accurately full and accurate, content is intuitive, calls convenient global energy geography interactive exhibition system.

Description

A kind of global energy geography multimedia interactive display systems

Technical field

The present invention relates to a kind of global energy geography multimedia interactive display systems, belong to big data analysis and application technology Field.

Background technique

Currently, the whole world and China's economic face more complicated development situation, and the relationship of economy and electricity power is increasingly tight It is close, global energy transition just is pushed to develop clean energy resource and smart grid as opportunity in world wide.Future source of energy, economy Developmental research shows multi-field, the multidisciplinary development trend combined closely and globalized, analysis and research and science decision difficulty Increasingly increase.

The conception of global energy Internet Strategy is that State Grid Corporation of China proposes, to solve the problems, such as that human kind sustainable development mentions Brand-new solution has been supplied, has been the basic sexual revolution in electricity power field, has brought great machine to the development of global power Industry Innovation It meets.To promote global energy Internet Strategy to implement, construction global energy research support platform is needed, to realizing route, planning Scheme, techno-economic policy, coordination mechanism and related significant problem carry out continuing to go deep into systematic research demonstration.

Summary of the invention

The purpose of the present invention is to provide a kind of global energy geography multimedia interactive display systems, and realizing can with three-dimensional Depending on change mode, global energy distribution and power network development rule are restored.

To realize that above-mentioned goal of the invention, the present invention adopt the following technical scheme that:

A kind of global energy geography multimedia interactive display systems, including sequentially connected infrastructure layer, data Layer, platform branch Support layer, application layer and client layer；

The infrastructure layer includes multiple graphics workstations and application service station；Background application is disposed in the application service station Server is responsible for hind computation, data analysis and plateform system publication；Client application is disposed in the graphics workstation For showing global range three-dimensional map data, business thematic data and analysis results data；

The data Layer is global energy geographical data bank, and storage content includes global high-precision three-dimensional map datum and image number According to, global Renewable Energy Resources data, electric power data and smart city multi-energy data；

The platform layer is based on Microsoft.Net+NARI-RealWorld, carries out data management, operation management, application Service and secondary development；

The application layer includes basic function unit, analytic function unit, figure layer functional unit, stock assessment unit, data inspection Cable elements, engineering networking unit and smart city unit；

The basic function unit for carrying out edit operation in three dimensions；

The analytic function unit is measured for three-dimension GIS spatial analysis；

The figure layer functional unit is for Administrative boundaries data, energy resources figure layer data, electric power data and networking project data Superposition show；

The stock assessment unit is calculated for DNI exploitable deposit, GHI exploitable deposit calculates and wind energy resources calculate；

The engineering networking unit is for showing different year U.S. networking project data；

The smart city unit shows that global energy is mutual for showing the energy compared with urban economy, society, environmental change Networking and clean energy resource are utilized to be changed to city bring；

The client layer is client.

Whole world high-precision three-dimensional map datum above-mentioned includes three-dimensional map basic data, state boundary vector data, China Provincial boundaries vector data and the U.S., circle, state vector data；It is described the whole world Renewable Energy Resources data include solar energy thematic data and Wind energy thematic data；The electric power data includes power plant's thematic data, 4E index thematic data and networking project thematic data；Institute Stating smart city multi-energy data includes smart city thematic data.

Client layer above-mentioned is the end PC, plate end, mobile phone terminal or display screen.

Data Layer above-mentioned supports the access of data full dose and manual maintenance mode.

Stock assessment unit above-mentioned realizes that DNI exploitable deposit calculates, GHI exploitable deposit calculates and wind energy resources calculate； It is implemented as follows:

11) global renewable energy assessment models, including solar energy resources assessment models and wind energy, are established in the application server Fish stock assessment models；Wherein, solar energy resources assessment models include photovoltaic resources assessment models and sunlight-heat reaources assessment models again； The photovoltaic resources assessment models are established based on DNI data, and the sunlight-heat reaources assessment models are established based on GHI data；

12) instruction of client layer, is received；

13), if instruction is DNI exploitable deposit computations, the specified number of instruction is transferred in global energy geographical data bank According to；The data transferred are inputted photovoltaic fish stock assessment models after evaluated model analysis calculates to return to calculated result, and press It is shown according to default, and is finally attached to development of resources auxiliary addressing result in landform in the form of color spot, intuitive show can Developing zone；

