JP2008131841A - Utilizing method of renewable energy, utilization system of renewable energy, and information management device of renewable energy - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To promote utilization of renewable energy, and promote popularization of electric vehicles. <P>SOLUTION: A wind power generation/storage station 11, a small-scale hydraulic power generation/storage station 21, a solar photovoltaic power generation/storage station 31, a refuse power generation/storage station 41, and a biomass power generation/storage station 51 generate electrical energy from the renewable energy, and accumulate in a storage battery. Using the electrical energy accumulated in the storage battery, a wind power charging stand 12, a small-scale hydraulic power charging stand 22, a solar photovoltaic charging stand 32, a refuse charging stand 42, and a biomass charging stand 52 charge a storage battery of a mobile body using electricity such as the electric vehicles. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a renewable energy utilization method, a renewable energy utilization system, and a renewable energy information management apparatus that can promote utilization of a mobile body that utilizes electricity such as renewable energy and an electric vehicle. Here, renewable energy is energy that can be regenerated, such as wind power, solar energy, mini hydropower, and biomass energy (biological resource energy).

  Renewable energy power generation using renewable energy, such as wind power generation, solar power generation, and mini hydroelectric power generation, is different from hydroelectric power generation that uses oil. Development of technology to promote use is in progress.

  For example, Patent Document 1 promotes renewable energy power generation by evaluating as an added value that renewable energy power generation is environmentally friendly and has a low environmental load, and providing a virtual market for value-added transactions. A renewable energy power generation value added evaluation system is described.

JP 2001-306755 A

  However, renewable energy power generation is effective for power systems because the source of renewable energy, which is the source of energy generation, and the location of energy use (demand) are often far from each other and the output reliability is not high. There are problems that the cost of connection (supply / demand balance, quality adjustment, etc.) is high, and the existing system (customers to be used) is often adversely affected.

  On the other hand, in mobiles such as automobiles, the use of petroleum removal and renewable energy is delayed. For this reason, it has been studied to use renewable energy by converting it to hydrogen, but there is a problem that the cost of generating, storing, transporting and using hydrogen is higher than that of existing fuels and electric energy.

  The present invention was made to solve the above-described problems caused by the prior art, and a renewable energy utilization method capable of promoting the use of renewable energy and a mobile body that uses electricity such as an electric vehicle, An object is to provide a renewable energy utilization system and a renewable energy information management device.

  In order to solve the above-described problems and achieve the object, the invention according to claim 1 includes a renewable energy power generation process for generating power using renewable energy, and a mobile storage battery that moves by taking out electric energy from the storage battery. And a mobile charging step of charging using the electric energy generated by the power generation by the renewable energy power generation step.

  According to the first aspect of the present invention, power generation is performed using renewable energy, and a mobile storage battery that moves by taking out electrical energy from the storage battery is charged using electrical energy generated by the renewable energy power generation. As a result, the renewable energy power can be used without connecting the renewable energy power plant to the power system.

  According to a second aspect of the present invention, a renewable energy power generation unit that generates power using renewable energy, and a mobile storage battery that moves by extracting electric energy from the storage battery are generated by the power generation by the renewable energy power generation unit. And a mobile charging means for charging using the generated electrical energy.

  According to the invention of claim 2, the power generation is performed using the renewable energy, and the mobile storage battery that moves by taking out the electrical energy from the storage battery is charged using the electrical energy generated by the renewable energy power generation. As a result, the renewable energy power can be used without connecting the renewable energy power plant to the power system.

  The invention according to claim 3 is the above-described invention, wherein the fuel generating means for generating synthetic fuel by biomass energy or waste energy, and the synthetic fuel generated by the fuel generating means on a moving body that moves using the synthetic fuel. And a fuel supply means for supplying the fuel.

  According to the third aspect of the present invention, since the synthetic fuel is generated by the biomass energy or the waste energy and the generated synthetic fuel is supplied to the moving body that uses the synthetic fuel, the synthetic fuel is also regenerated in the form of the synthetic fuel. Possible energy can be used.

  The invention according to claim 4 further comprises a renewable energy information management means for managing information relating to renewable energy in the above invention, wherein the renewable energy information management means is used for charging by the mobile charging means. Information collecting means for collecting information including the amount of electric energy held, and information providing means for providing the information collected by the information collecting means to a user of the mobile unit.

