JP2014197975A - Power generating system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a power generating system capable of restarting power generation by operating a controller or the like, using renewable energy from a stopping state of the whole system even when power supply is unavailable from the outside of the system.SOLUTION: A power generating system 100 includes: a solar panel 1; a power supply line 7 for inputting electric power generated at the solar panel 1; a DC-DC converter 41 for generating a control voltage; a PC 4; an input power control section 112a in which an operation command is given from the PC 4 and which controls electric power input into the power supply line 7 from the solar panel 1 using the control voltage according to the operation command; and a starting line 111 which outputs electric power generated by the solar panel 1 directly into the power supply line 7 under such a state that no control voltage is input into the input power control section 112a.

Description

  The present invention relates to a power generation system capable of restarting power generation using renewable energy from a state in which all systems are once stopped.

  Conventionally, a power generation system including a power generation device that uses renewable energy and a battery is known (Patent Document 1). Examples of the power generation device include a solar panel and a wind power generation device, and such a power generation system has a power generation amount that fluctuates depending on weather conditions and the like. The supplied power is stored in the battery, and when the amount of power generation decreases and the power to be supplied to the load or the like is insufficient, the insufficient power can be supplied from the battery. Moreover, when the stored electric power amount falls below a certain amount and electric power cannot be supplied from the battery to the load, the electric power output from the commercial power source can be supplied to the load or the like.

JP 2008-271704 A

  By the way, in the power generation system as described above, a converter is generally used for outputting electric power from the power generation device at a constant voltage. Since the converter operates under the control of the control device, the power generation amount from the power generation device decreases when power cannot be supplied from the commercial power source due to a disaster such as a large earthquake. As a result, the operation of the control device and the converter stops without power being supplied, and if a battery or a private power generation device is brought in from the outside of the power generation system and power is not supplied to the power generation system from the above, There is a problem that power generation by the power generation device cannot be performed.

  An object of the present invention is to effectively solve such problems. Specifically, even if there is no power supply from outside the system, the present invention utilizes renewable energy from a state where the entire system is stopped. It is an object of the present invention to provide a power generation system capable of operating a control device or the like and restarting power supply by a power generation device using renewable energy.

  The present invention takes the following means in order to achieve such an object.

  That is, the power generation system of the present invention is connected to the power generation means having a startup power source that uses renewable energy, the power supply line to which the power generated by the power generation means is input, and the power supply line. A control voltage generation unit that generates a control voltage by stepping down a voltage that appears on the power supply line, a control device that operates when the control voltage generated by the control voltage generation unit is input, and an operation command from the control device And an input power control unit that controls power input from the power generation means to the power supply line using the control voltage generated by the control voltage generation unit according to the operation command, and the control In a state where the control voltage generated by the voltage generation unit is not input to the input power control unit, the power generated by the startup power source is output to the power supply line. Characterized in that it comprises a power output means.

  Here, the power control performed by the input power control unit is to change the amount of power input to the power supply line from the power generation means, convert the voltage, or the like.

  Because of this configuration, once the power supply line is no longer input and the control device is stopped, the entire system is stopped. When renewable energy such as hydraulic power is obtained again, the power generated by the start-up power source can be output to the power supply line via the power output means. Then, the control voltage is generated by the control voltage generation unit connected to the power supply line, so that the control device can be operated again. Therefore, the control of the input power control unit is resumed by the control device, and the power supply to the power supply line by the power generation means can be returned to the normal state.

  As a specific embodiment, a solar panel is adopted as the startup power source, and the power output means is a startup line that directly outputs power generated by the solar panel to the power supply line, The said input power control part is connected to the said solar panel, and the thing of the structure which controls the electric power input into the said electric power supply line from the said solar panel is mentioned. In such a configuration, when the entire system is stopped, the solar panel resumes light reception, so that the power generated by the solar panel can be output directly to the power supply line via the startup line. The control voltage is generated by the control voltage generation unit connected to the power supply line, so that the control device can be operated again, and the control of the input power control unit is resumed by the control device.

