CN113159526A - Wind and light resource integrated management system - Google Patents

Abstract

The invention relates to a wind and light resource integrated management system, which comprises: the tool kit module is used for evaluating the interested area, including framing the concerned area, carrying out terrain evaluation, comparing and downloading the wind and light resources and inquiring the parameters of the wind and light resources; the model management module is used for fan and power curve management and is used for supporting fan arrangement and generating capacity analysis; the basic data module is used for storing a wind map and a photovoltaic power generation amount map; the project management module is used for project management, including project association and project new construction; the wind measurement data analysis module is used for wind measurement tower management in the early stage of a wind power project, and comprises new construction, data import, data analysis and data display; the wind resource analysis module is used for managing resource data with different scales and different classifications, and comprises data uploading, display, query and application; and the power generation analysis module is used for carrying out power generation analysis on the basis of the model data and the wind and light resource data. The invention has the advantages of complete process, wide coverage and multiple dimensions.

Description

Wind and light resource integrated management system

Technical Field

The invention belongs to the technical field of wind and light resource online management, and particularly relates to a wind and light resource integrated management system.

Background

Wind resources: also called wind resources, is used in the wind power generation industry to describe the energy contained in the wind in a region. Photovoltaic resources: the method is used for describing the energy contained in the photovoltaic of an area in the solar photovoltaic power generation industry; wind and light resources are the general term for wind resources and photovoltaic resources.

Wind and solar resources are typically scattered throughout, some in the computers of engineers, some in documents filed by departments, some on projects, some in headquarters, some in design documents, and so on. In this case, the use of resources is very inconvenient, for example, user a wants to query the wind resource situation of a certain area, including the wind resource map, restrictive factors, geographic information, etc., according to which user a can determine whether the area has development value. However, the data volume of the area is very large in the hands of the user B, the user A and the user B work in different areas and different organization subjects, and at this time, the user A cannot acquire the resources of the area in time, and the work is influenced.

The existing online document management system includes: impression notes, Tencent documents, nailed documents, and so forth. The basic functions of these online documents are browsing and editing the document by a browser (or a client), and at the same time, right control is added, so that viewing and editing rights of the document can be set individually for different users. The following technical defects are provided in the aspect of wind and light resource management:

online map display is not supported. For the wind and light resources needing to be displayed on a map, each point, line and plane have coordinate positions, and online documents cannot be supported;

and browsing and parameter query of files with special formats are not supported. Files, maps and images used by wind and light resources cannot be browsed and parameters cannot be inquired on line;

and the simultaneous display of multiple layers is not supported. The online document can only display the document, and cannot perform superposition display and comparison on a plurality of layer files;

coordinate conversion is not supported. For resource files of different coordinate systems, coordinate conversion display cannot be carried out;

resource evaluation cannot be performed. The evaluation of terrain, wind and light resources and the like cannot be carried out.

Disclosure of Invention

The invention aims to provide a wind and light resource integrated management system which supports online map display. The resource files can be displayed on the map, and the resource files, whether point files, line files or surface files, can be correspondingly displayed on the online map; and online browsing, resource file query and opening in a browser are supported. By adopting a wind and light resource integrated management mode, the resource file can be browsed on line, the resource file range can be checked, and parameters attached to the resource file can be inquired; and the superposition display of multiple resource files with different dimensions is supported. Specific image layers can be displayed in an overlapping mode aiming at specific projects, and the requirements of users for comparison and judgment are met; uploading of resource files and coordinate conversion are supported. Supporting coordinate conversion aiming at different resource files; the method can be used for performing operations such as terrain evaluation, power generation measurement and calculation and the like, and meets the requirement of resource evaluation.

