KR20200013926A - Profitability forecasting system and method of photovoltaic generation - Google Patents

Abstract

Provided is a profitability prediction system for photovoltaic power generation which can accurately predict and provide sales and profits according to the construction and operation of new photovoltaic power generation facilities. The profitability prediction system calculates an effective installation area by applying weights according to site types of planned installation areas of the photovoltaic power generation facilities; calculates the investment costs and operating costs of the photovoltaic power generation facilities with respect to the effective installation area in detail; and accurately analyzes taxes of users according to business types. Accordingly, the investment costs, sales, operating costs, taxes, and net profits expected during business periods can be accurately predicted and provided to users who want to construct and operate new photovoltaic power generation facilities. Therefore, the reliability of profitability prediction according to the construction and operation of the photovoltaic power generation facilities can be increased.

Description

Profitability forecasting system and method of photovoltaic generation}

The present invention relates to a profitability prediction system, and more particularly, to a profitability prediction system and method for photovoltaic power generation that can provide a detailed forecast of the sales and profits of a user according to the construction and operation of a new photovoltaic power generation facility.

Power generation using oil, coal or gas not only destroys the environment, but also causes various problems such as damaging the global environment due to greenhouse gas emissions such as carbon dioxide generated during combustion. In recent years, power generation facilities using environmentally friendly energy sources such as hydro, wind, and solar power have been developed. The power generation facilities of these eco-friendly energy sources not only destroy the environment but also have many advantages, such as no consumption of resources.

Among these, photovoltaic power generation can be installed in the area where the sun shines, so it is possible to install the power generation facilities with the least restrictions, and can be installed and operated in various shapes and sizes desired by the operator from small power generation facilities to large power generation facilities. It is more preferred.

On the other hand, an operator who wants to build a new solar power generation facility analyzes and predicts investment costs, operating costs, sales, and net profits related to the installation and operation of power generation facilities before installing them. You want to determine the installation. In other words, in order to examine the feasibility of new construction of photovoltaic power generation facilities, it is necessary to accurately and accurately predict the cost of construction of power generation facilities according to the characteristics of the installation area, the amount of power generated by the type of power generation facilities, and the operating profitability from them. will be.

However, in the related art, the profit was estimated by simply predicting the amount of generation of photovoltaic power generation according to a calculation formula reflecting the sunshine time in the installation area of the photovoltaic power generation facility. Therefore, the conventional profitability prediction method is difficult to provide detailed cost information, sales information by photovoltaic power generation, and accurate profitability information from them when a new solar power generation facility is to be constructed and operated. there was.

The present invention is to provide a profitability prediction system for photovoltaic power generation and a profitability prediction method through the same that can accurately predict and provide profitability according to the construction and operation of a new photovoltaic power generation facility.

Profit forecasting system for photovoltaic power generation according to an embodiment of the present invention, the area calculation module for calculating the effective installation area for the area to be installed of the photovoltaic power generation equipment; An equipment analysis module for outputting equipment analysis results for a plurality of equipments of the solar power generation facility to be built in the effective installation area; A cost calculation module for calculating investment costs, operating costs, and taxes required for the construction and operation of the photovoltaic power generation facility; A sales analysis module for predicting sales for a set operating period based on a result of analyzing a power generation amount of the photovoltaic power generation facility; And a net profit calculating module that calculates a user profit during the operating period from the sales based on the investment cost, operating cost, and tax.

According to an embodiment of the present invention, a method of predicting profitability of photovoltaic power generation includes calculating an effective installation area of a region in which a photovoltaic power generation facility is to be installed; Outputting equipment analysis results for a plurality of equipments of the photovoltaic power generation facility to be built in the effective installation area; Calculating at least one of equipment costs, construction costs, and other investment costs required for the construction of the photovoltaic power generation facility as investment costs; Predicting sales for a set operating period by analyzing a power generation amount of the solar power generation facility; Calculating at least one of depreciation costs, maintenance costs, financial costs, and other operating costs required for the operation of the photovoltaic power generation facility as an operating cost; And calculating a tax of the user from the sales based on the operating cost, and calculating the net profit of the user during the operating period based on the tax.

The profitability prediction system of photovoltaic power generation of the present invention can accurately calculate the effective installation area of the photovoltaic power generation facility by determining the site type for the area where the photovoltaic power generation facility is to be installed and by applying different area weights. In addition, it is possible to calculate the investment cost and operating costs in detail according to the construction of the photovoltaic power generation facility, and to accurately analyze the user's tax according to the business type.

Therefore, it is possible to accurately predict and provide investment cost, sales, operating cost, tax and net profit expected during the business period to users who want to build and operate solar power generation facilities. Increase the reliability of profitability forecasts.