  In such an aspect, the amount of electric power that can be supplied is increased, and a solar panel is provided even when the entire system is stopped while being provided with a plurality of power generation means to stably obtain electric power even under various circumstances. In order to enable the entire system to recover and shift to a normal state only by receiving light, in addition to the first generating power source as the starting generating power source, the power generation means includes solar power such as wind power and hydraulic power. A second power generation source that uses renewable energy other than the above, and is connected to the second power generation source to control the power input to the power supply line from the second power generation source. It is desirable to further include an input power control unit.

  Moreover, in order to be able to generate | occur | produce the said control voltage stably based on the electric power which the solar panel generate | occur | produced, the voltage at the time of being directly output to the said electric power supply line through the said starting line from the said solar panel. However, it is desirable that the predetermined voltage exceeding the control voltage is set.

  As another aspect of the power generation system, a power generation power source that uses renewable energy other than sunlight such as wind power and hydraulic power is adopted as the power generation power source for startup, and the power output means starts from a voltage generated by the power generation source. A starting voltage generating unit that generates a voltage, and a voltage amplifying unit that uses the starting voltage generated by the starting voltage generating unit to amplify the voltage from the power generation source and output the amplified voltage to the power supply line Is mentioned. In such a configuration, when the entire system is stopped, when the renewable energy such as wind power and hydraulic power is obtained again, the power generation power generates power, which is used to start up by the start-up voltage generator. A voltage is generated. The control voltage is generated by the control voltage generator connected to the power supply line by the voltage amplifying unit amplifying the power from the power generation device using the starting voltage and outputting the power to the power supply line. And the control of the input power control unit is resumed by the control device.

  In order to increase the amount of power that can be supplied in such an aspect and to obtain power stably even under various circumstances, the power generation means includes a first power source as the start power source, In the case of further including a solar panel as the second power generation source, the input power control unit is connected to the solar panel so as to control power input from the solar panel to the power supply line. It is desirable to be configured.

  In the above two modes, in order to increase the power supply amount while maintaining the stability of the entire system at the time of system recovery, the input power control unit that has been in the stopped state is returned to the operating state again depending on the situation. Since it is necessary to appropriately shift, for this purpose, the control device, when the input of the control voltage is started from the state where the input of the control voltage has been stopped, It is desirable that the apparatus is configured to include control recovery means for resuming the output of the operation command to the input power control unit when the above is satisfied.

  In addition, in order to increase the power generated from the solar panel using the control voltage generated by the control voltage generation unit and to enable supply of larger power, the input power control unit It is desirable that the maximum power point tracking control is performed so as to take out the electric power generated by the solar panel with the maximum efficiency in accordance with the operation command from the apparatus.

  In addition, in order to enable efficient continuous operation of the entire system and stable power supply to the load, a battery, a converter for the battery interposed between the battery and the power supply line, The control device further gives an operation command to the battery converter, and the battery converter is generated by the control voltage generator in response to the operation command from the control device. It is preferable that the control voltage is used to charge or discharge the battery.

  According to the present invention described above, even if there is no power supply from the outside of the system, the control device and the input power control unit are operated using the renewable energy from the state where the entire system is stopped, and the renewable energy is It is possible to provide a power generation system capable of resuming the power supply by the used power generation apparatus.

1 is a block diagram showing a power generation system according to a first embodiment of the present invention. The graph which shows the output characteristic curve (relationship of output current I-output voltage V) of a solar panel. FIG. 3 is a block diagram showing voltage input / output and transmission / reception of control signals in the power generation system. The block diagram which shows the input-output of a voltage in the same electric power generation system. The block diagram which shows transmission / reception of a control signal in the same electric power generation system. The block diagram which shows the electric power generation system which concerns on the 2nd Embodiment of this invention. FIG. 3 is a block diagram showing voltage input / output and transmission / reception of control signals in the power generation system. The block diagram which shows transmission / reception of a control signal in the same electric power generation system.

  Embodiments of the present invention will be described below with reference to the drawings.