The invention provides a wind and light resource integrated management system, which comprises:

the tool kit module is used for evaluating the interested area, including framing the concerned area, carrying out terrain evaluation, comparing and downloading the wind and light resources and inquiring the parameters of the wind and light resources;

the model management module is used for fan and power curve management and is used for supporting fan arrangement and generating capacity analysis;

the basic data module is used for storing a wind map and a photovoltaic power generation amount map;

the project management module is used for project management, including project association and project new construction;

the wind measurement data analysis module is used for wind measurement tower management in the early stage of a wind power project, and comprises new construction, data import, data analysis and data display;

the wind resource analysis module is used for managing resource data with different scales and different classifications, and comprises data uploading, display, query and application;

and the power generation analysis module is used for carrying out power generation analysis on the basis of the model data and the wind and light resource data.

Further, the kit comprises:

the area highlighting module is used for highlighting an area corresponding to the input place name on the map;

the chart display module is used for displaying the distribution conditions of the items, the wind speed and the anemometer towers and displaying or hiding the conditions of the corresponding areas;

the terrain evaluation module is used for single-point terrain evaluation and regional terrain evaluation; the single point terrain assessment comprises: evaluating a topographical characteristic, and displaying a result of the associated topographical evaluation at the selected location on a map, the topographical characteristic comprising: longitude and latitude, sector, average elevation, maximum elevation, RIX index, terrain inclination, maximum elevation point longitude, maximum elevation point latitude and elevation difference distance ratio; the regional terrain assessment comprises: evaluating the terrain characteristics of the area, and displaying the terrain complexity of the selected area in the form of a map;

the development evaluation module is used for single-point result downloading and annual change analysis; the single point outcome download includes downloading historical profile data, including: 2m wind speed, 2m wind direction, 10m wind speed, 10m wind direction, 50m wind speed, 50m wind direction, 2m air temperature, 2m dew point temperature, 10m air temperature, 10m specific humidity and air pressure data; the analysis of the annual variation comprises: according to the longitude and latitude coordinates, carrying out annual change analysis on the time sequence data extracted from the coordinate point;

the parameter query module is used for querying wind parameters and photovoltaic power generation amount; the wind parameter inquiry comprises the inquiry of wind parameter information in a Chinese range, comprising the following steps: latitude and longitude, wind speed, wind-rose diagram, Weibull distribution diagram; the photovoltaic power generation amount query comprises the query of photovoltaic power generation amount information in a Chinese range, namely the daily potential photovoltaic power generation amount.

Further, the model management module includes:

the personal library is used for the user to check, newly add and delete the model data; the model data comprises a power curve and a thrust coefficient chart corresponding to the corresponding model;

the public library is used for all users logging in the system, including the operations of checking and adding the model data by an administrator in the public library, and the operations of checking the model data by common users; the newly added operation comprises newly added fan manufacturers, checking fan parameters and newly added fans; the model data comprises a power curve and a thrust coefficient chart corresponding to the corresponding model.

Further, the basic data module is also used for storing wind parameters, a wind energy rose diagram and Weibull distribution diagram data.

Further, the project management module is specifically configured to:

and viewing the detailed information of all the associated and self-built projects, and searching the projects, newly-built projects and associated projects.

Further, the anemometry data analysis module is specifically configured to:

carrying out anemometry data analysis based on the acquired anemometry tower synchronous information to obtain an analysis result and displaying the analysis result; the analysis result comprises longitude and latitude coordinates of the wind measuring tower, wind measuring time, channel height, wind speed, wind direction, turbulence, shear and a 50-year-round maximum wind speed, wind direction, wind energy, turbulence, shear and Weibull distribution diagram.

Further, the wind resource analysis module is specifically used for uploading micro-scale data and displaying and querying the micro-scale data;

the uploading of the micro-scale data comprises: selecting a coordinate system to upload related data, wherein the uploaded data comprises a field area range, fan arrangement data, limiting factors, terrain data and WRG comprehensive wind map spectrum data;

the micro-scale data presentation query comprises: and selecting the layer to be inquired, and displaying the related data on the map.

Further, the power generation amount analysis module is specifically used for power generation amount query, calculation and adjustment, and comprises:

acquiring the number of fans, machine location information, machine type information, internet power and equivalent hour information;

calculating the power generation amount according to the machine position power curve and WRG comprehensive wind map spectrum data;

and the power curve is replaced to adjust the generated energy by adjusting the machine site machine type and related parameters.