1 is a view showing the configuration of a profitability prediction system of photovoltaic power generation according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating a configuration of the area calculating module of FIG. 1.
3 is a view showing the configuration of the investment cost calculation module of FIG.
4 is a diagram illustrating a configuration of an operating cost calculation module of FIG. 1.
5 is a diagram illustrating a configuration of a tax calculation module of FIG. 1.
6 is a view showing the configuration of the sales analysis module of FIG.
7 is a view showing a profitability prediction method of photovoltaic power generation according to an embodiment of the present invention.
8 is a diagram illustrating a configuration of the installation area calculating step of FIG. 7.
9 is a view showing the configuration of the investment cost calculation step of FIG.
FIG. 10 is a diagram illustrating a configuration of a sales prediction step of FIG. 7.
FIG. 11 is a diagram illustrating a configuration of an operation cost calculating step of FIG. 7.
12 is a diagram illustrating a configuration of a tax calculation step of FIG. 7.
13A to 13C are exemplary views illustrating a profitability prediction result of photovoltaic power generation by the profitability prediction system of the present invention.

Hereinafter, the configuration and operation of the present invention will be described with reference to the accompanying drawings.

It should be noted that the same elements among the drawings are denoted by the same reference numerals and symbols as much as possible even though they are shown in different drawings. In the following description of the present invention, detailed descriptions of related known functions or configurations will be omitted when it is determined that the detailed description of the present invention may unnecessarily obscure the subject matter of the present invention. In addition, when a part is said to "include" a certain component, this means that it may further include other components, except to exclude other components unless otherwise stated.

In addition, the terms or words used in the specification and claims are not to be construed in a conventional and dictionary sense, and the inventors may appropriately define the concept of terms in order to best describe their own invention. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configuration shown in the drawings are only preferred embodiments of the present invention, and do not represent all of the technical idea of the present invention, and various equivalents may be substituted for them at the time of the present application. And variations may be present and the scope of the present invention is not limited to the embodiments described below.

1 is a view showing the configuration of a profitability prediction system of photovoltaic power generation according to an embodiment of the present invention, Figures 2 to 6 are views showing a specific configuration of the profitability prediction system of FIG.

Referring to FIG. 1, the profitability prediction system 100 of the present embodiment may include sales generated by the construction and operation of solar power generation facilities to a user, for example, an individual or a corporation that intends to construct and operate a solar power generation facility. Profit can be predicted and provided. The profitability prediction system 100 predicts the construction cost of the photovoltaic power generation facility in which the user's intention is reflected on the basis of information data provided from the outside, for example, the user terminal 200 or the database 300, and generates the power generation facility during the set operating period. Accurately predict and analyze the revenue and profits generated by the operation of The result of the prediction and analysis by the profitability prediction system 100 may be generated in a predetermined report form and provided to the user terminal 200. The profitability prediction system 100 may include an area calculation module 110, an equipment analysis module 120, a cost calculation module 130, a revenue analysis module 170, and a net profit calculation module 180.

The user terminal 200 and the database 300 may provide various information data on the construction and operation of the photovoltaic power generation facility to the profitability prediction system 100. The user terminal 200 may be a user's computer system or a mobile communication terminal. The database 300 may be configured in plural, and various pieces of information data such as regional information, weather information, power market information, power generation facility information, and the like may be stored in each.

1 and 2, the area calculation module 110 of the profitability prediction system 100 is installed outside of the photovoltaic power generation facility for the area to be installed based on information data provided from the user terminal 200. The area can be calculated. The information data includes address information of the area to be installed, and the area calculation module 110 may calculate the total area and the effective installation area of the area to be installed based on the address information.

The total area calculating unit 111 of the area calculating module 110 receives the regional information corresponding to the address information from the database 300, for example, the regional information such as the land building book including the land number, the cadastral map, and the use. Therefore, the total area of the area to be installed can be calculated.

The effective area calculation unit 113 of the area calculation module 110 may calculate the effective installation area of the photovoltaic power generation facility from the calculated total area of the installation area. The effective area calculating unit 113 may calculate the effective installation area by analyzing the location conditions of the planned area to be installed based on the regional information, and determining the site type of the planned area to be installed according to the result. In this case, the effective area calculating unit 113 may calculate the effective installation area by applying a predetermined area weighting value to the total area according to the determination of the site type.

For example, when it is determined that the planned area is flat, the effective area calculation unit 113 may calculate an effective installation area having an area of approximately 90% of the total area by applying an area weight value of 0.9 to the total area. In addition, when it is determined that the area to be installed is a mountain area, the effective area calculation unit 113 may calculate an effective installation area having an area of approximately 40% of the total area by applying an area weight value of 0.4 to the total area. In addition, when it is determined that the area to be installed is a building, the effective area calculation unit 113 may calculate an effective installation area having an area of approximately 90% of the total area by applying an area weight value of 0.9 to the total area.