  According to the fourth aspect of the present invention, since the information including the amount of electric energy used for charging is collected and the collected information is provided to the user of the mobile object, the user can use the renewable energy. It is possible to know whether or not the generated electrical energy is available.

  According to a fifth aspect of the present invention, in the above invention, the renewable energy information management means predicts an amount of electric energy generated by a predetermined time ahead by power generation by the renewable energy power generation means. Means, consumption amount prediction means for predicting the amount of electric energy consumed by charging the storage battery by the mobile body charging means up to a predetermined time ahead, the amount of electric energy collected by the information collection means, the power generation A holding amount prediction unit for predicting a holding amount of electric energy of a predetermined time ahead based on the amount of electric energy predicted to be generated by the amount prediction unit and the amount of electric energy predicted to be consumed by the consumption amount prediction unit. And the information providing means maintains electrical energy for a predetermined time predicted by the possession amount predicting means. And providing the amount.

  According to the fifth aspect of the present invention, the amount of electric energy generated by a predetermined time ahead by power generation is predicted, the amount of electric energy consumed by a predetermined time ahead by charging is predicted, and the collected electric energy Based on the amount of electricity stored, the amount of electric energy generated and the amount of electric energy consumed, the amount of electric energy held for a predetermined time ahead is predicted, and the amount of electric energy held for the predetermined time ahead is provided. Therefore, the user can consider the use of renewable energy without taking the risk of consuming electrical energy or synthetic fuel while moving to a charging station or synthetic fuel filling station.

  The invention according to claim 6 is the price according to the above invention, wherein the renewable energy information management means accepts input of market price information related to charging to the mobile body and calculates a charge price lower than the market price. It further has a calculation means.

  According to the sixth aspect of the present invention, since it is configured to accept the input of market price information relating to charging to the mobile body and calculate a charge price lower than the market price, the user is motivated to use renewable energy. Can do.

  The invention according to claim 7 is the above invention, wherein the renewable energy power generation means includes at least one of a wind power plant, a mini hydropower plant, a solar power plant, a garbage power plant, and a biomass power plant. It is characterized by that.

  According to the invention of claim 7, since it is configured to include at least one of a wind power plant, a mini hydropower plant, a solar power plant, a garbage power plant, and a biomass power plant, the renewable energy suitable for the region is provided. Can be used.

  In the invention according to claim 8, the amount of energy held from a renewable energy power plant that generates electric energy for charging a moving storage battery by taking out electric energy from the storage battery by power generation using the renewable energy. Renewable energy information management comprising charging information collecting means for collecting information including charging information providing means for providing information collected by the charging information collecting means to a user of the mobile object Device.

  According to the eighth aspect of the present invention, the amount of energy held from a renewable energy power plant that generates electrical energy for charging a storage battery of a mobile body that moves by taking out the electrical energy from the storage battery by power generation using the renewable energy. Since the collected information is collected and the collected information is provided to the mobile user, the user can know whether or not the electric energy generated from the renewable energy is available. .

  According to the first and second aspects of the present invention, the renewable energy power generation can be used without connecting the renewable energy power plant to the power system. There is no adverse effect on the system, and the use of renewable energy can be promoted.

  Further, according to the invention of claim 3, since the renewable energy can be used even in the form of the synthetic fuel, there is an effect that the use of the renewable energy can be further promoted.

  According to the inventions of claims 4 and 8, since the user can know whether or not the electric energy generated from the renewable energy is in a usable state, the use of the renewable energy is further promoted. There is an effect that can be done.

  According to the invention of claim 5, the user considers the use of renewable energy without taking the risk of consuming electric energy or synthetic fuel while moving to a charging station or synthetic fuel filling station. As a result, it is possible to further promote the use of renewable energy.

  Moreover, according to the invention of claim 6, since the use of renewable energy is motivated to the user, there is an effect that the use of renewable energy can be promoted.

  Further, according to the invention of claim 7, since the renewable energy suitable for the region can be used, there is an effect that the use of the renewable energy can be promoted.

  Exemplary embodiments of a renewable energy utilization method, a renewable energy utilization system, and a renewable energy information management apparatus according to the present invention will be described below in detail with reference to the accompanying drawings.