By means of the scheme, the wind and light resource integrated management system has the following technical effects:

1) process of whole process

The resource assessment platform can be applied in various stages of planning, early stage, construction, production, operation and maintenance. In the planning and early stage, the development value is judged according to the resources; in the construction and production stages, the project is specifically analyzed according to the resources, and the condition of the wind power plant is accurately mastered; in the production, operation and maintenance stages, the indexes of the regional benchmarking tasks are formulated and basis is provided through power generation amount calculation.

2) Broad coverage

The system not only has wind resources, but also comprises photovoltaic resources; not only is the display and query of the map and the wind parameter information, but also wind measurement data, mesoscale data and microscale data; not only is the base data provided, but also a portal is provided for the custom data. The method covers the aspects of resources.

3) Dimensional multiple

The group dimension, the production management center dimension and the project dimension can be used by utilizing the wind and light resource integrated management system.

Drawings

FIG. 1 is a block diagram of a wind and light resource integrated management system according to the present invention.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1, the present embodiment provides a wind and light resource integrated management system, including:

the tool kit module 10 is used for evaluating the interested area, including framing the concerned area, performing terrain evaluation, comparing and downloading the wind and light resources, and inquiring the parameters of the wind and light resources;

the model management module 20 is used for fan and power curve management, and is used for supporting fan arrangement and generating capacity analysis;

the basic data module 30 is used for storing a wind map and a photovoltaic power generation map;

the project management module 40 is used for project management, including project association and project new creation;

the wind measurement data analysis module 50 is used for wind measurement tower management in the early stage of the wind power project, and comprises new construction, data import, data analysis and data display;

the wind resource analysis module 60 is configured to manage resource data of different scales and different classifications, including uploading, displaying, querying, and applying the data;

and the power generation amount analysis module 70 is used for performing power generation amount analysis on the basis of the model data and the wind and light resource data.

In this real-time example, the kit includes:

the area highlighting module is used for highlighting an area corresponding to the input place name on the map;

the chart display module is used for displaying the distribution conditions of the items, the wind speed and the anemometer towers and displaying or hiding the conditions of the corresponding areas;

the terrain evaluation module is used for single-point terrain evaluation and regional terrain evaluation; the single point terrain assessment comprises: evaluating a topographical characteristic, and displaying a result of the associated topographical evaluation at the selected location on a map, the topographical characteristic comprising: longitude and latitude, sector, average elevation, maximum elevation, RIX index, terrain inclination, maximum elevation point longitude, maximum elevation point latitude and elevation difference distance ratio; the regional terrain assessment comprises: evaluating the terrain characteristics of the area, and displaying the terrain complexity of the selected area in the form of a map;

the development evaluation module is used for single-point result downloading and annual change analysis; the single point outcome download includes downloading historical profile data, including: 2m wind speed, 2m wind direction, 10m wind speed, 10m wind direction, 50m wind speed, 50m wind direction, 2m air temperature, 2m dew point temperature, 10m air temperature, 10m specific humidity and air pressure data; the analysis of the annual variation comprises: according to the longitude and latitude coordinates, carrying out annual change analysis on the time sequence data extracted from the coordinate point;

the parameter query module is used for querying wind parameters and photovoltaic power generation amount; the wind parameter inquiry comprises the inquiry of wind parameter information in a Chinese range, comprising the following steps: latitude and longitude, wind speed, wind-rose diagram, Weibull distribution diagram; the photovoltaic power generation amount query comprises the query of photovoltaic power generation amount information in a Chinese range, namely the daily potential photovoltaic power generation amount.

In this real-time example, the model management module includes:

the personal library is used for the user to check, newly add and delete the model data; the model data comprises a power curve and a thrust coefficient chart corresponding to the corresponding model;

the public library is used for all users logging in the system, including the operations of checking and adding the model data by an administrator in the public library, and the operations of checking the model data by common users; the newly added operation comprises newly added fan manufacturers, checking fan parameters and newly added fans; the model data comprises a power curve and a thrust coefficient chart corresponding to the corresponding model.