On the other hand, the effective area calculation unit 113 may further determine whether the flat is a farm type, for example a type of paddy field or a field, when it is determined that the installation area is flat. In this case, when the flat area of the planned installation area is determined to be farm-type, the effective area calculation unit 113 applies a new area weight value 0.5 instead of the area weight value 0.9 described above, and thus approximately 50% of the total area. The effective installation area can be calculated.

The area weights applied for the calculation of the effective installation area may be values according to ordinary conditions. Therefore, the area weighting value may be adjusted according to conditions prescribed by the regulations of the administrative agency of the address of the area where it is to be installed, for example, terrain slope, road separation distance, tree density, private house separation distance, and the like. In addition, the area weight value may be adjusted by the user through the user terminal 200.

As described above, the area calculating module 110 of the present embodiment first calculates the total area of the area to be installed according to the address information provided from the user terminal 200, and then weights the area to the total area according to the site type of the area to be installed. By applying, it is possible to calculate the effective installation area where the photovoltaic power generation facility will be installed in the area where the installation is expected.

Referring to Figure 1, the equipment analysis module 120 is based on the information data provided from the user terminal 200 to install a plurality of equipment of the photovoltaic power generation equipment to be built in the effective installation area of the planned installation area, that is, the planned installation area Can be analyzed. The information data may include equipment information. The equipment analysis module 120 may receive power generation equipment information from the database 300 based on the equipment information, analyze each equipment, and output the equipment analysis results according to the results.

For example, the equipment analysis module 120 may determine each type of a plurality of equipment such as panels, inverters, transformers, equipment structures, and other materials of the photovoltaic power generation equipment based on the power generation equipment information corresponding to the equipment information. . In addition, the equipment analysis module 120 analyzes the specifications, characteristics, capacity, efficiency, unit price and quantity of the equipment according to each equipment type, and outputs the equipment analysis results including at least one analysis result accordingly. Can be.

At this time, the equipment analysis module 120 may output an analysis result for each equipment of the photovoltaic power generation equipment based on the effective installation area calculated by the area calculation module 110. In addition, the equipment analysis module 120 selectively analyzes one or more of a plurality of equipment of the photovoltaic power generation equipment based on the type of the area to be installed determined by the area calculation module 110, and analyzes the analysis result accordingly. You can print

On the other hand, the equipment information may be provided sequentially from the user terminal 200 to the equipment analysis module 120. To this end, the equipment analysis module 120 provides information about each of a plurality of equipments of the photovoltaic power generation facility to the user terminal 200 and analyzes the equipment according to each equipment type which is sequentially fed back from the user terminal 200. You can output the result.

The cost calculation module 130 may calculate and analyze various costs required for the construction and operation of the photovoltaic power generation facility, for example, an investment cost of the user, an operating cost of the power generation facility, and a tax. The cost calculation module 130 may include an investment cost calculation module 140, an operation cost calculation module 150, and a tax calculation module 160.

1 and 3, the investment cost calculation module 140 calculates at least one of a user's investment cost, such as equipment costs, construction costs and other investment costs for the photovoltaic power generation facilities to be built in the installation area, This can be output as the total investment cost of the user. The investment cost calculation module 140 may include an equipment cost calculation unit 141, a construction cost calculation unit 143, and other investment cost calculation unit 145.

The equipment cost calculator 141 may calculate a cost for a plurality of equipments required for constructing a photovoltaic power generation facility based on the equipment analysis result of the equipment analysis module 120. The equipment analysis results include the type, specification, unit price, and quantity for each equipment, and thus, the equipment cost calculation unit 131 determines the quantity of equipment corresponding to the equipment analysis results, and each equipment cost and total equipment according to the unit price. The cost can be calculated.

The construction cost calculation unit 143 may calculate the construction cost according to the construction of the photovoltaic power generation facility in the area to be installed based on the analysis result of the equipment. Construction costs may include design costs, labor costs, civil engineering costs, building construction costs, grid connection costs, road construction or extension costs, and other construction costs. The construction cost calculation unit 143 may selectively calculate one or more of the above-described multiple items of construction costs according to the type of the area to be installed.

Other investment cost calculation unit 145, in addition to the equipment and construction costs described above, other investment costs, such as licensing costs, environmental evaluation costs, disaster impact assessment costs and civil compensation costs, such as the installation of photovoltaic power generation facilities The cost can be calculated.

Meanwhile, the investment cost calculation module 140 provides a plurality of setting items for equipment cost, construction cost, and other investment cost to the user terminal 200, and responds to the response of each setting item sequentially fed back from the user terminal 200. Based on this, the corresponding investment cost can be calculated.

1 and 4, the operating cost calculation module 150 calculates at least one of various operating costs, such as depreciation costs, maintenance management costs, financial costs and other operating costs according to the operation of the photovoltaic power generation facility, This can be output as the total operating cost of the user. The operating cost calculating module 150 may include a depreciation cost calculating unit 151, a maintenance cost calculating unit 153, a financial cost calculating unit 155, and other operating cost calculating units 157.