If instruction is GHI exploitable deposit computations, instruction specified data is transferred in global energy geographical data bank；It will The data input sunlight-heat reaources assessment models transferred return to calculated result after evaluated model analysis calculates, and according to default It is shown, and is finally attached to development of resources auxiliary addressing result in landform in the form of color spot, intuitive show can development zone Domain；

If instruction is wind energy computations, instruction specified data is transferred in global energy geographical data bank；By what is transferred Data input Evaluation of Wind Energy Resources model and return to calculated result after evaluated model analysis calculates, and are folded in a manner of figure by rendering Add different blower height, different year wind power concentration figure layer.

DNI exploitable deposit above-mentioned calculates as follows:

Usable area rate=usable area/gross area；

Photovoltaic generation installed capacity=usable area * fixed coefficient * 0.05；

Photovoltaic power generation quantity=Photovoltaic generation installed capacity * power generation hourage；

Photovoltaic power generation hourage=photovoltaic generating system efficiency * photovoltaic amount of radiation/usable area；

Wherein, photovoltaic amount of radiation is transferred from global energy geographical data bank；

The GHI exploitable deposit calculates as follows:

The mirror field generated energy=effective generated energy of optical heat radiation amount * 5%* mirror field occupied area rate * photo-thermal；

Afterburning system generated energy=mirror field generated energy * 0.1；

Installed capacity=usable area * fixed coefficient * 0.05；

Total power generation=mirror field generated energy+afterburning system generated energy；

Hourage=total power generation/installed capacity；

Wherein, optical heat radiation amount is transferred from global energy geographical data bank；

The wind energy exploitable deposit calculates as follows:

Reserves=wind energy * area * 0.4/100；

Generated energy=reserves * hourage；

Wherein, wind energy is transferred from global energy geographical data bank.

Engineering networking unit function above-mentioned is accomplished by

21) instruction of client layer, is received；

22) it is, engineering networking instruction if instructing, networking item number in the different year U.S. is shown with the automatic broadcast mode of time shaft According to displaying power network development rule.

Smart city Elementary Function above-mentioned is accomplished by

31) instruction of client layer, is received；

32), if instruction is that power grid addressing instructs, the specified number of instruction is transferred in global energy geographical data bank according to instruction According to, progress power transmission line drafting, and power transmission line route is shown in three-dimensional geographic scenes；

33), if instruction is that smart city instructs, script is showed according to smart city three-dimensional modeling data and shows the energy and city Economic, social, environmental change comparison shows that global energy internet and clean energy resource are utilized and changes to city bring.

Above-mentioned show is played automatically by script, with the displaying of animation form simulation.

The present invention reaches the utility model has the advantages that the comprehensive integrated global multi-energy data of the present invention and geographic information data, building are complete Ball virtualizes three-dimensional live, and in a manner of three-dimensional visualization, the distribution of reduction global energy and power network development rule are formed accurate detailed In fact, content is intuitive, calls convenient global energy geography interactive exhibition system.

Detailed description of the invention

Fig. 1 is present system structural schematic diagram；

Fig. 2 is global renewable energy assessment models framework.

Specific embodiment

The invention will be further described below in conjunction with the accompanying drawings.Following embodiment is only used for clearly illustrating the present invention Technical solution, and not intended to limit the protection scope of the present invention.

As shown in Figure 1, the present invention provides a kind of global energy geography multimedia interactive display systems, including sequentially connected Infrastructure layer, data Layer, platform layer, application layer and client layer.

Infrastructure layer includes multiple graphics workstations and application service station, and graphics workstation and application service station are existing Hardware technology is not stated herein tired.Background application server disposition is mainly responsible for hind computation, data clothes at application service station The publication of the services such as business, plateform system；Client application will be deployed in graphics workstation, superior by graphics workstation Performance, efficiently render global range three-dimensional map data, business thematic data, analysis results data etc..

Data Layer is global energy geographical data bank, and storage content includes global high-precision three-dimensional map datum and image number According to, global Renewable Energy Resources data, electric power data and smart city multi-energy data.

