JP2015049779A - System and method for examining introduction of distributed power source - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an introduction examining system for calculating introduction effects of a photovoltaic power generator.SOLUTION: A system for examining the introduction of distributed power source comprises: an input device for inputting first information indicating the power consumption of a user who examines the introduction of a distributed power source and second information determining the power generation amount of the distributed power source; a calculation device for calculating introduction effects of the distributed power source in accordance with the user's utilization form of the distributed power source on the basis of the first and second information input in the input device; and an output device for outputting examination information for which the user examines the introduction of the distributed power source on the basis of the calculation results of the calculation device.

Description

  The present invention relates to a distributed power supply introduction study system and a distributed power supply introduction study method.

  For example, an introduction study device that provides information about the effect of introduction of a solar power generation device to a consumer considering the introduction of the solar power generation device is known (for example, Patent Document 1).

JP 2002-63415 A

  For example, in the introduction study apparatus of Patent Document 1, the calculation of the introduction effect based on the usage pattern of the solar power generation apparatus by the consumer is not performed. For this reason, there is a possibility that it may be difficult to examine the introduction of the photovoltaic power generation apparatus according to the usage form based on the information provided from the introduction examination apparatus.

  The main present invention for solving the above-mentioned problems is an input device to which first information indicating the power consumption of a consumer considering introduction of a distributed power source and second information for determining the power generation amount of the distributed power source are input. An arithmetic device that performs an operation on the introduction effect of the distributed power source according to a usage form of the distributed power source by the consumer based on the first and second information input to the input device; A distributed power supply introduction study system comprising: an output device that outputs examination information for the consumer to consider introduction of the distributed power supply based on a computation result of a computing device. .

  Other features of the present invention will become apparent from the accompanying drawings and the description of this specification.

  ADVANTAGE OF THE INVENTION According to this invention, the information about the introduction effect of the distributed power supply according to a utilization form can be provided.

It is a figure which shows the power distribution system in embodiment of this invention. It is a block diagram which shows the hardware of the introduction examination apparatus in embodiment of this invention. It is a block diagram which shows the introduction examination apparatus in embodiment of this invention. It is a figure which shows the image of the business at the time of owning the installation in embodiment of this invention. It is a figure which shows the image of the business at the time of employ | adopting the trust service in embodiment of this invention. It is a figure which shows the image of the business at the time of employ | adopting the roof rental business in embodiment of this invention. It is a figure which shows the evaluation information when the system which owns the installation in embodiment of this invention is selected. It is a figure which shows the evaluation information when the system which employ | adopts the consignment service in embodiment of this invention is selected. It is a figure which shows the evaluation information when the system which employ | adopts the roof rental business in embodiment of this invention is selected. It is a flowchart which shows operation | movement of the introduction examination apparatus in embodiment of this invention.

  At least the following matters will become apparent from the description of this specification and the accompanying drawings.

=== Distribution system ===
Hereinafter, the power distribution system in the present embodiment will be described with reference to FIG. FIG. 1 is a diagram showing a power distribution system in the present embodiment. In addition, although the solar power generation device G1 is not provided in the consumer 102, the solar power generation device G1 considered to be introduced is indicated by a dotted line for convenience of explanation.

The distribution system 100 is an electric power system for supplying the electric power W <b> 1 from the generator 101 to the consumer 102.
The power distribution system 100 includes a generator 101, a distribution line L10, a service line L1, a customer 102, an introduction study device 3 (distributed power supply introduction study system), a first database 41, a second database 42, a third database 43, A first server 51 and a second server 52 are included.

  The generator 101 is, for example, a generator provided in a power plant, and supplies power to the distribution line L10 via a substation (not shown) or the like.

  The customer 102 is a customer to whom electric power W1 is supplied from the distribution line L10. The customer 102 has a load R1 and a measuring device M1. The load R1 is a power load that consumes the power W1 supplied from the distribution line L10. The load R1 is connected to the distribution line L10 via the lead-in line L1. Measuring device M1 measures electric power W1 supplied from distribution line L1 to load R1. The measuring device M1 measures, for example, the amount of power W1 supplied to the load R1 (also referred to as “power consumption”).

  The first database 41 stores legal information based on various laws and the like related to the photovoltaic power generation apparatus G1 (distributed power supply). The second database 42 stores solar radiation amount information regarding the solar radiation amount at the position where the customer 102 is provided, and is provided in, for example, the Japan Meteorological Agency, the Meteorological Association, or the like. The solar radiation amount information includes information on the solar radiation amount at all azimuth angles and inclination angles (0 ° to 90 °) for each time of day. The third database 43 stores power information (first information) indicating past power consumption.