The depreciation cost calculation unit 151 may analyze the depreciation of the total investment cost according to the preset depreciation period and the depreciation method based on the equipment analysis result of the equipment analysis module 120, and calculate the depreciation cost accordingly. In this case, the depreciation period is preferably included within the total operating period of the photovoltaic power generation facility, and the depreciation method may be set to one of various methods such as the straight line method, the constant method, the production proportional method, or the total training method. However, the depreciation period and manner may be changed by the user.

The depreciation cost calculator 151 may calculate the depreciation cost based on the useful life of the equipment according to the analysis of the equipment. In this case, the depreciation cost may be calculated for each year during the operation period of the photovoltaic power generation facility or may be calculated as the total depreciation cost for the total operation period. In addition, since the calculated total investment cost of the user is offset by the depreciation cost during the operation of the photovoltaic power generation facility, the net profit of the user calculated by the net profit calculation module 180 to be described later may be increased.

The maintenance cost calculator 153 may calculate the maintenance cost of the power generation equipment during the operation period of the photovoltaic power generation facility based on the information data provided by the user terminal 200. Informational data may include operational planning information. Maintenance costs may include safety management costs, regular inspection costs, and facility maintenance costs for power generation facilities. The maintenance cost calculator 153 may calculate the maintenance cost according to the type, size and power generation capacity of the power generation facility and the total operating period based on the operation plan information and the analysis result of the equipment.

The financial cost calculator 155 may calculate the financial cost according to the construction of the photovoltaic power generation facility based on the information data provided from the user terminal 200. The information data may include financial information. Financing costs may include lease and purchase costs in accordance with the site or building holding of the PV installation, loans and interest from financial institutions.

The other operating cost calculator 157 may calculate various other operating costs according to the operation of the photovoltaic power generation facility in addition to the depreciation cost, maintenance cost, and financial cost described above. Other operating costs may include telecommunications costs for inspection and monitoring of power generation facilities, administrative costs and insurance costs incurred in the bidding and trading of production power.

On the other hand, the operating cost calculation module 150 may calculate the operating cost of the photovoltaic power generation equipment according to the sales after the sales forecast by the sales analysis module 170 to be described later. This is because other operating costs, that is, administrative costs such as power transaction fees and REC fees are incurred in accordance with the power transaction by the operation of the photovoltaic power generation facilities. Therefore, the operating cost calculation module 150 of the present embodiment may calculate the total operating cost of the photovoltaic power generation facility after the sales prediction by the sales analysis module 170 precedes.

In addition, the operating cost calculation module 150 provides a plurality of setting items for the depreciation cost, maintenance cost, financial cost and other operating costs to the user terminal 200, and each of the settings sequentially fed back from the user terminal 200. Based on the response of the item, the corresponding operating costs can be calculated.

Referring to FIGS. 1 and 5, the tax calculation module 160 estimates the tax imposed on the user during the operation period of the photovoltaic power generation facility based on the estimated sales based on the operation cost calculated by the operation cost calculation module 150. Can be calculated. The tax calculation module 160 may include a pre-tax profit calculator 161 and a tax amount calculator 163.

The pre-tax profit calculator 161 may calculate the pre-tax profit of the user from the sales. Pretax profit can be calculated by subtracting operating costs from sales.

The tax calculation unit 163 may analyze a user's business type, such as a corporate operator or an individual business operator, and determine a billing section and a tax rate according to the business type. In addition, the tax calculation unit 163 may analyze the user's other income, and may calculate and calculate a tax such as a user's payment tax, such as a corporate tax or an income tax, based on the sum of the pre-tax income and other income. have.

1 and 6, the sales analysis module 170 may predict a user's profit, that is, sales generated by the operation of the photovoltaic power generation facility during the set operating period. The sales analysis module 170 may include a power generation analysis unit 171, a REC analysis unit 173, and a sales prediction unit 175.

The power generation analysis unit 171 may predict and analyze the power generation amount according to the operation of the solar power generation facility. The power generation analysis unit 171 may predict the total power generation of the photovoltaic power generation facility based on the equipment analysis result of the equipment analysis module 120. The power generation analysis unit 171 may predict the total power generation of the photovoltaic power generation facility based on daily, weekly, monthly and annual weather information of the region where the photovoltaic power generation facility is to be installed from the database 300. The generation amount analyzing unit 171 may predict the annual generation amount and the total generation amount during the operation period of the preset photovoltaic facility based on the operation plan information of the information data provided from the user terminal 200.

