KR101733671B1 - System and Method for Solar Power Online Design and Licensing Document - Google Patents

Abstract

The present invention relates to a system and method for designing solar power generation online and writing licensing documents, wherein the system according to the present invention includes a selecting unit for selecting an expected installation place, a design condition, and installation materials of a solar power generation apparatus, a producing unit for producing solar power generation design information by arranging the materials in the expected installation place according to the design condition which is selected, and an output unit for outputting the produced solar power generation design information. According to the present invention, the solar power generation apparatus which a user wants can be simply designed online and a service for automatically writing licensing, official documents, etc. can be provided.

Description

{System and Method for Solar Power Online Design and Licensing Document}

The present invention relates to an online design and licensing document creation system and method for photovoltaic power generation, and more particularly to a photovoltaic power generation online design and licensing document creation system and method capable of predicting and predicting a desired photovoltaic power generation device will be.

In general, fossil energy, which is widely used, is depleted because of its limited amount, and fossil energy emits various pollutants. In recent years, environmental problems such as the climate change convention and the abnormal temperature phenomenon have become serious in the world, and in many countries, the development and use of technologies related to the utilization of alternative energy are various.

In particular, among alternative energy sources, solar energy not only does not destroy the environment, but also has many advantages such as no consumption of resources because it uses solar light. Photovoltaic power generation is the most preferred energy source because it has the smallest space limitation if the sun is shining, and it can be manufactured in various forms from the small facilities to the large facilities.

However, in order to install such a photovoltaic power generation facility, it is necessary to know in advance the basic design for the permission or permission of the photovoltaic power generation capacity that can be installed in the place to be installed, and the expected amount of power generation. There was little problem.

In other words, before the installation of solar power generation facilities, ordinary users will apply for the design and license of the solar power generation facilities where the solar power generation facilities will be installed, estimate the power generation amount, and examine the economical and feasibility of the solar power generation facilities There was a lack of means to do this.

Korean Unexamined Patent Publication No. 2009-0075023 (Publication date 2009. 07. 08.)

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a photovoltaic power generation system that can easily design a desired photovoltaic generation device on-line and can provide a service for automatically documenting license documents, license documents, A document creation system and method are provided.

Further, the present invention includes other objects that can be achieved from the construction of the present invention described later, in addition to the objects explicitly mentioned.

According to an aspect of the present invention, there is provided an online design and licensing document generation system for a photovoltaic power generation system, the system including a selection unit for selecting a site to be installed, a design condition, A calculating unit for calculating the photovoltaic power generation design information by disposing the equipment at the predetermined installation site according to the received design conditions, and an output unit for outputting the calculated photovoltaic power generation design information.

In addition, it may further include a storage unit for storing weather information including equipment and material information including the solar module and the inverter, latitude for each region, astronomical space information including the altitude and azimuth of the sun, and solar radiation, temperature, wind speed and precipitation.

The selection unit can select the installation scheduled place using the previously stored topographic map.

The selection unit may select the equipment using the equipment information stored in the storage unit.

The design conditions may include at least one of the installation method of the photovoltaic apparatus, the structure system, the module arrangement direction, the module inclination angle, the module azimuth angle, the array configuration, the array group configuration, the site inclination, have.

The photovoltaic power generation design information may include photovoltaic power generation design drawing information indicating a state in which the equipment is disposed at the predetermined installation site and photovoltaic power generation design specification information about the details of the photovoltaic power generation apparatus designed.

The calculating unit may calculate the photovoltaic power generation design drawing information by calculating a spacing distance between the equipment to be installed at the installation place according to the selected design condition and the astronomical space information.

The calculating unit may calculate the photovoltaic power generation design drawing information for simulating the length of shade of the installation place at a predetermined time using the astronomical universe information.

The photovoltaic power generation design drawing information may include a photovoltaic module placement plan, a structure plan, an electric drawing, and a detailed drawing of the equipment based on the photovoltaic power generation design content.