  The power information is stored, for example, for the past 20 years based on the measurement result of the measuring device M1. Note that the power information may be input by an administrator of the distribution system 100, or the measurement device M1 and the third database 43 are connected to be communicable, and the measurement result indicating the measurement result from the measurement device M1. It is good also as memorize | stored based on information.

  The first server 51 is a device for calculating the cost for each introduction method of the solar power generation device G1. The second server 52 is a device in which device information indicating various specifications of the solar power generation device G1 such as the manufacturer of the solar power generation device G1 and the type of the solar panel is stored.

  The introduction study device 3 is a device for studying introduction of the solar power generation device G1 to the customer 102.

=== Installation study device ===
Hereinafter, with reference to FIG. 2 and FIG. 3, the introduction study apparatus in the present embodiment will be described. FIG. 2 is a block diagram showing hardware of the introduction study apparatus in the present embodiment. FIG. 3 is a block diagram showing the introduction study apparatus in the present embodiment.

  The introduction study apparatus 3 includes information stored in the first database 41, the second database 42, the third database 43, the first server 51, the second server 52 (also referred to as “each device”), and computations in each device. This is a device for studying the introduction of the solar power generation device G1 based on the results and the like. The introduction study device 3 includes a CPU (Central Processing Unit) 31, a communication device 32 (input device), a storage device 33, a display device 34, and an input device 35.

  The CPU 31 realizes various functions of the introduction study device 3 by executing a program stored in the storage device 33 and controls the introduction study device 3 in an integrated manner. The storage device 33 stores the above-described program and various types of information. The display device 34 is a display that displays information of the introduction study device 3. The input device 35 is, for example, a keyboard or a mouse for inputting information to the introduction study device 3. The communication device 32 communicates with each device via the network 300.

  The introduction study device 3 includes a study unit 36, a calculation unit 37, and an evaluation unit 38 (also referred to as “various functions of the introduction study device 3”). The calculation unit 37 and the evaluation unit 38 correspond to a calculation device. The various functions of the introduction study device 3 are realized by the CPU 31 executing programs stored in the storage device 33.

  The examination unit 36 creates loading data relating to building reinforcement and ground improvement based on legal information and device information, and creates qualification data relating to qualifications necessary for construction of the solar power generation device G1. Or

  The calculation unit 37 calculates the power generation amount, the power purchase amount, the power sale amount, the power sale amount, the power purchase amount, and the running cost based on the power information, the solar radiation amount information, the device information, and the calculation result of the first server 51. The power generation amount indicates the amount of power generated by the solar power generation device G1. The amount of power purchased indicates the amount of power supplied from the distribution line L10 to the customer 102. That is, the amount of power purchased indicates the amount of power that the customer 102 purchases from the electric power company 103 (FIG. 4). The amount of power sold indicates the amount of power supplied from the customer 102 to the distribution line L10. That is, the amount of power sold indicates the amount of generated power sold from the customer 102 to the electric utility 103. The amount of electric power sold indicates the amount of generated power sold from the customer 102 to the electric utility 103. The amount of electric power purchased represents the amount of electric power purchased by the consumer 102 from the electric power company 103. The running cost indicates a running cost related to the power of the customer 102 when the customer 102 introduces the solar power generation device G1.

  The evaluation unit 38 evaluates the introduction effect when the customer 102 introduces the solar power generation device G1 based on the calculation result of the calculation unit 37.

=== Introduction method of solar power generation equipment, power sale classification ===
Hereinafter, with reference to FIG. 4 thru | or FIG. 6, the introduction system and power sale classification of the solar power generation device in this embodiment are demonstrated. FIG. 4 is a diagram showing an image of a business when the customer 102 owns the equipment in the present embodiment. FIG. 5 is a diagram showing an image of a business when the customer 102 employs the contract service in the present embodiment. FIG. 6 is a diagram showing an image of a business when the customer 102 employs the roof rental business in the present embodiment.

<Introduction method>
The introduction method of the solar power generation apparatus G1 includes, for example, a method in which the customer 102 owns the facility, a method in which the customer 102 adopts the contract service, and a method in which the customer 102 employs the roof lending business. .

  The method of possessing equipment (FIG. 4) is a method in which the customer 102 owns the equipment of the solar power generation device G1, and the consumer 102 performs operation management and maintenance of the equipment. When this method is selected, installation of facilities is performed based on a construction contract contract between the customer 102 and the construction company 104. The customer 102 sells the generated power of the solar power generation device G1 to the electric power company 103 according to the power sale category, and acquires the purchase price of the sold generated power from the electric power company 103.