In this real-time example, the basic data module is further configured to store wind parameters, a wind energy rose diagram, and weibull distribution diagram data.

In this real-time example, the project management module is specifically configured to:

and viewing the detailed information of all the associated and self-built projects, and searching the projects, newly-built projects and associated projects.

In this real-time example, the anemometry data analysis module is specifically configured to:

carrying out anemometry data analysis based on the acquired anemometry tower synchronous information to obtain an analysis result and displaying the analysis result; the analysis result comprises longitude and latitude coordinates of the wind measuring tower, wind measuring time, channel height, wind speed, wind direction, turbulence, shear and a 50-year-round maximum wind speed, wind direction, wind energy, turbulence, shear and Weibull distribution diagram.

In the real-time example, the wind resource analysis module is specifically used for uploading micro-scale data and displaying and querying the micro-scale data;

the uploading of the micro-scale data comprises: selecting a coordinate system to upload related data, wherein the uploaded data comprises a field area range, fan arrangement data, limiting factors, terrain data and WRG comprehensive wind map spectrum data;

the micro-scale data presentation query comprises: and selecting the layer to be inquired, and displaying the related data on the map.

In this real-time example, the power generation amount analysis module is specifically configured to query, calculate, and adjust power generation amount, and includes:

acquiring the number of fans, machine location information, machine type information, internet power and equivalent hour information;

calculating the power generation amount according to the machine position power curve and WRG comprehensive wind map spectrum data;

and the power curve is replaced to adjust the generated energy by adjusting the machine site machine type and related parameters.

The wind and light resource integrated management system supports online map display. The resource files can be displayed on the map, and the resource files, whether point files, line files or surface files, can be correspondingly displayed on the online map; and online browsing, resource file query and opening in a browser are supported. By adopting a wind and light resource integrated management mode, the resource file can be browsed on line, the resource file range can be checked, and parameters attached to the resource file can be inquired; and the superposition display of multiple resource files with different dimensions is supported. Specific image layers can be displayed in an overlapping mode aiming at specific projects, and the requirements of users for comparison and judgment are met; uploading of resource files and coordinate conversion are supported. Supporting coordinate conversion aiming at different resource files; the method can be used for performing operations such as terrain evaluation, power generation measurement and calculation and the like, and meets the requirement of resource evaluation. Has the following characteristics:

1) process of whole process

The resource assessment platform can be applied in various stages of planning, early stage, construction, production, operation and maintenance. In the planning and early stage, the development value is judged according to the resources; in the construction and production stages, the project is specifically analyzed according to the resources, and the condition of the wind power plant is accurately mastered; in the production, operation and maintenance stages, the indexes of the regional benchmarking tasks are formulated and basis is provided through power generation amount calculation.

2) Broad coverage

The system not only has wind resources, but also comprises photovoltaic resources; not only is the display and query of the map and the wind parameter information, but also wind measurement data, mesoscale data and microscale data; not only is the base data provided, but also a portal is provided for the custom data. The method covers the aspects of resources.

3) Dimensional multiple

The group dimension, the production management center dimension and the project dimension can be used by utilizing the wind and light resource integrated management system.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. A wind and solar resource integrated management system is characterized by comprising:

the tool kit module is used for evaluating the interested area, including framing the concerned area, carrying out terrain evaluation, comparing and downloading the wind and light resources and inquiring the parameters of the wind and light resources;

the model management module is used for fan and power curve management and is used for supporting fan arrangement and generating capacity analysis;

the basic data module is used for storing a wind map and a photovoltaic power generation amount map;

the project management module is used for project management, including project association and project new construction;

the wind measurement data analysis module is used for wind measurement tower management in the early stage of a wind power project, and comprises new construction, data import, data analysis and data display;

the wind resource analysis module is used for managing resource data with different scales and different classifications, and comprises data uploading, display, query and application;

and the power generation analysis module is used for carrying out power generation analysis on the basis of the model data and the wind and light resource data.