REC analysis unit 173 is based on the generation amount predicted by the power generation analysis unit 171 and the total REC generation amount of the photovoltaic power generation facilities based on the REC weight given differentially according to the planned size and type of the planned solar power generation facilities. Can be predicted and analyzed. REC refers to a certificate certifying that a generator generates and supplies electricity by using renewable energy facilities. REC may be calculated by multiplying a power generation amount (MWh) generated by a power generation facility by a weight. In this case, the REC weight may be determined between 0.7 and 1.5 depending on the installation area and the capacity of the solar power plant.

The sales prediction unit 175 may predict sales according to the operation of the photovoltaic power generation facility based on the generation amount and the REC generation amount. The sales prediction unit 175 may predict the annual sales and the total sales during the operation period of the photovoltaic facility based on the power market information and the REC price information provided from the database 300 or the user terminal 200.

Here, the power market information may include the average price of the system limit price (SMP) or the expected price information for each year during a specific business period. The REC price information may include a future expected price or a contract price based on REC shape trading market information.

The sales prediction unit 175 may be calculated by calculating the sum of power sales revenue multiplied by the SMP by the estimated power generation amount and REC sales sales multiplied by the REC unit price by the estimated REC generation amount.

Referring to FIG. 1, the net profit calculating module 180 calculates the profit of the user during the operation period of the solar power plant, that is, the net profit of the user, based on the pre-tax profit and the tax calculated by the tax calculation module 160 described above. Can be calculated by prediction Net profit can be calculated by subtracting tax from pretax profit.

As described above, the photovoltaic profitability prediction system 100 according to the present embodiment accurately calculates the effective installation area of the photovoltaic power generation facility by applying an area weight value differently according to the location conditions, that is, the site type, of the region to be installed. Can be. In addition, it is possible to calculate the operating cost of the photovoltaic power generation facility by calculating the depreciation cost for the total investment cost according to the construction of the photovoltaic power generation facility to be offset by the operating cost. In addition, by analyzing the type of business and other income of the user, it is possible to analyze the tax generated by the operation of the photovoltaic power generation facilities, thereby accurately predicting the net profit of the user.

The profitability prediction system 100 may calculate and calculate the sales and operating costs according to the operation of the solar power generation facility, and may predict the sales and the net profit of the user's monthly, annual and total operating periods during the set operating periods. The profitability prediction system 100 may generate a profitability report of the predicted user's sales, operating cost, and net profit, and provide the same to the user terminal 200.

In this case, as shown in FIG. 13A, the profitability prediction system 100 may generate a yearly graph of a relationship between power generation amount, sales, operating cost, and net profit of the photovoltaic power generation facility predicted during the operation period, and include the same in a profitability report. Can be. In addition, as shown in Figure 13b, the profitability prediction system 100 can generate the investment cost, that is, the investment cost of the user for the construction of the photovoltaic power generation facilities in the form of investment cost calculation history report, and provide it to the user terminal 200. have. In addition, as illustrated in FIG. 13C, the profitability prediction system 100 may generate and provide a profitability report in the form of financial statements.

FIG. 7 is a diagram illustrating a method for predicting profitability of photovoltaic power generation according to an embodiment of the present invention, and FIGS. 8 to 12 are diagrams showing specific methods of each step of FIG. 7. Hereinafter, for convenience of description, reference will be made to FIGS. 1 to 6 described above together.

Referring to FIGS. 7 and 8, the area calculation module 110 of the profitability prediction system 100 is effectively installed for the region where the solar power generation facility is to be installed based on the address information of the information data provided from the user terminal 200. The area can be calculated (S10).

First, the total area calculating unit 111 of the area calculating module 110 may receive the area information corresponding to the address information from the database 300 and calculate the total area of the area to be installed (S111). .

Subsequently, the effective area calculating unit 113 of the area calculating module 110 may determine the site type by analyzing the location conditions of the area to be installed based on the address information and the area information (S112). In this case, the effective area calculating unit 113 may determine four site types, for example, flat, mountain, building, and farming type. In the case of a farming type, the effective area calculating unit 113 sets the planned area to be flat. After the determination, it may be further determined (S113).

In detail, the effective area calculating unit 113 may determine one of three site types, for example, a flat land, a mountain area, and a building, for the area to be installed (S112). At this time, if it is determined that the installation area is flat, the effective area calculation unit 113 may further determine whether the previously determined flat land is farm-type (S113).

Next, the effective area calculating unit 113 may apply the area weighting value to the total calculated area according to the determined site type (S114). Subsequently, the effective area calculating unit 113 may calculate an effective installation area for installation of the photovoltaic power generation facility in the total area (S115). In this case, the effective installation area may have a small area at a predetermined ratio compared to the total area by the area weighting value. The area weight is a value between 0 and 1, and may have a different value depending on the type of area to be installed.