  The method (FIG. 5) that employs the commissioned service is a method in which the customer 102 does not own the facility of the solar power generation device G1. In this method, the contract service company 105 owns the facilities of the solar power generation apparatus G1, and the contract service company 105 performs operation management and maintenance of the facilities. When this method is selected, the customer 102 gives the commissioned service company 105 a service fee for a set of services including a fee for maintenance of the facility in place of the facility cost of the solar power generation device G1. pay. The customer 102 sells the generated power of the solar power generation device G1 to the electric power company 103 according to the power sale classification, as in the case where the method of owning the equipment is selected, and the generated generated power sold. The purchase price is acquired from the electric power company 103.

  In the method of adopting the roof rental business (FIG. 6), the customer 102 provides the installation place of the solar power generation device G1 to the roof rental business company 106 that uses the solar power generation device G1 different from the customer 102. In addition, the rent as a consideration for the provision of the installation location of the photovoltaic power generation apparatus G1 is paid from the roof leasing business company 106 to the customer 102. When this method is selected, the roof rental business company 106 owns the facilities of the solar power generation apparatus G1, and the roof rental business company 106 performs operation management and maintenance of the facilities. Further, the roof rental business company 106 sells the generated power of the solar power generation apparatus G1 to the electric power company 103, and acquires the purchase price of the sold generated power from the electric power company 103. The customer 102 acquires a rent based on the provision of the installation place of the solar power generation device G1 to the roof rental business company 106. In addition, the said rent is determined according to the electric power generation amount of the solar power generation device G1, for example.

<Power sales category>
The power sale category is a category relating to the form of sale of the generated power of the solar power generation apparatus G1 when the method of owning the facility or the method of employing the contract service is selected by the customer 102. The power sale classification indicates the contents of a contract established with the electric power company 103 for selling electric power to the electric power company 103. The power sale classification includes private consumption, surplus power sale, and total power sale, and any one of these is selected by the customer 102. Each power sale classification and each introduction method corresponds to a usage form of a distributed power source.

  Self-consumption indicates a form in which all of the power generation amount is consumed in the customer 102. That is, when private consumption is selected, the solar power generation device G1 is provided so that a reverse power flow does not occur between the distribution line L10 and the customer 102. In addition, the amount of power supplied from the distribution line L10 to the consumer 102 is reduced by an amount corresponding to the amount of power generation.

  Surplus power is the surplus that exceeds the power consumption of the customer 102 in the amount of power generation is supplied (reverse power flow) to the distribution line L10, and the surplus is supplied to the electric power company 103 (FIG. 4). Shows the form of being sold. That is, when surplus power is selected, when the amount of power generation exceeds the amount of power consumption, a reverse power flow occurs between the distribution line L10 and the customer 102, resulting in a difference in power consumption with respect to the amount of power generation. A corresponding amount of power will be sold. Further, when the power generation amount becomes equal to or less than the power consumption amount, the power amount of power supplied from the distribution line L10 to the consumer 102 is reduced by an amount corresponding to the power generation amount.

  The total power sale is a form in which all of the power generation amount is supplied to the distribution line L10 (reverse power flow), and all the power generation amount is sold to the electric utility 103. Therefore, when the total power sale is selected, the amount of power supplied from the distribution line L10 to the customer 102 does not vary depending on the amount of power generation.

=== First server ===
Hereinafter, the first server in this embodiment will be described with reference to FIGS. 1 and 7 to 9. FIG. 7 is a diagram illustrating evaluation information when a method in which the customer 102 owns the facility according to the present embodiment is selected. FIG. 8 is a diagram showing evaluation information when a method in which the customer 102 adopts the consignment service in the present embodiment is selected. FIG. 9 is a diagram showing evaluation information when a method in which the customer 102 adopts the roof rental business in the present embodiment is selected.

  The first server 51 calculates the initial cost for each introduction method of the solar power generation device G1 based on the device information. The first server 51 calculates initial costs F11, F21, and F31.

  The initial cost F11 (FIG. 7) is an initial cost when a method of owning equipment is selected. The initial cost F11 includes, for example, facility costs, construction costs, maintenance costs, fixed asset tax costs, etc., for the solar power generation device G1.

  The initial cost F21 (FIG. 8) is an initial cost when a method that employs a contract service is selected. The initial cost F21 includes, for example, a cost related to the above-mentioned service fee, a cost for paying an interest rate for using the solar power generation device G1, a cost for paying a facility insurance fee, and the like.

  The initial cost F31 (FIG. 9) is an initial cost when a method of adopting a roof rental business is selected. When the method of employing the roof rental business is selected, the initial cost F31 is unnecessary (0 yen).

