JP2008202437A - Power generating system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power generation system capable of generating power without being influenced by weather conditions and an installation site. <P>SOLUTION: The power generation system 10 is provided with a photovoltaic cell 12 or the like, a generator 14, and a control device 16. The generator 14 is started by a motor 24 with using a storage battery 22 as a power source. The control device 16 stores electricity generated by power generation of the photovoltaic cell 12 or the like to the storage battery 22, and outputs the generated electric power 20 to a load 28 side when the storage battery 22 is fully charged. The generated electric power 26 of the generator 14 is output to the load 28 side, the electricity is stored in the storage battery 22 when the photovoltaic cell 12 or the like does not generate generated electric power 20, and outputs the same to the load 28 side when the storage battery 22 is fully charged. Consequently, stable power generation is materialized even with home power generation facilities which is easily influenced by weather conditions and the installation site. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a power generation system using an energy source.

  In recent years, in order to prevent global warming, reduction of carbon dioxide emissions has been cited. As a countermeasure, the use of power generation systems such as solar power generation and wind power generation using natural energy sources has been attracting attention in the past in order to reduce the amount of oil combustion, which is one of the causes of carbon dioxide emissions. Power generation systems using solar and wind power, which are clean energy sources, are power generation that does not emit carbon dioxide, and there is no risk of harming nature or the living environment. is there.

  The power generation system of solar power generation or wind power generation uses solar power or wind power as an energy source without worrying about resource depletion. In addition, the load power can be self-supplied, and surplus power can be sold to an electric power company, thereby reducing the amount of oil burned.

Here, a conventional residential solar power generation system will be described. FIG. 4 is a configuration diagram of a conventional residential power generation facility.
The conventional residential solar power generation system shown in FIG. 4 converts the direct current power 20 generated by the solar battery 12 into alternating current power (generated power) G via the power conditioner 34 to obtain the load power L of the house. This is a system that uses and sells surplus power P to the power company 36. When the generated power G is insufficient, commercial power Q can be purchased from the power company 36.

  In order to obtain a large amount of power generation in the solar power generation system, it is necessary to provide a large number of solar cells, and a relatively large area for installing the solar cells is required. However, in residential power generation facilities, the area where solar cells can be installed is limited, and a large amount of power generation cannot be obtained. In addition, in solar power generation and wind power generation, the amount of power generation depends on the weather conditions and installation location, and since it is not generated at night or in the absence of wind, there may be cases where sufficient power cannot be obtained. There was a problem that we had to rely on it.

Currently, a power generation system that can use the power generated by solar power generation or wind power generation without waste is provided (for example, Patent Document 1).
JP-A-11-332108

  The power supply and connection device of the wind power generator disclosed in Patent Document 1 temporarily stores the power generated by the wind power generator in a battery, and then boosts the power to the vicinity of the power selling voltage by the solar power generator. The power is sold to the commercial power system through the power conditioner. If the photovoltaic generator outputs a sufficient voltage, the power is sold, and if the photovoltaic generator output voltage is insufficient, the circuit is switched by a switch that receives a signal to that effect. Instead, it sells the power generated by the wind power generator that it has stored. While the power of the solar power generator is not sold, solar power that is not used for power sales is also stored in the battery. According to the above-mentioned supply connection device, a conventionally known power conditioner for photovoltaic power generation can be used, and it is not necessary to develop a new power conditioner for wind power generators, so that an inexpensive connection device can be provided. Further, since efficient and stable power can be supplied, power can be sold to the commercial power system.

  However, the above-mentioned supply connection device has a drawback in that the battery cannot be sold on the day when the power generation conditions are not satisfied, such as a day when the wind does not blow or a day when it is raining or cloudy, etc. was there.

  In order to solve the above-described drawbacks, an object of the present invention is to provide a power generation system capable of generating power without being influenced by weather conditions or an installation location.

  A power generation system according to the present invention includes a first generator that generates power using an energy source, a second generator that generates power by starting a motor, and supplies the generated power of the first generator to start the motor. And a control device that outputs the generated power of the two generators to the load side.

Further, a storage battery is provided as a power source of the motor, and the control device stores electricity generated by the power generation of the first generator in the storage battery.
In addition, the control device includes a charge / discharge controller, and the charge / discharge controller charges the storage battery with electricity generated by the power generation of the first generator and / or the second generator input to the control device. It is designed to stop when charging.
In addition, a power conditioner is provided on the load side, and the generated power of the first generator and / or the second generator is sold.