The calculating unit may calculate the solar power generation design details including the expected amount of power generation of the solar power generator using the weather information of the area corresponding to the installation scheduled place.

The selection unit may further select the provider basic information, the installation place information, the selecting device information, the design specification information, and the photovoltaic power generation installation information, and based on the preset reference form, the provider basic information, the installation place information, And a document creating unit for creating document information on license and granting work according to the design specification information and the photovoltaic power generation installation information.

The document creating unit may create document information on the license review items of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information.

The document creation unit can create document information on the design details of the solar power generation apparatus using the solar power generation installation information and the design specification information.

The document creating unit can create document information on the estimated installation amount calculation details of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information.

And a cost calculator for calculating the economical efficiency of the photovoltaic apparatus using the estimated amount of power generated by the photovoltaic power generator.

The economics calculator can calculate annual revenues, economic estimates, cash flows and environmental basis based on the estimated sales amount and the operating amount.

Meanwhile, the on-line photovoltaic generation design and licensing document creation method according to the embodiment of the present invention includes a step of selecting a place to install a solar power generation device, a design condition, a step of selecting equipment to be installed, Calculating the photovoltaic power generation design information by disposing the equipment in a predetermined place, and outputting the calculated photovoltaic power generation design information.

The installation location of the solar power generation device, the design conditions, and the selection of the equipment required for the installation may be selected using the equipment information including the solar module and the inverter stored in the storage unit.

The photovoltaic power generation design information may include photovoltaic power generation design drawing information indicating a state in which the equipment is disposed at the predetermined installation site and photovoltaic power generation design specification information about the details of the photovoltaic power generation apparatus designed.

Wherein the step of arranging the equipment at the installation site according to the selected design condition includes calculating the solar power generation design information based on the selected design conditions and the latitude and altitude of the sun stored in the storage unit, It is possible to calculate the photovoltaic power generation design drawing information by calculating the distance between the equipments arranged at the installation place according to astronomical space information.

The step of arranging the equipment to the installation place according to the selected design condition and calculating the solar power generation design information may use the astronomical space information including the latitude and altitude of the sun and the azimuth of the sun stored in the storage unit It is possible to calculate the photovoltaic power generation design drawing information that simulates the length of the shade of the place to be installed at the time.

The photovoltaic power generation design drawing information may include a photovoltaic module placement plan, a structure plan, an electric drawing, and a detailed drawing of the equipment based on the photovoltaic power generation design content.

Wherein the step of calculating the photovoltaic power generation design information by disposing the equipment at the predetermined installation site according to the selected design condition includes calculating an expected power generation amount of the photovoltaic power generation apparatus using the meteorological information corresponding to the predetermined installation site It is possible to calculate the solar power generation design detail information including the above.

A step of receiving further information on the supplier basic information, the installation location information, the selected equipment information, the design specification information and the photovoltaic power generation installation information, and the step of selecting the provider basic information, the installation place information, And generating document information on licensing and contracting services according to the design specification information and the photovoltaic power generation installation information.

And generating document information on a license approval review item of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information.

And generating document information on design details of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information.

And generating document information on the estimated installation amount of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information.

And calculating the economical efficiency of the photovoltaic device using the estimated amount of electricity generated by the photovoltaic device.

The step of calculating the economical efficiency of the photovoltaic device using the expected amount of electricity generated by the photovoltaic device may calculate the annual profit, the economic evaluation, the cash flow, and the environmental basis based on the estimated sales amount and the operation amount.

As described above, according to the online design and licensing document creation system and method of the photovoltaic generation according to the embodiment of the present invention, it is advantageous that the photovoltaic generation apparatus desired by the user can be designed on-line easily using the photovoltaic power generation design system .

And, without the process of installing a separate program, it is possible to design a site to be installed in the land or buildings existing on the online map, select the desired equipment, and easily design the solar power generation device and provide the service . That is, if the user learns easily, regardless of the place such as the land or the building, the user can design customized one.