=== Investigation Department ===
Hereinafter, with reference to FIG. 3, the examination unit in the present embodiment will be described.

  The examination unit 36 creates loading data relating to building reinforcement and ground improvement based on legal information and device information, and creates qualification data relating to qualifications necessary for construction of the solar power generation device G1. Or

  The examination unit 36 calculates the load in the customer 102 based on the specifications of the solar panel indicated in the area utilization rate, the installation location, the roof type, the input information, and the device information input, and creates loading data. The area utilization rate is determined based on the installation target area on the roof or the like of the customer 102 and the laying area of the solar panel of the photovoltaic power generation apparatus G1. The area utilization rate may be a ratio of these areas. The installation location is a location where a solar panel is installed in the customer 102. The roof type is the type of roof of the customer 102.

  The examination unit 36 performs load calculation of the customer 102 when the solar power generation device G1 is provided, and calculates the calculation result and a load limit (for example, 20 kg / m 2) determined in advance by, for example, the Building Standard Law. Comparing and creating loading data based on the comparison result.

  Furthermore, the examination unit 36 is necessary for performing the work for installing the solar power generation device G1 in the customer 102 based on the specifications of the solar panel indicated in the device information, various laws indicated in the legal information, and the like. Qualifications, conditions, etc. necessary to meet the qualification, green space substitution effect, renewable energy feed-in tariff system. Note that various laws and regulations include, for example, the Electricity Business Law, the Building Standard Law, the Construction Location Law, and the like.

=== Calculation unit ===
Hereinafter, the calculation unit in the present embodiment will be described with reference to FIGS.
The calculation unit 37 calculates the power generation amount, the power purchase amount, the power sale amount, the power purchase amount, the power sale amount, and the running cost based on the power information, the solar radiation amount information, the device information, and the calculation result of the first server 51. The description will be made separately for the case where the method in which the customer 102 owns the facility or the method in which the contracted service is adopted is selected, and the case in which the method in which the roof rental business is adopted is selected.

= When a method of owning equipment or a method of employing a contract service is selected =
The calculation unit 37 calculates a power generation amount, a power purchase amount, a power sale amount, a power purchase amount, a power sale amount, and a running cost for each power sale category.

<Power generation>
The calculating part 37 calculates the electric power generation amount of the solar power generation device G1 based on solar radiation amount information, apparatus information, input information, etc. The input information is information input from the input device 35 and indicates, for example, the type of solar panel that the customer 102 is considering, the installation location of the solar power generation device G1, the area utilization rate in the customer 102, and the like. Contains information. The solar radiation amount information and the input information correspond to the second information.

  Specifically, the calculation unit 37 calculates the amount of power generation based on the amount of solar radiation in the past at the location of the customer 102, the type of solar panel of the selected solar power generation device G1, the installation location, the area utilization rate, and the like. To do. The calculating part 37 calculates each power generation amount of each inclination angle and each azimuth angle of the solar panel of the solar power generation device G1, and selects the optimum inclination angle and the optimum azimuth angle according to the power sale classification.

  When private consumption is selected as the power sale category, the calculation unit 37 selects an inclination angle and an azimuth angle at which the power generation amount is equal to or less than the power consumption amount and the power generation amount is maximum as the optimum inclination angle and the optimum azimuth angle, respectively. To do. In addition, when surplus power sale is selected as the power sale category, the calculation unit 37 sets the inclination angle and the azimuth angle at which the power generation amount is larger than the power consumption amount and the power generation amount is the maximum, respectively, the optimum inclination angle and the optimum Select as azimuth angle. In addition, when the total power sale is selected as the power sale category, the calculation unit 37 sets the inclination angle and the azimuth angle at which the power generation amount is the maximum regardless of the relationship between the power generation amount and the power consumption amount, respectively. Select as angle and optimum azimuth angle.

  For example, the calculation unit 37 calculates the first power generation amount when the tilt angle is 20 ° and the azimuth angle is south, the second power generation amount when the tilt angle is 20 ° and the azimuth angle is east, The third power generation amount when the angle is 20 ° and the azimuth angle is north is calculated. When the first power generation amount is larger than the power consumption amount, the second and third power generation amounts are equal to or less than the power consumption amount, and the second power generation amount is larger than the third power generation amount, self-consumption Is selected, the computing device 37 selects 20 ° as the optimum tilt angle and selects east as the optimum azimuth angle. In this case, when surplus power sale is selected as the power sale classification, the arithmetic unit 37 selects 20 ° as the optimum inclination angle and selects south as the optimum azimuth angle. Further, in this case, when the total power sale is selected as the power sale category, the arithmetic unit 37 selects 20 ° as the optimum inclination angle in the same manner as when the surplus power sale is selected as the power sale category. And select south as the optimum azimuth.