  As shown in FIG. 1, a power generation system 100 according to the first embodiment of the present invention includes a solar panel 1 as a first power generation power source as a start power generation power source and a hydroelectric power generation as a second power generation source. The power generation means 110 having the device 2 and the wind power generation device 3 is provided, and power is supplied from these to a load 64 such as an electric device. And even if the whole system stops, this electric power generation system 100 operates PC4 and the input power control part 112a using the electric power which the solar panel 1 which is the 1st power generation generate | occur | produced, and supplies electric power Is configured to resume.

  The solar panel 1 generates power using sunlight, which is a renewable energy, and is configured by solar cells (not shown). A plurality of the solar panels 1 are connected in series to be described later. The power of a predetermined voltage exceeding the control voltage Vc generated by the DC / DC converter 41 is obtained. The predetermined voltage means a voltage at which a specified control voltage Vc can be obtained by stepping down the voltage using the DC / DC converter 41, and may vary depending on the specifications of the DC / DC converter 41 used.

  As shown in FIG. 1, the solar panel 1 is connected to a DC / DC converter (hereinafter referred to as “solar converter”) 11, and the solar converter 11 is generated from the solar panel 1. The generated direct current is output to the power supply line 7 which is a bus.

  The solar converter 11 includes an input power control unit 112 a and a start line 111. The input power control unit 112a controls power input to the power supply line 7 from the power generation means 110. In the present embodiment, the control voltage Vc generated by the DC / DC converter 41 shown in FIG. In the input state, it is controlled through a control signal as an operation command given from the PC 4 to start a predetermined operation and output the solar panel 1 so that maximum power can be obtained from the solar panel 1. Maximum power point tracking (MPPT) control for controlling voltage or output current is performed.

  The input power control unit 112a incorporates a switch element (not shown), and performs on / off control of the switch element based on a control signal from the PC 4 shown in FIG. 3 and the like, and the operating voltage V1 shown in FIG. By performing the follow-up control so as to be V2, maximum power can be output from the solar panel 1.

  The startup line 111 as the power output means is generated in the solar panel 1 even when the control voltage Vc generated by the DC / DC converter 41 is not input or when the control by the PC 4 is not performed. The generated power can be output as it is to the power supply line 7 without performing MPPT control. The voltage output at this time is set to a predetermined voltage exceeding the control voltage Vc generated by the DC / DC converter 41 as described above. The switch element is in a closed state in which the power output from the solar panel 1 can be directly supplied to the power supply line 7 in the absence of the input of the control voltage Vc, and is activated by this switch element. Line 111 is configured. In addition, you may comprise the circuit used as the starting line 111 using a relay instead of this switch element.

  The wind power generator 3 generates power using wind power, which is renewable energy, and includes, for example, a generator (not shown) and a rotor having a plurality of blades connected to the rotor of the generator. The wind power generator 3 comprised is mentioned. The wind power generator 3 can generate power by receiving wind and rotating the rotor.

  The hydroelectric generator 2 generates power using hydropower that is renewable energy. For example, a hydraulic turbine (not shown) and a generator (not shown) including a shaft (rotor) connected thereto are integrated. A hydroelectric generator 2 can be used. From the hydroelectric power generation device 2, as long as a water flow can be ensured, a constant power generation amount can be obtained regardless of weather conditions.

  The wind power generator 3 includes a DC / DC converter (hereinafter referred to as “wind power generator converter”) 31 for wind power generation, and the hydroelectric generator 2 includes a DC / DC converter for hydroelectric power generation (hereinafter “converter for hydropower generation”). ) 21 is connected, and these converters 21 and 31 include input power control units 112b and 112c, respectively. The input power control units 112c and 112b are controlled through a control signal as an operation command given from the PC 4 in a state in which the control voltage Vc generated by the DC / DC converter 41 is input, so that a predetermined control operation is performed. The DC output voltage generated in the wind power generator 3 or the hydroelectric power generator 2 is boosted to a specified value voltage of the power supply line 7 and output to the power supply line 7.

  The battery 5 can be charged and discharged, and stores surplus power or power supplied from the commercial power source 6 via a battery DC / DC converter (hereinafter referred to as “battery converter”) 51. Or the stored power is supplied to the power supply line 7.