  First, the configuration of the renewable energy utilization system according to the present embodiment will be described. FIG. 1 is an explanatory diagram for explaining a configuration of a renewable energy utilization system according to the present embodiment. As shown in the figure, in this renewable energy utilization system, a renewable energy information management device 100 that manages information on renewable energy includes a wind power storage station 11, a wind charging station 12, a mini hydropower storage station 21, Mini hydroelectric charging station 22, solar power storage station 31, solar power charging station 32, garbage power storage station 41, garbage charging station 42, biomass power storage station 51, biomass charging station 52, waste energy synthetic fuel filling station 61, biomass It is configured to be connected to the synthetic fuel filling station 71 and the information display board 81 via the storage charge information network 82.

  The wind power storage station 11 is a power station that generates power using wind power, and stores electrical energy generated by the power generation in a storage battery. The wind charging station 12 is installed on a road close to the wind power storage station 11 and charges a storage battery of a mobile body that uses electricity such as an electric vehicle using the electrical energy stored in the storage battery of the wind power storage station 11. It is a stand.

  The mini hydropower storage station 21 is a small-scale power station that generates power using hydropower, and stores electrical energy generated by the power generation in a storage battery. The mini hydroelectric charging station 22 is installed on a road close to the mini hydroelectric power generation station 21 and uses a storage battery of a mobile body that uses electricity such as an electric vehicle using the electric energy stored in the storage battery of the mini hydroelectric power generation station 21. It is a stand for charging.

  The solar power storage station 31 is a power station that generates power using solar energy, and stores electrical energy generated by the power generation in a storage battery. The solar charging station 32 is installed on a road close to the solar power generation storage 31 and is a mobile storage battery that uses electricity such as an electric vehicle using the electrical energy stored in the storage battery of the solar power storage 31. It is a stand for charging.

  The waste generation power storage station 41 is a power generation station that generates power using garbage, and stores electrical energy generated by the power generation in a storage battery. The garbage charging stand 42 is installed on a road in the vicinity of the garbage generating power storage 41 and charges a mobile storage battery using electricity such as an electric vehicle using the electric energy stored in the storage battery of the garbage generating power storage 41. It is a stand. Although garbage is not a renewable energy source, here, waste power generation is included in renewable energy power generation.

  The biomass power generation station 51 is a power station that generates power using biomass energy, and stores the electrical energy generated by the power generation in a storage battery. The biomass charging stand 52 is installed on a road close to the biomass power generation station 51 and charges a mobile storage battery that uses electricity such as an electric vehicle using the electrical energy stored in the storage battery of the biomass power generation station 51. It is a stand.

  Each charging station, that is, the wind power charging station 12, the mini hydraulic charging station 22, the solar charging station 32, the garbage charging station 42, and the biomass charging station 52 are connected to a commercial power system, and each power generation station, When the wind power storage station 11, the mini hydropower storage station 21, the solar power storage station 31, the garbage power storage station 41, and the biomass power storage station 51 are not generating power, supply power from a commercial power system. In response, the storage battery of the mobile body can be charged.

  The waste energy synthetic fuel filling station 61 is a filling station that synthesizes fuel such as methanol and ethanol by waste energy and fills the synthesized fuel into an automobile, and the biomass synthetic fuel filling station 71 uses methanol and the like such as methanol and ethanol. It is a filling station that synthesizes fuel and fills the automobile with the synthesized fuel.

  The renewable energy information management apparatus 100 receives information such as the amount of energy held from each power generation station, information such as the amount of charge from each charging station, and fuel from each synthetic fuel filling station via the storage and charging information network 82. It is a device that collects and manages information such as quantity and fuel supply.

  In addition, the renewable energy information management apparatus 100 responds to inquiries from users via the Internet, such as the chargeable amount and price at each charging station, and the chargeable amount and price at each synthetic fuel filling station. Provide information. Further, the renewable energy information management apparatus 100 displays information such as the chargeable amount and price at each charging station and the chargeable amount and price at each synthetic fuel filling station on the information display board 81.

  The information display board 81 is a display board that displays the amount and price of electric energy held by each charging station and the amount and price of synthetic fuel held by each synthetic fuel filling station based on an instruction from the renewable energy information management apparatus 100. It is. The user of the charging station and the synthetic fuel filling station can select an appropriate charging station and the synthetic fuel filling station by viewing the information display board 81.

  As described above, in the renewable energy utilization system according to the present embodiment, each power generation station uses the renewable energy to generate electrical energy and store it in the storage battery, and each charging station uses the electrical energy stored in the storage battery. However, by charging a storage battery of a mobile body that uses electricity such as an electric vehicle, it is possible to use renewable energy generated power without connecting the renewable energy power plant to the power system.