<Amount of electricity purchased>
The calculation unit 37 calculates a power purchase amount based on the power generation amount (also referred to as “optimal power generation amount”) corresponding to the optimum tilt angle and the optimum azimuth angle and the past power consumption amount indicated in the power information. Note that the past power consumption may be, for example, the power consumption on the first day of the past day, or the power consumption and the average value for each time zone on a plurality of days. Specifically, the arithmetic unit 37 calculates the amount of electric power purchased based on the difference between the past power consumption in each time slot in one day and the optimum power generation in each time slot in one day.

  When private consumption is selected as the power sale category, the computing device 37 calculates the difference in the optimum power generation amount in each time zone with respect to the past power consumption in each time zone as the power purchase amount. When surplus power sale is selected as the power sale category, the arithmetic unit 37 sets the power purchase amount to 0 and the optimum power generation amount is the power consumption in the time zone when the optimum power generation amount is larger than the power consumption amount. In a time zone that is less than or equal to the amount, the difference between the optimum power generation amount and the power consumption amount is calculated as the power purchase amount. When the total power sale is selected as the power sale category, the calculation unit 37 uses the power consumption as the power purchase amount regardless of the relationship between the optimum power generation amount and the power consumption amount.

<Amount of electricity sold>
The computing device 37 calculates the power sale amount based on the optimum power generation amount and the past power consumption amount indicated in the power information. Specifically, the arithmetic unit 37 calculates the amount of power sales based on the difference between the past power consumption in each time slot on the day and the optimum power generation amount on each time slot on the day.

  When private consumption is selected as the power sale category, the computing device 37 sets the power sale amount to zero. In addition, when surplus power sale is selected as the power sale category, the arithmetic unit 37 sets the power sale amount to 0 and the optimum power generation amount is the power consumption in the time zone when the optimum power generation amount is less than or equal to the power consumption amount. In the time zone when the amount is larger than the amount, the difference in the power consumption with respect to the optimum power generation amount is calculated as the power sale amount. When the total power sale is selected as the power sale category, the calculation unit 37 sets the optimum power generation amount as the power sale amount regardless of the relationship between the optimum power generation amount and the power consumption amount.

<Purchase amount>
The calculation unit 37 calculates the power purchase amount based on the power purchase unit price, the power purchase amount, the power purchase period, and the like. The calculation unit 37 calculates, for example, an amount determined according to the product of the power purchase unit price, the power purchase amount, and the power purchase period as the power purchase amount. The power purchase unit price may be determined according to, for example, a power sale category, a power purchase amount, and a power sale amount. The calculation unit 37 calculates the amount of power purchased when each power sale category is selected.

<Amount of electricity sold>
The computing unit 37 calculates the amount of power sold based on the power selling unit price, the amount of power sold, the power selling period, and the like. For example, the calculation unit 37 calculates an amount determined according to the product of the power sale unit price, the power sale amount, and the power sale period as the power sale amount. Note that the power selling unit price may be set to a fixed amount regardless of the power selling category, the amount of power purchased, the amount of power sold, or may be determined according to these. The calculation unit 37 calculates the amount of power sold when each power sale category is selected.

<Running cost>
The calculating part 37 calculates the difference of the electric power sales amount with respect to the electric power purchase amount in each electric power sale classification as a running cost.

= When the method of adopting the roof lending business is selected =
<Amount of electricity purchased>
The calculation unit 37 uses the power consumption as the amount of power purchased.

<Purchase amount>
The calculation unit 37 calculates the power purchase amount based on the power purchase unit price, the power purchase amount, the power purchase period, and the like. The calculation unit 37 calculates, for example, an amount determined according to the product of the power purchase unit price, the power purchase amount, and the power purchase period as the power purchase amount.

<Running cost>
The calculating part 37 calculates the difference of the amount of the rent with respect to the amount of electricity purchased as a running cost.

  Note that, when the method of adopting the roof lending business is selected, the solar power generation device G1 is used by the roof leasing business company 106, so that the power generation amount, the power sale amount, and the power sale amount at the customer 102 are any. Is also set to zero.

=== Evaluation part ===
Hereinafter, the evaluation unit according to the present embodiment will be described with reference to FIGS.

  The evaluation unit 38 evaluates the introduction effect of the solar power generation device G1 based on the calculation result of the calculation unit 37. The evaluation unit 38 evaluates economic efficiency, environmental performance, energy saving performance, operability, maintainability for each introduction method and each power sale classification, and evaluation information D1 to D3 (examination information) indicating the evaluation results. Create The evaluation information D1 to D3 may include loading data and qualification data.