2. The wind and solar integrated resource management system of claim 1, wherein the toolkit comprises:

the area highlighting module is used for highlighting an area corresponding to the input place name on the map;

the chart display module is used for displaying the distribution conditions of the items, the wind speed and the anemometer towers and displaying or hiding the conditions of the corresponding areas;

the terrain evaluation module is used for single-point terrain evaluation and regional terrain evaluation; the single point terrain assessment comprises: evaluating a topographical characteristic, and displaying a result of the associated topographical evaluation at the selected location on a map, the topographical characteristic comprising: longitude and latitude, sector, average elevation, maximum elevation, RIX index, terrain inclination, maximum elevation point longitude, maximum elevation point latitude and elevation difference distance ratio; the regional terrain assessment comprises: evaluating the terrain characteristics of the area, and displaying the terrain complexity of the selected area in the form of a map;

the development evaluation module is used for single-point result downloading and annual change analysis; the single point outcome download includes downloading historical profile data, including: 2m wind speed, 2m wind direction, 10m wind speed, 10m wind direction, 50m wind speed, 50m wind direction, 2m air temperature, 2m dew point temperature, 10m air temperature, 10m specific humidity and air pressure data; the analysis of the annual variation comprises: according to the longitude and latitude coordinates, carrying out annual change analysis on the time sequence data extracted from the coordinate point;

the parameter query module is used for querying wind parameters and photovoltaic power generation amount; the wind parameter inquiry comprises the inquiry of wind parameter information in a Chinese range, comprising the following steps: latitude and longitude, wind speed, wind-rose diagram, Weibull distribution diagram; the photovoltaic power generation amount query comprises the query of photovoltaic power generation amount information in a Chinese range, namely the daily potential photovoltaic power generation amount.

3. The wind and solar resource integrated management system of claim 1, wherein the model management module comprises:

the personal library is used for the user to check, newly add and delete the model data; the model data comprises a power curve and a thrust coefficient chart corresponding to the corresponding model;

the public library is used for all users logging in the system, including the operations of checking and adding the model data by an administrator in the public library, and the operations of checking the model data by common users; the newly added operation comprises newly added fan manufacturers, checking fan parameters and newly added fans; the model data comprises a power curve and a thrust coefficient chart corresponding to the corresponding model.

4. The wind and light resource integration management system of claim 1, wherein the basic data module is further configured to store wind parameters, a wind rose diagram and a Weibull distribution diagram data.

5. The wind and solar resource integrated management system of claim 1, wherein the project management module is specifically configured to:

and viewing the detailed information of all the associated and self-built projects, and searching the projects, newly-built projects and associated projects.

6. The wind and solar resource integrated management system of claim 1, wherein the wind measurement data analysis module is specifically configured to:

carrying out anemometry data analysis based on the acquired anemometry tower synchronous information to obtain an analysis result and displaying the analysis result; the analysis result comprises longitude and latitude coordinates of the wind measuring tower, wind measuring time, channel height, wind speed, wind direction, turbulence, shear and a 50-year-round maximum wind speed, wind direction, wind energy, turbulence, shear and Weibull distribution diagram.

7. The wind and light resource integrated management system according to claim 1, wherein the wind resource analysis module is specifically configured to upload microscale data and display and query the microscale data;

the uploading of the micro-scale data comprises: selecting a coordinate system to upload related data, wherein the uploaded data comprises a field area range, fan arrangement data, limiting factors, terrain data and WRG comprehensive wind map spectrum data;

the micro-scale data presentation query comprises: and selecting the layer to be inquired, and displaying the related data on the map.

8. The wind and solar resource integrated management system according to claim 1, wherein the power generation analysis module is specifically configured to query, calculate and adjust power generation, and comprises:

acquiring the number of fans, machine location information, machine type information, internet power and equivalent hour information;

calculating the power generation amount according to the machine position power curve and WRG comprehensive wind map spectrum data;

and the power curve is replaced to adjust the generated energy by adjusting the machine site machine type and related parameters.

Images