In addition, it is possible to provide a service for automatically documenting licenses and documents related to photovoltaic power generation construction and construction, after inputting operator information and photovoltaic installation information.

In addition, it can provide a service for simulating and digitizing the approval and review, economic analysis, design statement, and construction statement.

On the other hand, the effects of the present invention are not limited to those described above, and other effects that can be derived from the constitution of the present invention described below are also included in the effects of the present invention.

FIG. 1 is a block diagram of a solar power generation online design and licensing document creation system according to an embodiment of the present invention.
2 is a view showing a screen for selecting a place to install and an installation condition according to an embodiment of the present invention.
3 is an exemplary view showing photovoltaic power generation design drawing information according to an embodiment of the present invention.
4A and 4B are diagrams illustrating an economical efficiency analysis result of the photovoltaic device according to an embodiment of the present invention.
5 to 8 are views showing a screen for outputting an authorization document according to an embodiment of the present invention.
FIG. 9 is a flowchart illustrating an on-line solar power generation designing process according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention.

FIG. 1 is a block diagram of a solar power generation online design and licensing document creation system according to an embodiment of the present invention, and FIG. 2 is a view showing a screen for selecting a place to install and an installation condition according to an embodiment of the present invention .

1 and 2, the solar power generation online design and licensing document creation system 100 includes a selection unit 110, a storage unit 120, a calculation unit 130, an output unit 140, A review unit 150, a construction history calculation unit 160, an economics calculation unit 170, and a document preparation unit 180.

The selection unit 110 can select a place where the photovoltaic power generation apparatus is to be installed, design conditions, and equipment required for installation.

The selection unit 110 may directly receive an address of a place to be installed from a user or select a location of a place to be installed on a previously stored topographic map. That is, the terrain map is displayed in the form of a general map, a cadastral map, or a satellite map on the screen of the user terminal, and the selection unit 110 designates (clicks) or drags a point on the terrain map The place to be installed can be selected in more detail. At this time, the geographical information system (GIS), which is calculated based on the location, can be used for the map position.

In this way, since the selection unit 110 can select a place to be installed based on the geographic information system (GIS), the photovoltaic generation according to the optimum or latest geographical information can be designed by immediately applying the geographical information .

The selection unit 110 may select the design conditions such as the installation method of the photovoltaic power generation device, the structure type, the module placement direction, the module inclination angle, the module azimuth angle, the array or array group configuration or the site slope, You can choose. The installation place of the photovoltaic power generation device can be selected from land, building or land + building, and the installation method can be selected from 1 stage basic type, 2 stage basic type or multistage assembly type, and the structure type selects the type of installation structure And can be selected from a fixed type, an inclined variable type, a short type tracker type, or a biaxial type tracker type. The weight of the structure is also selectable. The fixed type method is a method to comprehensively analyze the altitude angle and azimuth angle of the sun and fix it to the most suitable angle and azimuth. The inclined variable type method can actively improve the power generation efficiency by controlling the inclination angle of the structure through the tracking of the sun position with time In this way, you can adjust the angle according to the position of the sun to get the maximum output and improve the efficiency. The short tracker system is a system that tracks the movement path of the sun from east to west. It is more powerful than the fixed type according to the location. The biaxial tracker system continuously changes the azimuth angle and embossing regardless of the season and time, This is the maximum incident angle. The module placement direction may include a horizontal arrangement and a vertical arrangement in the direction in which the solar modules are arranged.

The selecting unit 110 may receive the installation conditions directly from the user, but may be configured to receive the module inclination angle or the module azimuth angle using a method of moving or rotating the simulated solar module vertically, horizontally, or vertically .

The selection unit 110 can select equipment necessary for installation such as a photovoltaic module, an inverter, a structure, a connection panel, a switchboard, an electric work, a monitoring device, an electric room, or a fence. The photovoltaic module can be selected from among a kind, model name, manufacturer or specification such as single crystal, polycrystalline, thin film type, compound semiconductor or fuel sensitive type, and inverter can be selected from model name, manufacturer or specification such as transformer type or multistring type have.