<Evaluation of economic efficiency>
The evaluation of economy indicates that an economic merit relating to the power of the customer 102 when the solar power generation device G1 is introduced is evaluated based on the initial cost, the running cost, and the like. The evaluation unit 38 indicates the cost result based on a comparison between the total of the initial cost and the running cost (also referred to as “total cost”) and the first and second cost thresholds. Note that the first cost threshold is set to a value larger than the second cost threshold.

  For example, when the total cost is smaller than the second cost threshold value, the evaluation unit 38 evaluates the rank A indicating that the economic merit is relatively high. For example, when the total cost is greater than the first cost threshold, the evaluation unit 38 evaluates the C rank indicating that the economic merit is relatively small. Further, for example, when the total cost is between the first and second cost threshold values, it is evaluated as B rank indicating that the economic merit is between A rank and C rank.

<Environmental evaluation>
The evaluation of the environmental property indicates that the degree of contribution to the protection of the global environment when the solar power generation device G1 is introduced is evaluated based on the amount of power purchased. The evaluation unit 38 evaluates the environmental performance based on the product of the amount of electricity purchased and the carbon dioxide emission basic unit as a constant. The carbon dioxide emission basic unit is a constant for calculating the amount of carbon dioxide discharged based on the power generation by the generator 101 (FIG. 1), and is determined in advance. The evaluation part 38 evaluates environmental property using A thru | or C rank similarly to evaluation of economical efficiency. The evaluation information D1 to D3 may include information indicating the product of the amount of power purchased and the carbon dioxide emission basic unit as information indicating the carbon dioxide emission amount.

<Evaluation of energy conservation>
The evaluation of energy saving is an evaluation related to energy saving of power generated by the generator 101. The evaluation unit 38 evaluates the energy saving performance based on the product of the amount of power purchased and the primary energy conversion coefficient as a constant. The amount of electricity purchased and the primary energy conversion coefficient are constants for calculating the amount of primary energy consumed during power generation by the generator 101 (FIG. 1), and are determined in advance. . The evaluation part 38 evaluates energy-saving property using A thru | or C rank similarly to evaluation of economical efficiency. The evaluation information D1 to D3 may include information indicating the product of the amount of power purchased and the primary energy conversion coefficient as information indicating the consumption amount of the primary energy.

  The evaluation unit 38 evaluates the operability, maintainability, and the like of the photovoltaic power generation apparatus G1 for each introduction method using the A to C ranks as in the case of economic evaluation.

=== Operation ===
Hereinafter, with reference to FIG. 10, the introduction study apparatus in the present embodiment will be described. FIG. 10 is a flowchart showing the operation of the introduction study apparatus in this embodiment.

  The introduction study device 3 accepts input information (step St11). The introduction study device 3 creates loading data or qualification data based on the legal information and device information (step St12). The introduction study device 3 calculates the optimum power generation amount according to the selected power sale category (step St13). If the optimum power generation amount is not calculated, the introduction study device 3 may end the operation. The case where the optimal power generation amount is not calculated is, for example, the case where the power generation amount does not exceed the power consumption amount even though surplus power sales are selected as the power sale category. In this case, for example, the area utilization rate or the like is adjusted by the user of the introduction study apparatus 3 and input information is input to the introduction study apparatus 3 again.

  The introduction study device 3 acquires power information from the third database 43 (step St14). The introduction study device 3 calculates a power purchase amount (step St15). The introduction study device 3 calculates a power sale amount (step St16). The introduction study device 3 determines the introduction needs (step St17). In judging the introduction needs, the introduction study device 3 judges evaluation items that are particularly emphasized by the customer 102 when considering the introduction of the solar power generation device G1. For example, the input information includes needs information indicating any one of economic evaluation, environmental evaluation, and energy saving evaluation, and the introduction examination apparatus 3 requires the evaluation indicated in the needs information. Judge that the evaluation is viewed.

  The introduction study device 3 determines the introduction method selected by the customer 102 (step St18). For example, the input information includes introduction information indicating any one of a method of owning equipment, a method of employing a contracted service, and a method of employing a roof rental business. It is determined that the method being selected is the method selected by the customer 102. The introduction study device 3 performs economic evaluation, environmental evaluation, energy saving evaluation, and the like in the introduction method determined in step St18 (step St19).