Wherein, global high-precision three-dimensional map datum includes high accuracy three-dimensional map basic data, national boundaries line vector number According to, Chinese provincial boundaries vector data, the U.S., circle, state vector data；Global renewable energy source data packet includes solar energy thematic data and wind It can thematic data；Electric power data includes power plant's thematic data, 4E index thematic data and networking project thematic data；Smart city Multi-energy data includes smart city thematic data.Each data source is as follows: state boundary vector data: being derived from internet；Solar energy Thematic data: it is derived from SolorGis data；Wind energy thematic data: it is derived from external system acquisition；4E index thematic data and networking Project thematic data: it is obtained by power grid existing business system.

The mode of establishing of data Layer includes the access of data full dose and manual maintenance mode, after foundation with being integrated into global energy Database is managed, and is divided into global high-precision three-dimensional map datum, image data, global Renewable Energy Resources data, electric power number According to and smart city multi-energy data.And data analysis service is realized in application function server, in client layer client large-size screen monitors exhibition Existing correlation three-dimensional applications.

Platform layer is specially to apply Microsoft.Net+NARI-RealWorld technology, realizes the number of data center According to management, operation management, application service and secondary development application, this is also the prior art, is not also stated herein tired.

Application layer includes basic function unit, analytic function unit, figure layer functional unit, stock assessment unit, data inspection Cable elements, engineering networking unit and smart city unit.

Basic function unit mainly includes system-based function, is mainly used for edit operation in three dimensions, such as looks into Ask the coordinate information in some place.

Analytic function unit mainly includes basic three-dimension GIS spatial analysis measurement function, is mainly used for point of three-dimensional space Analysis and measurement, such as: the surface area for needing to analyze can be accurately measured.

Figure layer functional unit mainly includes Administrative boundaries data, energy resources figure layer data, electric power data and networking project The superposition of data is shown.By choosing figure layer, the data in application server are transferred, are superimposed figure layer in three-dimensional map.

Stock assessment unit includes that DNI(is directly radiated) exploitable deposit calculates, GHI(levels of scatter radiates) exploitable deposit meter It calculates and wind energy resources calculates.All calculating is calculated by the background service of deployment in the application server, calculated result It is back in the system for being deployed in graphics workstation, realizes that analysis result is visualized in client end interface.

Global renewable energy assessment models are established in the application server, as shown in Fig. 2, assessment models are according to the sun The exploitable deposit calculation formula foundation of energy, wind energy, by solar energy and the amount of radiation of wind energy, area, installation can be developed by calculating The assessment results such as amount.Specific calculating is as follows:

S11 establishes global renewable energy assessment models, including solar energy resources assessment models and wind energy in the application server Fish stock assessment models, wherein solar energy resources assessment models include photovoltaic resources assessment models and sunlight-heat reaources assessment models again. Photovoltaic resources assessment models are established based on DNI data, establish sunlight-heat reaources assessment models based on GHI data.

S12 receives the instruction of client layer；

S13, if instruction is DNI exploitable deposit computations, in global energy geographical data bank in transfer instruction specified Data；The data transferred, which are inputted photovoltaic fish stock assessment models after evaluated model analysis calculates, (can develop calculated result Region can develop area, installation amount) return, and be shown according to default, and finally by development of resources assist addressing result with Color spot (4 kilometers of x4 kilometers of rectangles) form is attached in landform, and intuitive show can developing zone.

Wherein, DNI exploitable deposit calculates as follows:

Usable area rate=usable area/gross area

Photovoltaic generation installed capacity=usable area * fixed coefficient (30,000 kw/k ㎡) * 0.05

Photovoltaic power generation quantity=Photovoltaic generation installed capacity * power generation hourage

Photovoltaic power generation hourage=photovoltaic generating system efficiency (0.8) * photovoltaic amount of radiation/usable area.

Wherein, photovoltaic amount of radiation is transferred from global energy geographical data bank.

If instruction is GHI exploitable deposit computations, the specified number of instruction is transferred in global energy geographical data bank According to；The data transferred are inputted sunlight-heat reaources assessment models after evaluated model analysis calculates to return to calculated result, and press It is shown according to default, and is finally attached to development of resources auxiliary addressing result in landform in the form of color spot, intuitive show can Developing zone.

Wherein, GHI exploitable deposit calculates as follows:

The mirror field generated energy=optical heat radiation amount * 5%* mirror field effective generated energy of occupied area rate (0.25) * photo-thermal (0.15)

Afterburning system generated energy=mirror field generated energy * 0.1

Installed capacity=usable area * fixed coefficient (30,000 kw/k ㎡) * 0.05

Total power generation=mirror field generated energy+afterburning system generated energy

Hourage=total power generation/installed capacity

Wherein, optical heat radiation amount is transferred from global energy geographical data bank.