The storage unit 120 stores astronomical objects including astronomical objects including information on equipment, such as a solar module, an inverter, a structure, a connection panel, a switchboard, an electrical work, a monitoring device, Information and weather information including the amount of solar radiation, temperature, wind speed or precipitation, and the like can be stored.

Accordingly, the selection unit 110 can select the equipment using the equipment information stored in the storage unit 120.

The calculating unit 130 can calculate the photovoltaic power generation design information by disposing the equipment materials at a desired place according to the selected design conditions.

3, the calculation unit 130 may be arranged at a place to be installed according to the selected design condition and astronomical space information, as shown in FIG. 3. FIG. 3 is an exemplary view showing solar power generation design information according to an embodiment of the present invention. The distance between the equipments can be calculated and the photovoltaic power generation plan drawing information can be calculated. The photovoltaic power generation design drawing information may include a layout diagram (a photovoltaic module layout diagram), a side view, a structure diagram, an electric diagram, or a detailed drawing of equipment and the like, showing the state where the equipment is disposed, and may be implemented in 2D or 3D form.

For example, the calculating unit 130 may calculate the connection state of the solar module and the arrangement state of the inverter and the solar module based on the selected solar module and inverter. That is, the calculating unit 130 calculates the number of solar modules connected to the inverter using the specification of the solar module and the specifications of the inverter, the number of the solar module arrays in which the solar modules are arranged in series and in parallel, The number of solar modules arranged in series, that is, the total number of modules of the solar module array connected to the inverter is adjusted to determine the connection state of the solar modules so that the inverter is controlled within the maximum power tracking voltage range, The number and the installable capacity of the optical module and the inverter specifications and number to be used can be determined to complete the design.

At this time, the photovoltaic power generation design drawing information is a basic design drawing for estimating the installable capacity in the planned site and permission for the photovoltaic power generation business, and it may be different from the actual design for construction construction. However, Can be calculated in an approximate manner. The photovoltaic power generation plan drawing information can be carried out without notification of change within the prescribed range of licensing capacity at the time of designing after approval of the photovoltaic power generation business. There is no.

The calculating unit 130 may calculate the photovoltaic power generation design drawing information for simulating the length of the shade of the place to be installed using the astronomical space information. That is, the calculating unit 130 can calculate the photovoltaic power generation design drawing information that simulates the shade length of the installation scheduled place which changes with time using the latitude, the altitude of the sun or the azimuth of each region.

The calculation unit 130 can calculate the solar power generation design history information for the details of the solar power generation device designed. At this time, the calculating unit 130 can calculate the photovoltaic power generation design history information including the voltage, the current, the number of series-parallel, the installable capacity, or the estimated power generation amount using the weather information of the area corresponding to the installation planned place . The calculating unit 130 can automatically receive the weather information from the weather database or the weather system, and can receive the weather information stored in the storage unit 120. That is, when the location of the expected installation place is selected, the calculation unit 130 can be provided with weather information on the location of the selected installation expected place. The meteorological information includes solar radiation, solar time, temperature, wind speed, precipitation day, precipitation, snow day, snowfall, daylight, effective sunshine or fine dust concentration. have. Estimated generation capacity may include total generation capacity, 20-year lifespan reduction curve, initial generation maintenance rate, annual generation amount, and effective solar usage time.

As described above, since the altitude, the azimuth angle, and the solar radiation amount of the sun are different depending on the place where the solar power generation apparatus is to be installed, the expected power generation amount can be calculated differently depending on the installation place of the solar power generation apparatus.

The output unit 140 can output photovoltaic power generation design information including photovoltaic power generation design information and photovoltaic power generation design detail information.

At this time, the user may receive the editing request from the user who has confirmed the photovoltaic power generation design drawing information output through the output unit 140, and edit the connection state and the placement state of the module as desired by the user.