  Therefore, it is not necessary to pursue advanced power quality, and it is possible to use the power generated by renewable energy generation without adversely affecting the existing power system, and promote the use of renewable energy. be able to. In addition, by setting the charging price at the charging station to be lower than that of charging with commercial power, it is possible to support the popularization of electric vehicles and contribute to the de-oiling of vehicles and the purification of local air.

  Further, in the renewable energy utilization system according to the present embodiment, each synthetic fuel filling station synthesizes fuel using waste and biomass, and provides the synthetic fuel to the moving body that runs using the synthetic fuel. Waste and biomass can be used effectively.

  In the renewable energy utilization system according to the present embodiment, the renewable energy information management apparatus 100 collects information on the renewable energy from each power generation station, charging station, and synthetic fuel filling station, and provides the user with renewable energy. By providing information on the user, the user can select an appropriate charging station or synthetic fuel filling station.

  In addition, this renewable energy utilization system is constructed | assembled for every area, such as a village and a town. Therefore, in each region, a renewable energy utilization system is constructed using renewable energy suitable for the region among wind power, mini hydropower, sunlight, garbage, and biomass.

  That is, in FIG. 1, for convenience of explanation, one wind power storage station 11, mini hydraulic power storage station 21, solar power generation power station 31, garbage power storage station 41, biomass power generation power station 51, and waste energy synthetic fuel filling station 61. Although the biomass synthetic fuel filling station 71 has been shown, a renewable energy utilization system can be constructed by a combination of any of these power generating stations and synthetic fuel filling stations. Alternatively, a renewable energy utilization system can be constructed by a plurality of renewable energy generating / storage stations using one kind of renewable energy.

  In FIG. 1, one charging station is shown corresponding to one power generation station, but one power generation station may supply electric energy to a plurality of charging stations. Conversely, one charging station can be supplied with electric energy from a plurality of power generation stations.

  In addition, here, each power plant is provided with a storage battery, but a storage battery may be provided on each charging stand side. Or it can also be made to utilize only the electric power currently generated, without providing a storage battery. Further, in FIG. 1, only one information display board 81 is shown for convenience of explanation, but in this renewable energy utilization system, a plurality of information display boards 81 can be provided.

  Here, the power generated at each power plant is not supplied to the power system, but only power that can be stably generated at each power plant is supplied to the power system, and unstable power is supplied to electric vehicles, etc. It can also be made to supply.

  For example, as shown in FIG. 2, AC power generated by the wind power generator 11a is converted into DC power using an AC-DC converter 11b and stored in a storage battery 11c. And only the electric power which the wind power generator 11a can generate | occur | produce stably is converted into alternating current power using the DC-AC converter 11d, and is supplied to an electric power grid | system. In this case, the storage battery 11c is installed near the charging stand, and the wind power generator 11a, the AC-DC converter 11b, and the DC-AC converter 11c are installed in the wind power plant. Then, direct current is transmitted between the wind power plant and the charging station.

  2 shows the case where the wind power generator 11a generates power with alternating current, the wind power generator may generate power with direct current and store it in the storage battery 11c. In that case, the AC-DC converter 11b becomes unnecessary.

  Next, the configuration of the renewable energy information management apparatus 100 will be described. FIG. 3 is a functional block diagram showing the configuration of the renewable energy information management apparatus 100. As shown in the figure, the renewable energy information management apparatus 100 includes a charging station information collection unit 110, a power generation information collection unit 120, a synthetic fuel filling information collection unit 130, a renewable energy information storage unit 140, an energy The possessed amount estimating unit 150, the price calculating unit 160, the display control unit 170, and the information providing unit 180 are included.

  The charging station information collection unit 110 is a processing unit that periodically collects information on the charging status from each charging station to the moving body and stores the information in the renewable energy information storage unit 140. Collect information such as the amount of charge on mobiles over time.

  The power generation information collection unit 120 is a processing unit that periodically collects information related to power generation and storage from each power generation station and stores it in the renewable energy information storage unit 140. For example, the current energy holding amount, the past Collect information such as the amount of power generated per hour.

  The synthetic fuel filling information collecting unit 130 periodically collects information on the synthesis and filling of fuel from each synthetic fuel filling station, that is, the waste energy synthetic fuel filling station 61 and the biomass synthetic fuel filling station 71, and renewable energy information. The processing unit is stored in the storage unit 140 and collects information such as the current amount of synthetic fuel held, the amount of synthesis and the amount of filling in the past hour, for example, every hour.