For example, in the case where the planned area is flat and is not farmed by additional judgment, and the planned area is a building, the effective area calculating unit 113 may apply an area weight value of 0.9 to the total area. Accordingly, the effective area calculation unit 113 may calculate an effective installation area having an area of 90% of the total area in the installation area. In addition, in the case where the area to be installed is flat and farmed by additional judgment, the effective area calculator 113 may apply an area weight value of 0.5 to the total area. Accordingly, the effective area calculation unit 113 may calculate an effective installation area having an area of 50% of the total area in the installation area. In addition, when the area to be installed is a mountain area, the effective area calculation unit 113 may apply an area weight value of 0.4 to the total area. Accordingly, the effective area calculation unit 113 may calculate an effective installation area having an area of 40% of the total area in the installation area.

After the effective installation area is calculated for the installation area, the investment cost calculation module 140 may calculate the investment cost for the construction of the photovoltaic power generation facility (S20). Investment costs may include various equipment costs, construction costs, and other investment costs of solar power generation facilities.

Referring to FIG. 9, first, the equipment analysis module 120 may output an analysis result by analyzing various equipments of a photovoltaic power generation facility based on equipment information of information data provided from a user terminal 200. (S211). The equipment analysis module 120 may output equipment analysis results on the assumption that various equipments are installed and a photovoltaic power generation facility is constructed with respect to the effective installation area of the pre-calculated installation area. Equipment analysis results may include the type, specification, characteristics, capacity, efficiency, unit price and quantity of each equipment.

The investment cost calculation module 140 may calculate the investment cost based on the location condition analysis result together with the analysis of the equipment. At this time, the location condition analysis (S212) may be performed by the above-described area calculation module 110, may be a site type of the installation area.

The equipment cost calculation unit 141 of the investment cost calculation module 140 may calculate costs for a plurality of equipments required for installing the photovoltaic power generation facility based on the equipment analysis result and the location condition analysis result (S213). .

The construction cost calculation unit 143 may calculate the construction cost according to the installation of the basic civil engineering work and the photovoltaic power generation facility in the area to be installed based on the analysis result of the equipment and the location condition (S214). The construction cost includes design cost, labor cost, civil engineering cost, building construction cost, grid connection cost, road construction or extension cost, and other construction cost, and can be selectively calculated according to the location condition analysis result.

The other cost calculator 145 may calculate various other investment costs according to the installation of the photovoltaic power generation facility (S215). Other investment costs include licensing costs, environmental assessment costs, disaster impact assessment costs, and civil compensation costs, and may be selectively calculated according to the type of site in the area to be installed.

Here, the equipment costs, construction costs and other costs may be calculated in parallel or sequentially.

Subsequently, the investment cost calculation module 140 may calculate the total investment cost of the user for the construction of the photovoltaic power generation facility including at least one of equipment cost, construction cost, and other costs (S217).

After the total investment cost is calculated, the sales analysis module 170 may predict the revenue generated according to the operation of the photovoltaic power generation facility, that is, the sales during the set operating period (S30).

Referring to FIG. 10, the generation amount analysis unit 171 of the sales analysis module 170 may predict and analyze the generation amount according to the operation of the solar power generation facility (S311).

In addition, the REC analysis unit 173 of the sales analysis module 170 calculates the total REC generation amount of the photovoltaic power generation facility based on the estimated weight and the REC weight that is differentially set according to the size or type of the photovoltaic power generation facility. Can be analyzed (S313).

Subsequently, the sales prediction unit 175 may predict the sales of the photovoltaic power generation facility from the amount of generation and the amount of REC generation based on the power market information or the REC price information (S315). The sales forecasting unit 175 may calculate the sales by calculating the combined amount of the electricity sales according to the amount of generation and the REC sales based on the amount of REC generation, and the total annual sales and operating periods during the operation period of the solar power plant. It can be calculated as the total sales for.

If the sales of the photovoltaic power generation equipment is predicted, the operating cost calculation module 150 may calculate an operating cost according to the operation of the photovoltaic power generation equipment (S40). Operating costs may include depreciation, maintenance, financial and other operating costs.

As described above, the operating cost of the photovoltaic power generation equipment may include sales, that is, various administrative costs incurred in power transactions according to the operation of the photovoltaic power generation. Therefore, it may be preferable that the operating cost is calculated after the sales of the photovoltaic facility are predicted by the sales analysis module 170.

Referring to FIG. 11, the depreciation cost calculator 151 of the operating cost calculation module 150 analyzes the depreciation of the total investment cost calculated based on the equipment analysis result (S411), and calculates the depreciation cost accordingly. It may be (S412).

The depreciation cost calculation unit 151 analyzes the depreciation period and method along with the useful life of the equipment according to the equipment analysis result, and accordingly, the depreciation costs for each year for the investment cost calculated during the total operation period of the photovoltaic power plant and The total depreciation costs can be calculated.

Maintenance cost calculation unit 153 may analyze the operation plan information of the information data provided from the user terminal 200 (S412), thereby calculating the maintenance cost for the photovoltaic power generation equipment (S422). Maintenance cost includes safety management cost, regular inspection cost, and facility maintenance cost for power generation equipment.Selective according to the type, size and power generation capacity and total operating period of power generation equipment based on the operation plan information and equipment analysis results. It can be calculated as.