The license approval review unit 150 can review licenses based on basic information of the business operator, location information, selected equipment information, design details information, or photovoltaic power generation installation information to be described later. That is, the license review unit 150 can review the licensing and / or licensing of the electric power generation business (electric business) based on the installation site information and the design details information.

The construction history calculation unit 160 can calculate the construction history information based on the installation location information, the selection equipment information, and the design specification information. The construction information includes unit (unit, unit, unit), quantity, unit price and amount according to the type of equipment (module, inverter, structure, connection panel, switchgear, electric work, monitoring, electricity room or fence) The cost of labor and other costs related to construction (design and supervision costs, KEPCO system-related facility charges, civil engineering design and development licenses, construction safety diagnosis costs, pre-use inspection costs, high-pressure precision diagnosis costs), licensing and administration costs, general management costs and profits And the like.

The economical efficiency calculation unit 170 can calculate the economical efficiency of the solar power generation apparatus using the estimated power generation amount of the solar power generation apparatus and output the calculated economic efficiency of the solar power generation apparatus through the output unit 140.

4A and 4B are diagrams illustrating an economical efficiency analysis result of the photovoltaic device according to an embodiment of the present invention. As shown in FIGS. 4A and 4B, the economical efficiency calculation unit 170 calculates the expected sales amount and the operating amount Based economic profitability, cash flow, and environmental stockpile in advance. That is, the economic efficiency calculation unit 170 substitutes the converted data for the estimated power generation amount to calculate at least one of the power generation sales amount, power generation cost, CO ₂ reduction data, and converted tree number data according to the solar power generation, .

5 to 8 are views showing screens for outputting a license document according to an embodiment of the present invention.

The selecting unit 110 further selects the provider basic information, the installation place information, the selecting device information, the design specification information, and the photovoltaic power generation installation information. The document creating unit 180 creates the basic information of the vendor, It is possible to create document information about licensing and office work according to installation site information, selected equipment information, design details information, and photovoltaic installation information. The created document information can be output through the output unit 140. [

In order to utilize the service providing the photovoltaic power generation design system, the user can access the online site and enter the basic information of the business operator, the installation site information, the selected equipment information, the design details information and the photovoltaic installation information on the business registration screen. As shown in FIG. 5, when a user is registered as a member on the online site, the user can access the online site through the login process.

In the case of an individual business operator, the selection unit 110, as shown in FIG. 6, may include a business name, a resident registration number, a location address of a business entity, a personal address, a desired invention invention name, , Business operator's e-mail address, and so on.

As shown in FIG. 7, the selection unit 110 can receive installation location information such as an address, a landmark, an area, a module quantity, an installation area, a registration date, owner information, etc. of the installation expected location.

Next, as shown in FIG. 8, if a desired application is selected from the license documents, a document corresponding to the selected application can be created and output through the document creation unit 180.

For example, based on the photovoltaic power generation design information, it is possible to automatically create documents for licensing and granting services. It is possible to prepare application form for power generation business license, business plan, KEPCO review document or use consent form for the license business of power generation business. For the photovoltaic power generation business, application for development activity application, power supply contract (PPA) You can prepare a declaration form, pre-use inspection application, electricity use application form, facility application for new renewable supply requirement (RPS) or financial application.

The document preparation unit 180 may acquire document information on the approval and review items of the photovoltaic power generation device, document information on the details of the design of the photovoltaic power generation device, And document information about the calculation of the estimated installation amount.

Hereinafter, a solar power generation designing process according to an embodiment of the present invention will be described.

9 is a flowchart illustrating a solar power generation designing process according to an embodiment of the present invention.

As shown in FIG. 9, the equipment to be installed in the photovoltaic power generation device, design conditions, and installation materials can be selected (S900).

The selection unit 110 may directly receive an address of a place to be installed from a user or select a location of a place to be installed on a previously stored topographic map. That is, the terrain map is displayed in the form of a general map, a cadastral map, or a satellite map on the screen of the user terminal, and the selection unit 110 designates (clicks) or drags a point on the terrain map The place to be installed can be selected in more detail. At this time, the location of the selected map can be used as a geographic information system (GIS) which is calculated as a lot number.