  The renewable energy information storage unit 140 is a storage unit that stores information collected by the charging station information collection unit 110, the power generation information collection unit 120, and the synthetic fuel filling information collection unit 130. Further, the renewable energy information storage unit 140 includes an energy holding amount of each charging station and a fuel holding amount of each synthetic fuel filling station, a price calculation unit 160 after one hour that the energy holding amount estimation unit 150 predicts periodically. Stores the price of each charging station and the price of each synthetic fuel filling station, which are periodically calculated by the operator.

  Based on the past power generation record and charge record stored in the renewable energy information storage unit 140, the energy possession amount estimation unit 150 stores the energy possession amount of each charging station and the fuel possession amount of each synthetic fuel filling station one hour later. And a prediction result is stored in the renewable energy information storage unit 140.

  Specifically, the energy holding amount estimation unit 150 predicts the power generation amount and fuel synthesis amount for the next hour, and also predicts the charge amount and the charge amount for the next hour from the past charging and filling actual values. The energy holding amount after one hour is predicted from the current holding amount, the power generation amount and fuel synthesis amount for the next hour, and the predicted values of the charging amount and the charging amount.

  The prediction of the power generation amount for the next hour is performed for the wind power storage station 11 using, for example, the past wind speed, the actual value of the power generation amount, and the predicted value of the future wind speed. Moreover, about the mini hydroelectric power generation station 21, the garbage power generation power station 41, and the biomass power generation power station 51, for example, it is performed using the past actual power generation value. Moreover, about the solar power generation electrical storage 31, it performs using the past weather, the actual value of power generation amount, and the future weather forecast, for example.

  In addition, the prediction of the fuel synthesis amount for the next hour is performed using, for example, the amount of waste for the waste energy synthetic fuel filling station 61, and using the amount of biomass for the biomass synthetic fuel filling station 71. .

  Here, the amount of energy held at each charging station and the amount of fuel held at each synthetic fuel filling station after 1 hour are predicted, but it is also possible to predict after 30 minutes or after 2 hours. it can.

  The price calculation unit 160 is a processing unit that periodically calculates the charging price at each charging station and the fuel price at each synthetic fuel filling station, and stores it in the renewable energy information storage unit 140. The price calculation unit 160 calculates the charging price based on the power generation cost of each power storage station, and the fuel price based on the fuel synthesis cost of each synthetic fuel filling station, but accepts input of information regarding the market price, The charging price and the fuel price are calculated so that, for example, 10% is lower than the market price.

  However, the price calculation unit 160 calculates the charging price based on the commercial power charge when each charging station receives power from the commercial power system and charges the storage battery of the automobile.

  The display control unit 170 is a processing unit that displays information related to renewable energy on the information display board 81 using information stored in the renewable energy information storage unit 140. FIG. 4 is a diagram illustrating an example of information regarding the charging station displayed on the information display board 81 by the display control unit 170. As shown in the figure, in this display, for each charging station, the name of the charging station, the name of the power generation station that supplies power to the charging station, the type of renewable energy, the amount of energy held and the price, the predicted energy after 1 hour The amount held is displayed.

  FIG. 5 is a diagram illustrating an example of information related to the synthetic fuel filling station displayed on the information display board 81 by the display control unit 170. As shown in the figure, in this display, for each synthetic fuel filling station, the name of the synthetic fuel filling station, the type of synthetic fuel, the current fuel holding amount and price, and the predicted fuel holding amount after one hour are displayed.

  The information providing unit 180 is a processing unit that receives a request for providing information on renewable energy from a user via the Internet and provides the information. For example, the information providing unit 180 provides the user with information as illustrated in FIGS. 4 and 5. To do.

  Next, the process procedure of the renewable energy information update process periodically performed by the renewable energy information management apparatus 100 will be described. FIG. 6 is a flowchart illustrating a processing procedure of the renewable energy information update process that is periodically performed by the renewable energy information management apparatus 100.

  As shown in the figure, in this renewable energy information update process, the renewable energy information management apparatus 100 collects and reproduces information such as charging results from each charging station to the moving body by the charging station information collection unit 110. It stores in the possible energy information storage unit 140 (step S101).