If instruction is wind energy computations, instruction specified data is transferred in global energy geographical data bank；It will adjust The data input Evaluation of Wind Energy Resources model taken returns to calculated result, and after evaluated model analysis calculates to render figure side Formula is superimposed different blower height, different year wind power concentration figure layer.

Wind energy exploitable deposit calculates as follows:

Reserves=wind energy * area * 0.4/100

Generated energy=reserves * hourage

Wherein, wind energy is transferred from global energy geographical data bank.

, can be in global energy geography multimedia interactive display systems according to above-mentioned realization step, the analytical calculation whole world Renewable energy distributed resource situation and can development situation.

Engineering networking unit function is accomplished by

S21 receives the instruction of client layer；

S22 shows different year U.S. networking item number if instructing is engineering networking instruction with the automatic broadcast mode of time shaft According to the data are unified research platform by Guo Wang energy research institute global energy and provided, and show power network development rule.It edits in advance Script, script and function connects in engineering show different year power grid in the form of presentation plays automatic broadcasting and build If situation, research power network development rule.

Smart city Elementary Function is accomplished by

S31 receives the instruction of client layer；

S32, if instruction is that power grid addressing instructs, the functional module shown as needed, i.e. keyword are in global energy geography Instruction specified data is transferred in database, carries out power transmission line drafting, and carry out in three-dimensional geographic scenes to power transmission line route Computer Aided Design, Computer Aided Design pass through script and play automatically, with the displaying of animation form simulation.

S33, if instruction be smart city instruct, according to smart city three-dimensional modeling data show script show the energy with Urban economy, society, environmental change the comparison sample data of certain city (these data be), show global energy internet and Clean energy resource is utilized to be changed to city bring.These displayings are played automatically by script, with the displaying of animation form simulation.

Above-mentioned script formulation: can be created according to prediction scheme script, automatically be previewed in 3D scene, can be with Predefined flight path is created to play in 3D scene.

Client layer is client, can be the end PC, plate end, mobile phone terminal or display screen.

The above is only a preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, without departing from the technical principles of the invention, several improvement and deformations can also be made, these improvement and deformations Also it should be regarded as protection scope of the present invention.

Claims (9)

1. a kind of global energy geography multimedia interactive display systems, which is characterized in that including sequentially connected infrastructure layer, Data Layer, platform layer, application layer and client layer；

The infrastructure layer includes multiple graphics workstations and application service station；Background application is disposed in the application service station Server is responsible for hind computation, data analysis and plateform system publication；Client application is disposed in the graphics workstation For showing global range three-dimensional map data, business thematic data and analysis results data；

The data Layer is global energy geographical data bank, and storage content includes global high-precision three-dimensional map datum and image number According to, global Renewable Energy Resources data, electric power data and smart city multi-energy data；

The platform layer is based on Microsoft.Net+NARI-RealWorld, carries out data management, operation management, application Service and secondary development；

The application layer includes basic function unit, analytic function unit, figure layer functional unit, stock assessment unit, data inspection Cable elements, engineering networking unit and smart city unit；

The basic function unit for carrying out edit operation in three dimensions；

The analytic function unit is measured for three-dimension GIS spatial analysis；

The figure layer functional unit is for Administrative boundaries data, energy resources figure layer data, electric power data and networking project data Superposition show；

The stock assessment unit is calculated for DNI exploitable deposit, GHI exploitable deposit calculates and wind energy resources calculate；

The engineering networking unit is for showing different year U.S. networking project data；

The smart city unit shows that global energy is mutual for showing the energy compared with urban economy, society, environmental change Networking and clean energy resource are utilized to be changed to city bring；

The client layer is client.

2. a kind of global energy geography multimedia interactive display systems according to claim 1, which is characterized in that described complete Ball high-precision three-dimensional map datum includes three-dimensional map basic data, state boundary vector data, Chinese provincial boundaries vector data and beauty Guo Zhou circle vector data；The whole world Renewable Energy Resources data include solar energy thematic data and wind energy thematic data；Institute Stating electric power data includes power plant's thematic data, 4E index thematic data and networking project thematic data；The smart city energy Data include smart city thematic data.