The selection unit 110 may select the design conditions such as the installation method of the photovoltaic power generation device, the structure type, the module placement direction, the module inclination angle, the module azimuth angle, the array or array group configuration or the site slope, You can choose. At this time, the selecting unit 110 may receive the installation conditions directly from the user, but may be configured to receive the desired module inclination angle, module azimuth angle, etc. using a method of moving the simulated solar module vertically, horizontally, .

The selection unit 110 can select equipment necessary for installation such as a photovoltaic module, an inverter, a structure, a connection panel, a switchboard, an electric work, a monitoring device, an electric room, or a fence. The photovoltaic module can be selected from among a kind, model name, manufacturer or specification such as single crystal, polycrystalline, thin film type, compound semiconductor or fuel sensitive type, and inverter can be selected from model name, manufacturer or specification such as transformer type or multistring type have.

Next, according to the selected design conditions, the photovoltaic power generation design information can be calculated by arranging the equipment to be installed at a desired place.

More specifically, the calculating unit 130 calculates the distance between the equipment to be installed in the predetermined installation space according to the selected design conditions and the latitude of the area stored in the storage unit 120, astronomical space information including the altitude and azimuth angle of the sun, To calculate the photovoltaic power generation design drawing information indicating the state in which the equipment is disposed (S910). The photovoltaic power generation design drawing information may include a layout diagram (a photovoltaic module layout diagram), a side view, a structure diagram, an electric diagram, or a detailed drawing of the equipment, showing the state where the equipment is disposed.

The calculating unit 130 may calculate the photovoltaic power generation design drawing information for simulating the length of the shade of the place to be installed using the astronomical space information. That is, the calculating unit 130 can calculate the photovoltaic power generation design drawing information that simulates the shade length of the installation scheduled place which changes with time using the latitude, the altitude of the sun or the azimuth of each region.

The calculating unit 130 may calculate the solar power generation design detail information for the details of the designed solar power generating apparatus (S920). At this time, the calculating unit 130 can calculate the photovoltaic power generation design history information including the voltage, the current, the number of series-parallel, the installable capacity, or the estimated power generation amount using the weather information of the area corresponding to the installation planned place . The calculating unit 130 can automatically receive the weather information from the weather database or the weather system, and can receive the weather information stored in the storage unit 120. That is, when the location of the expected installation place is selected, the calculation unit 130 can be provided with weather information on the location of the selected installation expected place. The meteorological information includes solar radiation, solar time, temperature, wind speed, precipitation day, precipitation, snow day, snowfall, daylight, effective sunshine or fine dust concentration. have. Estimated generation capacity may include total generation capacity, 20-year lifespan reduction curve, initial generation maintenance rate, annual generation amount, and effective solar usage time.

As described above, since the altitude, the azimuth angle, and the solar radiation amount of the sun are different depending on the place where the solar power generation apparatus is to be installed, the expected power generation amount can be calculated differently depending on the installation place of the solar power generation apparatus.

Next, the photovoltaic power generation design information including the photovoltaic power generation design drawing information and the photovoltaic power generation design detail information can be outputted (S930).

At this time, the user may receive the editing request from the user who has confirmed the photovoltaic power generation design drawing information output through the output unit 140, and edit the connection state and the placement state of the module as desired by the user.

In addition, the economics calculation unit 170 can calculate the economical efficiency of the photovoltaic device using the estimated amount of power generation of the photovoltaic device. The economic efficiency calculation unit 170 calculates the annual profit based on the estimated sales amount and the operation amount, the economic evaluation, the cash flow, and the environmental unit amount in advance to predict the economic efficiency in advance. That is, the economic efficiency calculation unit 140 may calculate one or more of power generation sales, generation cost, CO ₂ reduction data, and converted tree number data according to solar power generation by substituting the conversion data with the estimated power generation amount.

Then, based on the preset reference form, the basic information of the provider, the installation place information, the selected equipment information, the design details information And photovoltaic power generation installation information.