  Then, the power generation information collection unit 120 collects information such as the amount of energy held and the power generation result from each power storage station and stores it in the renewable energy information storage unit 140 (step S102). Information such as the fuel holding amount and the fuel synthesis performance is collected from the synthetic fuel filling station and stored in the renewable energy information storage unit 140 (step S103).

  Then, the energy holding amount estimation unit 150 predicts the power generation amount of each generating power storage station and the combined fuel amount of each synthetic fuel filling station for the next hour (step S104), and the electric energy of each charging station for the next hour. The consumption amount and the fuel consumption amount of each synthetic fuel filling station are predicted (step S105), and based on these prediction results, the predicted energy holding amount of each charging station and the predicted fuel holding amount of each synthetic fuel filling station one hour later Is calculated (step S106).

  Then, the price calculation unit 160 calculates the price based on whether it is the cost, the market price, or the electric power generated by the renewable energy (step S107), and the display control unit 170 displays the information on the information display board 81. Information display on renewable energy is updated (step S108).

  As described above, the energy holding amount estimation unit 150 calculates the predicted energy holding amount of each charging station and the predicted fuel holding amount of each synthetic fuel filling station after one hour, so that the user can charge the charging station and the synthetic fuel. The use of renewable energy can be considered without taking the risk of consuming electrical energy or synthetic fuel while moving to the filling station.

  As described above, in this embodiment, the wind power storage station 11, the mini hydropower storage station 21, the solar power generation station 31, the garbage generation power station 41, and the biomass power generation station 51 generate electric energy from renewable energy. The wind energy charging station 12, the mini hydroelectric charging station 22, the solar charging station 32, the garbage charging station 42, and the biomass charging station 52 use the electric energy generated and stored in the storage battery to store electricity in the electric vehicle or the like. Since the storage battery of the mobile body to be used is charged, it is possible to effectively use the electric power generated at each power storage station without connecting each power storage station to the power system.

  Further, in this embodiment, the waste energy synthetic fuel filling station 61 and the biomass synthetic fuel filling station 71 synthesize fuel from waste and biomass, respectively, and provide the synthetic fuel to the moving body using the synthetic fuel. Therefore, waste and biomass can be used effectively.

  Further, in this embodiment, the renewable energy information management device 100 collects information on renewable energy from each power storage station, each charging station, and each synthetic fuel filling station via the storage charge information network 82, and sends it to the user. Since information on renewable energy is provided, the user can select an appropriate charging station or synthetic fuel filling station.

  Further, in this embodiment, the energy holding amount estimation unit 150 of the renewable energy information management apparatus 100 calculates the predicted energy holding amount of each charging station and the predicted fuel holding amount of each synthetic fuel filling station after one hour. Therefore, the user can consider the use of renewable energy without taking the risk of consuming electrical energy or synthetic fuel while moving to a charging station or a synthetic fuel filling station.

  Further, in this embodiment, the price calculation unit 160 of the renewable energy information management apparatus 100 accepts input of information related to the market price, and calculates the charge price and the fuel price so as to be lower than the market price. , Can promote the use of renewable energy.

  In addition, although the present Example demonstrated the renewable energy information management apparatus, the renewable energy information management program which has the same function can be obtained by implement | achieving the structure which a renewable energy information management apparatus has with software. it can. Therefore, a computer that executes this renewable energy information management program will be described.

  FIG. 7 is a functional block diagram illustrating the configuration of a computer that executes a renewable energy information management program according to the present embodiment. As shown in the figure, the computer 200 includes a RAM 210, a CPU 220, an HDD 230, a LAN interface 240, an input / output interface 250, and a DVD drive 260.

  The RAM 210 is a memory that stores a program and a program execution result, and the CPU 220 is a central processing unit that reads the program from the RAM 210 and executes the program. The HDD 230 is a disk device that stores programs and data, and the LAN interface 240 is an interface for connecting the computer 200 to another computer and the storage / charge information network 82 via the LAN. The input / output interface 250 is an interface for connecting an input device such as a mouse or a keyboard and a display device, and the DVD drive 260 is a device for reading / writing a DVD.

  The renewable energy information management program 211 executed in the computer 200 is stored in the DVD, read from the DVD by the DVD drive 260, and installed in the computer 200. Alternatively, the renewable energy information management program 211 is stored in a database or the like of another computer system connected via the LAN interface 240, read from these databases, and installed in the computer 200. The installed renewable energy information management program 211 is stored in the HDD 230, read into the RAM 210, and executed by the CPU 220.