The financial cost calculator 155 may analyze the financial information of the information data provided from the user terminal 200 (S413), and calculate the financial cost for the construction and operation of the photovoltaic power generation facility (S423). Financing costs include lease and purchase costs according to the site or building holding of the photovoltaic power generation facility, loans and interest costs from financial institutions, etc., and can be calculated selectively.

The other operating cost calculator 157 may analyze various other operating costs according to the operation of the photovoltaic power generation facility (S414), and calculate other operating costs accordingly (S424). Other operating costs include communication costs for the inspection and monitoring of power generation facilities, administrative costs and insurance costs incurred in the bidding and trading of production power, and can be calculated selectively.

The depreciation, maintenance, financing and other costs described above can be calculated in parallel or sequentially.

Subsequently, the operating cost calculation module 150 may calculate the total operating cost of the photovoltaic power generation facility including at least one of depreciation cost, maintenance cost, financial cost, and other costs (S430).

When the sales and operating costs according to the operation of the solar power plant is predicted and calculated, the tax calculation module 160 may calculate and calculate the user's tax according to the operation of the solar power plant (S50).

Referring to FIG. 12, the pre-tax profit calculation unit 161 of the tax calculation module 160 subtracts the operating cost calculated by the operating cost calculation module 150 from the sales predicted by the sales analysis module 170, thereby pre-tax profit. It can be calculated by predicting (S511).

The tax calculation unit 163 may determine other income of the user and add other income to the pre-calculated profit. Then, the tax calculation unit 163 may analyze the tax rate according to the billing section by analyzing the user's business type (S513).

Subsequently, the tax calculation unit 163 may predict the amount of tax paid by the user, that is, the tax, based on the sum of the tax rate analysis result, that is, the sum of the pre-tax profit and other income (S515).

Subsequently, the net profit calculation module 180 may predict the net profit of the user according to the operation of the photovoltaic facility by subtracting the tax from the pre-tax profit (S60). The net profit calculation module 180 may predict the net profit and the net profit for each year during the operation period of the solar power plant. In addition, the profitability prediction system 100 may generate the predicted revenue, operating cost, and net profit of the user as a profitability report, and provide the same to the user terminal 200. In this case, the profitability prediction system 100 may also provide investment indicators such as economic analysis indexes considering investment costs, for example, an internal rate of return and a cost-benefit ratio.

As described above, the photovoltaic profitability prediction system 100 according to the present embodiment may accurately calculate the effective installation area of the photovoltaic power generation facility by applying an area weight value differently according to the site type of the region to be installed. In addition, the profitability prediction system 100 may calculate equipment specifications and capacity of the photovoltaic power generation equipment based on the effective installation area, and calculate the investment cost of power generation facility construction accordingly. In addition, the total sales of the user may be predicted from the amount of generation and the number of RECs generated by the operation of the photovoltaic power generation facility, and the operating costs including the depreciation cost of the investment cost of the power generation facility may be calculated in detail. In addition, it is possible to accurately calculate the tax generated by the operation of the solar power plant by analyzing the user's business type and other income.

Therefore, the profitability prediction system 100 of the present invention can accurately predict and provide investment costs, sales, operating costs, taxes, and net profits expected during the business period to a user who wants to build and operate a photovoltaic power generation facility. The reliability of profitability predictions from the construction and operation of photovoltaic power generation facilities can be improved.

100: profitability prediction system 110: area calculation module
111: total area calculator 113: effective area calculator
120: equipment analysis module 130: cost calculation module
140: investment cost calculation module 141: equipment cost calculation unit
143: construction cost calculation unit 145: other investment cost calculation unit
150: operating cost calculation module 151: depreciation cost calculation unit
153: maintenance cost calculation unit 155: financial cost calculation unit
157: other operating cost calculator 160: tax calculation module
161: pretax income calculating unit 163: tax amount calculating unit
170: revenue analysis module 171: power generation analysis unit
173: REC analysis unit 175: revenue forecasting unit
180: net profit calculation module 200: user terminal
300: database

Claims (15)