  The introduction study device 3 determines whether or not the evaluation result in step St19 satisfies the standard (step St20). When the evaluation result corresponding to the determination in step St17 is B rank or higher, the introduction study device 3 assumes that the evaluation result satisfies the standard (YES in step St20), and in step St18 of the evaluation information D1 to D3. After outputting information corresponding to the determined introduction method, the operation is terminated. The output of information may be, for example, displaying the information on the display device 34, or transmitting the information to another terminal device or the like via the communication device 32. . The function of the introduction evaluation device 3 that outputs the information corresponds to the output device. If the evaluation result corresponding to the determination in step St17 is not B rank or higher, the introduction study device 3 assumes that the evaluation result does not satisfy the standard (NO in step St20), and does not output the evaluation information D1 to D3. End the operation. Note that the evaluation information D1 to D3 output in step St21 is used by the customer 102 to consider introduction of the solar power generation device G1.

  As described above, the introduction study device 3 includes the communication device 32, the input device 35, the calculation unit 37, and the evaluation unit 38. The communication device 32 receives the power information indicating the power consumption of the customer 102 considering the introduction of the solar power generation device G1 and the solar radiation amount information that determines the power generation amount of the solar power generation device G1. That is, power information and solar radiation amount information are input to the communication device 32. Input information for determining the power generation amount of the solar power generation device G1 is input to the input device 35. The calculation unit 37 and the evaluation unit 38 are based on the power information, the amount of solar radiation information, and the input information, and the photovoltaic power generation according to each power sale classification and each introduction method as a usage pattern of the solar power generation device G1 by the customer 102. A calculation is performed on the effect of introducing the device G1. The introduction evaluation device 3 outputs evaluation information D1 to D3 for the customer 102 to consider introduction of the solar power generation device G1 based on the calculation results of the calculation unit 37 and the evaluation unit 38. With these configurations, the introduction study device 3 provides the evaluation information D1 to D3 about the introduction effect of the solar power generation device G1 according to each power sale classification and each introduction method, for example, so that the solar power generation device G1 Introduction can be promoted. Further, in the introduction study device 3, for example, manual calculation by a seller who sells the photovoltaic power generation device G1 for outputting the evaluation information D1 to D3 becomes unnecessary. Therefore, accurate evaluation information D1 to D3 can be provided in a relatively short time.

  In addition, when private consumption is selected as the power sale category, the calculation unit 37 and the evaluation unit 38 are economical about the introduction of the solar power generation device G1 according to the difference between the power consumption and the power generation amount. Perform the operation. The introduction study device 3 outputs evaluation information D1 to D3 including information on economics when the customer 102 introduces the solar power generation device G1. With these configurations, it is possible to output information about economics when the solar power generation device G1 is introduced. Therefore, the introduction of the solar power generation device G1 can be promoted by providing the consumer 102 with information on the economy.

  In addition, when surplus power sale is selected as the power sale category, the calculation unit 37 and the evaluation unit 38 determine the amount corresponding to the difference between the power generation amount and the power consumption amount when the power generation amount is equal to or less than the power consumption amount. Amount of power purchased to purchase the amount of power (purchased amount) and the amount of power sold to sell the amount of power corresponding to the difference between the amount of power consumed and the amount of power generated when the amount of power generated is greater than the amount of power consumed ) To calculate the running cost based on the difference. The introduction study device 3 outputs evaluation information D1 to D3 including information on the economy indicating the running cost. Therefore, the introduction of the photovoltaic power generation apparatus G1 can be promoted by providing a specific running cost to the customer 102.

  When the method in which the customer 102 adopts the roof lending business is selected as the introduction method, the calculation unit 37 and the evaluation unit 38 purchase the amount of power to purchase the amount of power corresponding to the amount of power consumption, and the rent. The difference from the amount is calculated as the running cost. The introduction study device 3 outputs evaluation information D1 to D3 including information on the economy indicating the running cost. With these configurations, the introduction of the photovoltaic power generation apparatus G1 can be promoted by providing the customer 102 with a specific running cost when the method of adopting the roof rental business is selected.

  In addition, when private consumption is selected as the power sale category, the calculation unit 37 and the evaluation unit 38 are based on the product of the amount of power purchased corresponding to the difference between the power consumption and the power generation amount and the basic unit of carbon dioxide emissions. The amount of carbon dioxide emitted when the power supplied from the power plant to the customer 102 is generated at the power plant is calculated. The introduction study device 3 outputs evaluation information D1 to D3 including information on the environmental property indicating the emission amount of carbon dioxide. With these configurations, it is possible to output information about environmental properties when the solar power generation device G1 is introduced. Therefore, the introduction of the photovoltaic power generation apparatus G1 can be promoted by providing the consumer 102 with information on the environmental property.