3. a kind of global energy geography multimedia interactive display systems according to claim 1, which is characterized in that the use Family layer is the end PC, plate end, mobile phone terminal or display screen.

4. a kind of global energy geography multimedia interactive display systems according to claim 1, which is characterized in that the number The access of data full dose and manual maintenance mode are supported according to layer.

5. a kind of global energy geography multimedia interactive display systems according to claim 1, which is characterized in that the money Source assessment unit realizes that DNI exploitable deposit calculates, GHI exploitable deposit calculates and wind energy resources calculate；It is implemented as follows:

11) global renewable energy assessment models, including solar energy resources assessment models and wind energy, are established in the application server Fish stock assessment models；Wherein, solar energy resources assessment models include photovoltaic resources assessment models and sunlight-heat reaources assessment models again； The photovoltaic resources assessment models are established based on DNI data, and the sunlight-heat reaources assessment models are established based on GHI data；

12) instruction of client layer, is received；

13), if instruction is DNI exploitable deposit computations, the specified number of instruction is transferred in global energy geographical data bank According to；The data transferred are inputted photovoltaic fish stock assessment models after evaluated model analysis calculates to return to calculated result, and press It is shown according to default, and is finally attached to development of resources auxiliary addressing result in landform in the form of color spot, intuitive show can Developing zone；

If instruction is GHI exploitable deposit computations, instruction specified data is transferred in global energy geographical data bank；It will The data input sunlight-heat reaources assessment models transferred return to calculated result after evaluated model analysis calculates, and according to default It is shown, and is finally attached to development of resources auxiliary addressing result in landform in the form of color spot, intuitive show can development zone Domain；

If instruction is wind energy computations, instruction specified data is transferred in global energy geographical data bank；By what is transferred Data input Evaluation of Wind Energy Resources model and return to calculated result after evaluated model analysis calculates, and are folded in a manner of figure by rendering Add different blower height, different year wind power concentration figure layer.

6. a kind of global energy geography multimedia interactive display systems according to claim 5, which is characterized in that described DNI exploitable deposit calculates as follows:

Usable area rate=usable area/gross area；

Photovoltaic generation installed capacity=usable area * fixed coefficient * 0.05；

Photovoltaic power generation quantity=Photovoltaic generation installed capacity * power generation hourage；

Photovoltaic power generation hourage=photovoltaic generating system efficiency * photovoltaic amount of radiation/usable area；

Wherein, photovoltaic amount of radiation is transferred from global energy geographical data bank；

The GHI exploitable deposit calculates as follows:

The mirror field generated energy=effective generated energy of optical heat radiation amount * 5%* mirror field occupied area rate * photo-thermal；

Afterburning system generated energy=mirror field generated energy * 0.1；

Installed capacity=usable area * fixed coefficient * 0.05；

Total power generation=mirror field generated energy+afterburning system generated energy；

Hourage=total power generation/installed capacity；

Wherein, optical heat radiation amount is transferred from global energy geographical data bank；

The wind energy exploitable deposit calculates as follows:

Reserves=wind energy * area * 0.4/100；

Generated energy=reserves * hourage；

Wherein, wind energy is transferred from global energy geographical data bank.

7. a kind of global energy geography multimedia interactive display systems according to claim 1, which is characterized in that the work Journey networking unit function is accomplished by

21) instruction of client layer, is received；

22) it is, engineering networking instruction if instructing, networking item number in the different year U.S. is shown with the automatic broadcast mode of time shaft According to displaying power network development rule.

8. a kind of global energy geography multimedia interactive display systems according to claim 1, which is characterized in that the intelligence Intelligent urban units function is accomplished by

31) instruction of client layer, is received；

32), if instruction is that power grid addressing instructs, the specified number of instruction is transferred in global energy geographical data bank according to instruction According to, progress power transmission line drafting, and power transmission line route is shown in three-dimensional geographic scenes；

33), if instruction is that smart city instructs, script is showed according to smart city three-dimensional modeling data and shows the energy and city Economic, social, environmental change comparison shows that global energy internet and clean energy resource are utilized and changes to city bring.

9. a kind of global energy geography multimedia interactive display systems according to claim 8, which is characterized in that the exhibition Show and played automatically by script, with the displaying of animation form simulation.