An area calculation module for calculating an effective installation area for the area where the solar power generation facility is to be installed;
An equipment analysis module for outputting equipment analysis results for a plurality of equipments of the solar power generation facility to be built in the effective installation area;
A cost calculation module for calculating investment costs, operating costs, and taxes required for the construction and operation of the photovoltaic power generation facility;
A sales analysis module for predicting sales for a set operating period based on a result of analyzing a power generation amount of the photovoltaic power generation facility; And
And a net profit calculation module for calculating a user profit for the operating period from the sales based on the investment cost, operating cost and tax. The method of claim 1,
The area calculation module,
A total area calculating unit that calculates a total area of the planned installation area based on address information of externally provided information data; And
And an effective area calculator configured to analyze the location conditions of the area to be installed based on the address information, and calculate the effective installation area by applying a weight to the total area according to the analysis result. Profitability prediction system. The method of claim 2,
The weight is a profitability prediction system for photovoltaic power generation, characterized in that the value between 0 to 1. The method of claim 1,
The equipment analysis module,
Analyze the type of each of the plurality of equipment to be built on the effective installation area based on equipment information of externally provided information data, and the specifications, characteristics, capacity, and efficiency of each of the plurality of equipment based on the analysis result. Profit forecasting system for photovoltaic power generation, characterized in that for outputting the analysis results of the equipment, including at least one of a unit price and a quantity. The method of claim 1,
The cost calculation module,
An investment cost calculation module that calculates at least one of equipment cost, construction cost, and other investment cost required for the construction of the photovoltaic power generation facility as the investment cost based on the equipment analysis result;
An operating cost calculation module that calculates at least one of depreciation, maintenance, financial and other operating costs required for the operation of the photovoltaic power generation facility as the operating cost based on the equipment analysis result and externally provided information data; And
And a tax calculation module that calculates the tax according to the operation of the solar power generation facility from the sales by analyzing a user's business type and other incomes. The method of claim 5,
The operating cost calculation module,
A depreciation cost calculator for calculating a depreciation cost for the investment cost based on the analysis result of the equipment;
A maintenance cost calculator configured to calculate a maintenance cost for the operation period of the photovoltaic power generation facility based on the operation plan information of the information data;
A financial cost calculator configured to calculate a financial cost according to the construction of the photovoltaic power generation facility based on the financial information of the information data; And
And other operating cost calculators for calculating the other operating costs except the depreciation, maintenance and financial costs. The method of claim 5,
The tax calculation module,
A pre-tax profit calculator for calculating a pre-tax profit of the user from the sales based on the operating cost; And
Profitability of the photovoltaic power generation, characterized in that the sum of the other income to the pre-tax profit according to the analysis results of the other income, and calculates the tax from the combined amount based on the analysis result of the business type Prediction system. The method of claim 1,
The sales analysis module,
A power generation analysis unit for analyzing a power generation amount of the solar power generation facility during the operation period;
A REC analyzer for analyzing a total REC generation amount of the photovoltaic power generation facility based on the REC weight value; And
And a sales forecasting unit predicting the sales during the operation period according to the amount of power generation and the amount of REC generation analyzed based on externally provided power market information. Calculating an effective installation area for the area where the solar power generation facility is to be installed;
Outputting equipment analysis results for a plurality of equipments of the photovoltaic power generation facility to be built in the effective installation area;
Calculating at least one of equipment costs, construction costs, and other investment costs required for the construction of the photovoltaic power generation facility as investment costs;
Predicting sales for a set operating period by analyzing a power generation amount of the solar power generation facility;
Calculating at least one of depreciation costs, maintenance costs, financial costs, and other operating costs required for the operation of the photovoltaic power generation facility as an operating cost; And
Calculating a tax of the user from the sales based on the operating cost, and calculating a net profit of the user during the operating period based on the tax. The method of claim 9,
Calculating the effective installation area,
Calculating a total area of the planned installation area based on address information of externally provided information data;
Analyzing the location conditions of the planned area for installation based on the address information, and determining the site type of the planned area for installation as one of flat, mountain and buildings according to the analysis result; And
And calculating the effective installation area by applying a weight based on the determination result to the total area. The method of claim 10,
If the site type of the planned installation area is determined to be flat,
The method of claim 1, further comprising the step of further determining whether the site of the planned installation area is farm-type. The method of claim 10,
Wherein the weight is a value between 0 ~ 1 profitability prediction method of photovoltaic power generation. The method of claim 9,
Predicting the sales,
Analyzing the amount of power generation of the photovoltaic power generation facility during the operation period based on the equipment analysis result;
Analyzing the total REC generation amount of the photovoltaic power generation facility based on the REC weight according to the amount of power generation; And
Predicting the revenue according to the amount of power generation and the amount of REC generation based on externally provided strategic market information. The method of claim 9,
The step of calculating the operating cost,
Calculating a depreciation cost for the investment cost based on the analysis result of the equipment;
Calculating maintenance cost and financial cost of the photovoltaic power generation facility based on operation plan information and financial information of externally provided information data; And
Calculating the other operating costs excluding the depreciation cost, the maintenance cost and the financial cost. The method of claim 9,
Calculating the net profit of the user,
Calculating and calculating pre-tax profit by subtracting the operating cost from the sales;
Analyzing the other income of the user and adding the other expenses to the pretax profit;
Analyzing the business type of the user and predicting and calculating the tax from the sum; And
Calculating the net profit by subtracting the tax from the pre-tax profit.

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