  The power generation system of the present invention is a power generation system that uses an energy source such as sunlight or wind power without using petroleum resources. This power generation system can reduce the amount of oil burned and reduce carbon dioxide emissions by self-supplying load power and selling surplus power to an electric power company.

  In addition, the power generation system of the present invention performs motor power generation using power obtained by solar power generation, wind power generation, etc., and outputs the generated power to the load side, so that stable power supply to the load side is possible. it can.

  Further, by storing electricity generated by power generation such as solar power generation or wind power generation in a storage battery, motor power generation can be performed using the storage battery as a power source. Thereby, it is possible to generate power even if there is a day when the power generation conditions such as solar power generation and wind power generation are not satisfied. Unlike conventional power generation systems, it is not affected by weather conditions or installation location.

  In addition, by providing the controller with a charge / discharge controller, the storage battery can be automatically charged with electricity generated by power generation, and the generated power of solar power generation or wind power generation and motor power generation generated at full charge Since it can output to the load side, a large amount of power generation can be obtained even in power generation using residential power generation equipment, and power can be sold.

  The present invention enables power generation even on days that do not satisfy the power generation conditions, and realizes self-sufficiency of load power and sale of power to an electric power company even in a residential power generation facility.

The power generation system of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram of a power generation system of the present invention. FIG. 2 is a diagram illustrating one embodiment of FIG.
The power generation system 10 of the present invention includes a solar cell or wind power generator 12 (hereinafter referred to as “solar cell 12”) as a first generator, a generator 14 as a second generator, and a control device 16. Is provided.
The solar cell 12 or the like converts a solar or wind energy source 18 into electric energy. The solar cell generates direct current electricity, the wind power generator generates alternating current electricity, and generated power 20 is generated.

The generator 14 is started by a motor 24 using the storage battery 22 as a power source. In the process of increasing the voltage of the storage battery 22, the motor 24 starts rotating from the voltage at which the necessary torque is obtained and gradually increases to the rated rotation. Further, the motor 24 may be started / stopped by turning on / off an operation switch (not shown).
In FIG. 1, it is assumed that the motor 24 is connected to and coupled to the generator 14. The generated power 26 of the generator 14 is output to the control device 16.

The control device 16 controls the input / output of the generated power 20 and 26 of the solar cell 12 and the generator 14. In the present embodiment, electricity generated by the power generation of the solar battery 12 or the like is stored in the storage battery 22, and when the storage battery 22 is fully charged, the generated power 20 and the generated power 26 of the generator 14 are output to the load 28 side. Further, when the generated power 20 of the solar battery 12 is not generated, the electricity generated by the power generation of the generator 14 is stored in the storage battery 22, and when the storage battery 22 is fully charged, the generated power 26 is output to the load 28 side.
In the power generation system 10 of the present invention, the control device 16 stores power in the storage battery 22, so that power generation by the generator 14 can be obtained. Even if the power generation condition is not satisfied, such as a day when the wind is not blown or a day when it is raining or cloudy, power can be generated any time as long as the storage battery 22 is charged. Moreover, when using the generator 14 which can be operated for 24 hours, it is also possible to generate electric power continuously for 24 hours. As a result, even in a residential power generation facility, load power can be self-supplied without relying on commercial power, and the surplus voltage can be sold to commercial power.

Next, an example of an embodiment of the present invention will be described with reference to FIG.
A power generation system 10 in FIG. 2 is a residential power generation system that uses DC power generated by a solar battery 12 or the like as residential load power and sells the surplus power to an electric power company. In FIG. 2, the components having the same reference numbers as those in FIG. 1 are the same as the components in FIG.
A solar cell array is used as the solar cell 12 or the like. A solar cell array is a product in which a plurality of solar cell modules are combined and placed on a stand in order to extract a large amount of electricity.

  The control device 16 includes a connection box 30 and a charge / discharge controller (charge controller) 32. The connection box 30 is a device that outputs the generated power 20 of the solar cell array 12 and the generated power 26 of the generator 14 to the power conditioner 34. In addition, a DC switch is built in to prevent reverse current flow and absorb surge (sudden overcurrent caused by lightning).