In other words, the selection unit 110 receives business basic information such as a business name, a resident registration number, a location address of a business entity, a personal address, a desired invention invention name, a business contact address and a business e-mail address, The module number, the installation area, the registration date, the owner information, and the like, and then, when a desired application is selected from the license documents, a document corresponding to the selected application is created and output through the document creation unit 180 have.

For example, based on the photovoltaic power generation design information, it is possible to automatically create documents for licensing and granting services. It is possible to prepare application form for power generation business license, business plan, KEPCO review document or use consent form for the license business of power generation business. For the photovoltaic power generation business, application for development activity application, power supply contract (PPA) You can prepare a declaration form, pre-use inspection application, electricity use application form, facility application for new renewable supply requirement (RPS) or financial application.

The document preparation unit 180 may acquire document information on the approval and review items of the photovoltaic power generation device, document information on the details of the design of the photovoltaic power generation device, And document information about the calculation of the estimated installation amount.

Embodiments of the present invention include a computer-readable medium having program instructions for performing various computer-implemented operations. This media records the programs for implementing the above-described photovoltaic online design and licensing documentation methods. The medium may include program instructions, data files, data structures, etc., alone or in combination. Examples of such media include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD and DVD, programmed instructions such as floptical disk and magneto-optical media, ROM, RAM, And a hardware device configured to store and execute the program. Or such medium may be a transmission medium, such as optical or metal lines, waveguides, etc., including a carrier wave that transmits a signal specifying a program command, data structure, or the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the right.

100: Solar power generation online design and licensing document creation system
110: selection unit 120: storage unit
130: Calculator 140: Output unit
150: Authorization review section 160: Construction history calculation section
170: Economic efficiency calculation unit 180: Document preparation unit

Claims (29)