  As described above, the renewable energy utilization method, the renewable energy utilization system, and the renewable energy information management apparatus according to the present invention are useful for the utilization of renewable energy, and are particularly reproducible in areas such as towns and villages. Suitable for promoting energy use.

It is explanatory drawing for demonstrating the structure of the renewable energy utilization system which concerns on a present Example. It is a figure which shows the case where the electric power which can be generated stably in a wind power station is supplied to an electric power grid | system. It is a functional block diagram which shows the structure of the renewable energy information management apparatus. It is a figure which shows an example of the information regarding the charging station which a display control part displays on an information display board. It is a figure which shows an example of the information regarding the synthetic fuel filling place which a display control part displays on an information display board. It is a flowchart which shows the process sequence of the renewable energy information update process which a renewable energy information management apparatus performs regularly. It is a functional block diagram which shows the structure of the computer which performs the renewable energy information management program which concerns on a present Example.

Explanation of symbols

DESCRIPTION OF SYMBOLS 11 Wind power storage 11a Wind generator 11b AC-DC converter 11c Storage battery 11d DC-AC converter 12 Wind charging stand 21 Mini hydropower storage 22 Mini hydropower stand 31 Solar power storage 32 Solar charge stand 41 Garbage power storage station 42 Garbage charging station 51 Biomass power generation station 52 Biomass charging station 61 Waste energy synthetic fuel filling station 71 Biomass synthetic fuel filling station 81 Information display board 82 Storage charging information network 100 Renewable energy information management device 110 Charging station information Collection unit 120 Power generation information collection unit 130 Synthetic fuel filling information collection unit 140 Renewable energy information storage unit 150 Energy holding amount estimation unit 160 Price calculation unit 170 Display control unit 180 Information provision unit 200 Computer 210 RAM
211 Renewable Energy Information Management Program 220 CPU
230 HDD
240 LAN interface 250 I / O interface 260 DVD drive

Claims (8)

A renewable energy power generation process for generating power using renewable energy;
A mobile charging process for charging a storage battery of a mobile that moves by taking out electrical energy from the storage battery using electrical energy generated by power generation by the renewable energy power generation process;
Renewable energy utilization method characterized by including. Renewable energy power generation means for generating power using renewable energy;
Mobile charging means for charging a storage battery of a mobile that moves by taking out electric energy from the storage battery using electric energy generated by power generation by the renewable energy power generation means;
A renewable energy utilization system characterized by comprising: Fuel generating means for generating synthetic fuel from biomass energy or waste energy;
Fuel supply means for supplying the synthetic fuel generated by the fuel generation means to a moving body that moves using the synthetic fuel;
The renewable energy utilization system according to claim 2, further comprising: It further comprises a renewable energy information management means for managing information related to renewable energy,
The renewable energy information management means includes
Information collecting means for collecting information including the amount of electric energy used for charging by the mobile charging means;
Information providing means for providing information collected by the information collecting means to a user of the mobile unit;
The renewable energy utilization system according to claim 2 or 3, further comprising: The renewable energy information management means includes
Power generation amount prediction means for predicting the amount of electrical energy generated by a predetermined time ahead by power generation by the renewable energy power generation means;
Consumption prediction means for predicting the amount of electrical energy consumed by a predetermined time ahead by charging the storage battery by the mobile charging means;
A predetermined time ahead based on the amount of electrical energy collected by the information collection means, the amount of electrical energy predicted to be generated by the power generation amount prediction means, and the amount of electrical energy predicted to be consumed by the consumption amount prediction means A holding amount prediction means for predicting the holding amount of electric energy of
5. The renewable energy utilization system according to claim 4, wherein the information providing unit provides a stored amount of electrical energy ahead of a predetermined time predicted by the stored amount predicting unit. The renewable energy information management means includes
6. The use of renewable energy according to claim 4, further comprising price calculation means for receiving input of market price information related to charging to the mobile body and calculating a charge price lower than the market price. system.   The renewable energy power generation means includes at least one of a wind power plant, a mini hydropower plant, a solar power plant, a garbage power plant, and a biomass power plant. The renewable energy utilization system as described in one. Charging information collecting means for collecting information including energy holding amount from a renewable energy power plant that generates electric energy for charging a mobile battery that moves by taking out the electric energy from the storage battery by power generation using the renewable energy; ,
Charging information providing means for providing information collected by the charging information collecting means to a user of the mobile unit;
A renewable energy information management apparatus comprising:

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