  The power conditioner 34 is an inverter that converts direct current power into alternating current power, and is consistent with the electrical system (voltage, frequency, number of phases, number of lines) of the system so that the direct current power can be connected to the power company 36 system. It has a function of converting to AC power.

The charge / discharge controller 32 monitors the voltage to store an appropriate range of electricity in the storage battery 22, stops charging when the storage battery 22 is fully charged, and starts charging when the voltage drops. In the present embodiment, when the voltage of the solar battery 12 increases with sunrise, the charge switch of the charge / discharge controller 32 is turned on, charging of the storage battery 22 is started, and when the overcharge set voltage is reached, the charge switch is turned off. On the other hand, when the voltage of the storage battery 22 decreases and reaches the overcharge recovery voltage, the charge switch is turned on again.
In FIG. 1, when the storage battery 22 is charged to a predetermined voltage by the charge / discharge controller 32, the motor 24 is started and the generator 14 generates generated power 26. The generated power 26 is output to the connection box 30 of the control device 16 and supplied to the load 28 (or the power conditioner 34) by the connection box 30.

  In addition, when the generated power 20 of the solar battery 12 or the like is not generated, the charge / discharge controller 32 stores the electricity generated by the power generation of the generator 14 in the storage battery 22 and stops charging when the storage battery 22 is fully charged. When the voltage drops, charging starts. When the storage battery 22 is fully charged, the generated power 20 of the solar battery 12 and the generated power 26 of the generator 14 are output to the load 28 side.

When a three-phase AC motor is used as the motor 24, an AC voltage is supplied to the motor 24 via the inverter 38. The motor 24 may be a direct current type motor.
Further, as in the present embodiment, when an AC generator is used as the generator 14, the generated power 26 is output to the connection box 30 via the rectifier 40. The generator 14 may be a direct current type.

The power generation facility of the present invention is connected to the power distribution network 36a of the power company 36. That is, the power generation system of the present invention is used in conjunction with the system. As a result, when the generated power G generated by the solar cell 12 and the generator 14 is larger than the load power L (G> L), it automatically flows to the grid of the power company 36 (reverse power flow), and the surplus voltage P ( = GL) can be sold. Conversely, when the generated power G is insufficient (G <L), the commercial power Q (= LG) can be automatically purchased from the grid of the power company 36.
According to the power generation system of the present invention, a stable power generation amount can be obtained by motor power generation by the generator 14 even if the power generation amount is a residential power generation facility whose power generation amount is easily affected by weather conditions and installation location.

  The power generation system of the present invention is not limited to the above embodiment. Even an embodiment that does not use the storage battery 22 can generate power (FIG. 3). In the case of FIG. 3, the control device 16 supplies the generated power 20 of the first generator 12 to start the motor 24 and outputs the generated power 26 of the second generator 14 to the load 28 side. By using the generator 14 that outputs a larger amount of generated power than the power generation of the conventional solar cell 12 or the like as the second generator 14, the generated power G can be stably supplied to the load 28 and the surplus power P can be purchased. It becomes possible.

  The power generation of the first generator in the present invention is not limited to solar power generation or wind power generation, but may be a generator using an energy source other than solar power or wind power such as waste power generation or biomass power generation.

It is a block diagram of the electric power generation system of this invention. It is a figure which shows one Embodiment of FIG. It is another block diagram of the electric power generation system of this invention. It is a block diagram of the conventional residential power generation equipment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Power generation system 12 Solar cell or wind power generator 14 Generator 16 Controller 18 Energy source 20 Generated power 22 Storage battery 24 Motor 26 Generated power 28 Load 32 Charge / discharge controller 34 Power conditioner

Claims (4)

A first generator that generates power using an energy source, a second generator that generates power by starting a motor, and supplies the generated power of the first generator to start the motor to generate power generated by the second generator. A power generation system comprising: a control device that outputs to a load side. 2. The power generation system according to claim 1, wherein a storage battery is provided as a power source of the motor, and the control device stores electricity generated by power generation of the first generator in the storage battery. The controller is provided with a charge / discharge controller, and the charge / discharge controller charges the storage battery with electricity generated by the power generation of the first generator and / or the second generator input to the controller, and at full charge The power generation system according to claim 2, wherein the power generation system is stopped. The power generation system according to any one of claims 1 to 3, wherein a power conditioner is provided on a load side, and the generated power of the first generator and / or the second generator is sold.

Images