A selection unit for selecting a place where the photovoltaic power generation apparatus is to be installed, a design condition and equipment necessary for installation,
A calculating unit for calculating the photovoltaic power generation design information by disposing the equipment in the predetermined installation site according to the selected design condition;
An output unit for outputting the calculated solar power generation design information, and
And a storage unit for storing weather information including atmospheric information including atmospheric temperature, temperature, wind speed and precipitation, astronomical space information including altitude and azimuth of the sun,
The above-
Wherein at least one of the installation method, the structure method, the module arrangement direction, the module inclination angle, the module azimuth angle, the array configuration, the array group configuration, the site inclination,
The solar power generation design information includes:
Photovoltaic power generation design drawing information indicating a state in which the equipment is disposed at the installation scheduled place and photovoltaic power generation design specification information about the details of the solar power generation apparatus designed,
The calculating unit calculates,
Calculating the photovoltaic power generation design drawing information for simulating the length of shade of the installation place at a predetermined time using the astronomical universe information,
Wherein the selection unit comprises:
The operator basic information, installation site information, selected equipment information, design specification information, and photovoltaic power generation installation information are further selected,
And a document creating unit for creating document information on licensing and contract work according to the supplier basic information, the installation place information, the selection equipment information, the design specification information, and the solar power generation installation information on the basis of a preset reference form Including,
The document creating unit creates,
A photovoltaic power generation online designing and licensing document creation system for generating document information on the approval and review of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information. delete The method of claim 1,
Wherein the selection unit comprises:
A solar photovoltaic on-line design and licensing document creation system that selects the installation site using the pre-stored topographic map. The method of claim 1,
Wherein the selection unit comprises:
A photovoltaic power generation online design and licensing document creation system that selects the equipment using the equipment information stored in the storage unit. delete delete The method of claim 1,
The calculating unit calculates,
A photovoltaic power generation online designing and licensing document creation system for calculating the photovoltaic power generation design drawing information by calculating a separation distance between the equipment to be installed at the installation site according to the selected design conditions and the astronomical space information. delete The method of claim 1,
The photovoltaic power generation plan drawing information includes:
Photovoltaic power generation online design and licensing document creation system, including photovoltaic module layout, structural drawing, electrical drawing and detailed drawing of equipment based on photovoltaic power generation design content. The method of claim 1,
The calculating unit calculates,
And the solar power generation design detail information including the expected power generation amount of the solar power generation apparatus using the weather information of the region corresponding to the installation scheduled place is generated. delete delete The method of claim 1,
The document creating unit creates,
A photovoltaic power generation online designing and licensing document creation system for generating document information on design details of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information. The method of claim 1,
The document creating unit creates,
A photovoltaic power generation online designing and licensing document creation system for generating document information on the estimated installation amount of the photovoltaic power generation device using the photovoltaic power generation installation information and the design specification information. 11. The method of claim 10,
And an economical efficiency calculation unit for calculating an economical efficiency of the solar power generation apparatus by using an expected generation amount of the solar power generation apparatus. 16. The method of claim 15,
The economics calculator calculates,
Solar power online design and licensing documentation system that calculates annual revenue, economic assessments, cash flow and environmental basis based on projected sales amount and operating value. The place where the photovoltaic power generation device is to be installed, the design conditions, the step of selecting the equipment required for the installation,
Calculating the photovoltaic power generation design information by disposing the equipment at the predetermined installation site according to the selected design condition;
Outputting the calculated solar power generation design information,
A step of receiving further information on the basic information of the business operator, installation site information, selected equipment information, design specification information, and photovoltaic power generation installation information, and
And creating document information on licensing and contracting duties in accordance with the supplier basic information, the installation place information, the selection equipment information, the design specification information, and the solar power generation installation information based on a preset reference form ,
The solar power generation design information includes:
Photovoltaic power generation design drawing information indicating a state in which the equipment is disposed at the installation scheduled place and photovoltaic power generation design specification information about the details of the solar power generation apparatus designed,
Wherein the step of calculating the photovoltaic power generation design information by disposing the equipment at the predetermined installation site according to the selected design condition comprises:
A photovoltaic power generating on-line design which calculates the photovoltaic power generation design drawing information that simulates the length of shade of the installation place at a predetermined time using astronomical space information including latitude, latitude and altitude of the sun, And how to create a licensing document. The method of claim 17,
The step of selecting the installation site, the design conditions, and the equipment required for the installation of the photovoltaic device,
An online design and licensing document for selecting photovoltaic power generation equipment using equipment materials information including photovoltaic modules and inverters stored in a storage unit. delete The method of claim 17,
Wherein the step of calculating the photovoltaic power generation design information by disposing the equipment at the predetermined installation site according to the selected design condition comprises:
The distance between the equipment to be installed at the installation place according to the astronomical space information including the selected design condition and the latitude of the area, the altitude of the sun and the azimuth angle stored in the storage unit, To produce a photovoltaic power generation online design and licensing document. delete The method of claim 17,
The photovoltaic power generation plan drawing information includes:
Solar power generation online design and licensing documents including photovoltaic module layout, structural drawings, electrical drawings and detail drawings of equipment based on photovoltaic design content. The method of claim 17,
Wherein the step of calculating the photovoltaic power generation design information by disposing the equipment at the predetermined installation site according to the selected design condition comprises:
And the solar power generation design detail information including the estimated generation amount of the solar power generation apparatus is calculated using the weather information of the area corresponding to the installation scheduled place. delete delete The method of claim 17,
And generating document information on the design details of the solar power generation device using the solar power generation installation information and the design specification information. The method of claim 17,
Further comprising the step of generating document information on the estimated installation amount of the solar power generation device using the solar power generation installation information and the design specification information. 24. The method of claim 23,
And calculating the economical efficiency of the photovoltaic device using the expected amount of power generated by the photovoltaic power generation device. 29. The method of claim 28,
The step of calculating the economical efficiency of the photovoltaic device using the expected amount of power generation of the photovoltaic device may include:
An online design and licensing document to calculate annual revenue, economic assessments, cash flow, and environmental performance based on projected sales and operational costs.

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