  When private consumption is selected as the power sale category, the calculation unit 37 and the evaluation unit 38 generate power based on the product of the power purchase amount corresponding to the difference between the power consumption amount and the power generation amount and the primary energy conversion coefficient. The amount of primary energy consumed for generating electric power supplied from the station to the customer 102 at the power station is calculated. The introduction study device 3 outputs the evaluation information D1 to D3 including information on energy saving indicating the consumption amount of primary energy. With these configurations, it is possible to output information on energy saving performance when the solar power generation device G1 is introduced. Therefore, the introduction of the solar power generation device G1 can be promoted by providing the customer 102 with information on the energy saving performance.

  The present embodiment is intended to facilitate understanding of the present invention, and is not intended to limit the present invention. The present invention can be changed and improved without departing from the gist thereof, and the present invention includes equivalents thereof.

  In the present embodiment, it has been described that the evaluation information D1 to D3 is output when the criterion is satisfied in step St20 (FIG. 10), but the present invention is not limited to this. For example, the evaluation information D1 to D3 may be output regardless of the determination result of step St20.

  Moreover, although this embodiment demonstrated that the introduction consideration apparatus 3 outputs the evaluation information D1 thru | or D3 for performing examination of introduction | transduction of the solar power generation device G1, it is not limited to this. For example, the introduction study device 3 may output evaluation information for studying the introduction of the wind power generation device.

3 Introduction Study Device 32 Communication Device 33 Storage Device 35 Input Device 37 Calculation Unit 38 Evaluation Unit 102 Customer 106 Roof Rental Business Company G1 Solar Power Generation Device

Claims (7)

An input device to which first information indicating power consumption of a consumer considering introduction of a distributed power source and second information for determining the power generation amount of the distributed power source are input;
An arithmetic device that performs an operation on the introduction effect of the distributed power source according to the usage form of the distributed power source by the consumer based on the first and second information input to the input device;
Based on the calculation result of the arithmetic device, an output device that outputs examination information for the consumer to consider introduction of the distributed power source; and
A distributed power supply introduction study system characterized by comprising The usage mode is a mode in which the consumer consumes the generated power of the distributed power source,
The arithmetic device performs an operation on economics when the distributed power source is introduced according to a difference between the power consumption and the power generation amount,
The said output device outputs the information about the economical efficiency at the time of the said customer introducing the said distributed power supply as said examination information. The introduction study system of the distributed power supply of Claim 1 characterized by the above-mentioned. The usage mode is a mode of selling an amount of power according to the difference of the power consumption with respect to the power generation when the power generation is greater than the power consumption,
The arithmetic unit is configured to purchase a purchase amount for purchasing an amount of power corresponding to a difference between the power generation amount and the power consumption amount when the power generation amount is equal to or less than the power consumption amount, and the power generation amount is the power consumption amount. Calculating the difference between the amount of power sold according to the difference in power consumption relative to the amount of power generated when the amount is greater than the amount sold,
The distributed output introduction study system according to claim 1, wherein the output device outputs, as the study information, information on economy indicating an amount corresponding to the difference. In the usage mode, the consumer provides the installation location of the distributed power source to the user who uses the distributed power source different from the consumer, and the consideration for the provision of the installation location is the user. To be paid to the consumer,
The arithmetic device calculates a difference between a purchase amount for purchasing an amount of power according to the power consumption and the amount of the consideration,
The distributed output introduction study system according to claim 1, wherein the output device outputs, as the study information, information on economy indicating an amount corresponding to the difference. The usage mode is a mode in which the consumer consumes the generated power of the distributed power source,
The computing device is configured to calculate a carbon dioxide emission amount when the power supplied from the power plant to the consumer is generated at the power plant based on a product of the power consumption and the difference between the power generation amount and a constant. Calculate
The said output device outputs the information about the environmental property which shows the discharge | emission amount of the said carbon dioxide as said examination information. The introduction study system of the distributed power supply of Claim 1 characterized by the above-mentioned. The usage mode is a mode in which the consumer consumes the generated power of the distributed power source,
The arithmetic unit calculates a consumption amount of primary energy for generating electric power supplied from the power plant to the consumer at the power plant based on a product of the power consumption and the difference between the power generation amount and a constant. Calculate
2. The distributed power supply introduction study system according to claim 1, wherein the output device outputs information on energy saving indicating the consumption amount of the primary energy as the study information. Based on the first information indicating the power consumption of the consumer considering the introduction of the distributed power source and the second information defining the power generation amount of the distributed power source, according to the usage form of the distributed power source by the consumer A first step of performing an operation on the introduction effect of the distributed power source;
A second step of outputting examination information for the customer to consider introduction of the distributed power source based on a computation result of the computing device; and a method for examining the introduction of the distributed power source.

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