  The battery converter 51 that functions as the charge / discharge control device as described above is interposed between the battery 5 and the power supply line 7 and is in a state where the control voltage Vc generated by the DC / DC converter 41 is input. By controlling through the control signal given by the PC 4, the surplus power is stored in the battery 5 when the power generation amount from the solar panel 1, the wind power generation device 3, and the hydropower generation device 2 is larger than the power consumption of the load 64. To work. Further, when the amount of power generated from the solar panel 1, the wind power generator 3, or the hydroelectric generator 2 is less than the power consumption of the load 64 due to changes in weather conditions, the power stored in the battery 5 or the commercial power supply 6 It operates to supply the supplied power to the power supply line 7. When the electric power obtained from the commercial power source 6 is sufficiently large, the battery 5 may be charged using the electric power.

  The DC / AC inverter 62 is connected to the power supply line 7 and is controlled by the PC 4 in a state where the control voltage Vc generated by the DC / DC converter 41 is input. This is a power converter that electrically generates (reverses) AC power (for example, 200 V) from DC power supplied from the wind power generator 3, the hydroelectric generator 2, or the battery 5. Power can be supplied from the DC / AC inverter 62 to the load 64 via the power supply line 7. As the load 64, any electric appliance for home use, electric equipment in factories, offices, etc. can be used, and the output voltage is adjusted on the DC / AC inverter 62 side according to the specifications on the power receiving side. It is preferable to configure as described above.

  The commercial power supply 6 is connected to the power supply line 7 via the rectifier 61 and is configured to supply power to the DC / DC converter 41 connected to the power supply line 7.

  A DC / DC converter 41 as a control voltage generator shown in FIG. 1 is connected to the power supply line 7, and the solar panel 1, the hydroelectric power generator 2, the wind power generator 3, the battery 5, via the power supply line 7. A control voltage Vc is generated based on electric power obtained from the commercial power source 6. The DC / DC converter 41 does not require a control power supply, and can generate a control voltage Vc (for example, 24 V) by stepping down the voltage appearing on the power supply line 7. Then, the generated control voltage Vc is input to the PC 4, and further, the input power control unit 112 a of the solar converter 11, the input power control unit 112 c of the wind power converter 31, the input power control unit 112 b of the hydropower converter 21, A control voltage is also input to the battery converter 51 and the DC / AC inverter 62.

  A PC (controller) 4 as a control device controls the entire system according to a control program stored in a storage device (not shown). As this control program, a normal control program for performing normal system control capable of obtaining power from the commercial power supply 6, or a control recovery program for recovering the system after all system operations have been stopped once Etc. are included.

  As shown in FIG. 1, the PC 4 has a control unit 42. When the control voltage Vc is normally input, the control unit 42 reads the normal control program from the storage device and operates in accordance with the program, so that In cooperation with the hardware resources, the input power control unit 112a of the solar power converter 11, the input power control unit 112c of the wind power converter 31, the input power control unit 112b of the hydropower converter 21, the battery converter 51, etc. By transmitting a control signal (giving an operation command), the aforementioned MPPT control, boost control, charge and discharge control, etc. are performed.

  Further, when the input of the control voltage Vc is started from the state where the input of the control voltage Vc is stopped, the control unit 42 automatically reads the control recovery program from the storage device, and operates according to the program. Control of the input power control unit 112 a of the solar converter 11, the input power control unit 112 c of the wind power converter 31, the input power control unit 112 b of the hydropower converter 21, and the battery converter 51 in cooperation with peripheral hardware resources. Are sequentially recovered and also have such a function as a control recovery means. When the control is recovered, the control unit 42 is predetermined such that a predetermined time elapses from the input of the control voltage Vc or the control voltage Vc input to the input power control unit 112a of the solar converter 11 exceeds a predetermined value. When the predetermined condition is satisfied, a control signal is given to resume control of the input power control unit 112a. Further, while monitoring the voltage recovery state, control is performed to restore the input power control unit 112c of the wind power generation converter 31, the input power control unit 112b of the hydropower conversion converter 21 and the battery converter 51 in a predetermined order. I will resume. In this way, when control of all the systems is restored, the control unit 42 shifts to an operation based on the normal control program, and normal control is performed.

  In the power generation system 100 as described above, weather conditions and the like are monitored, and the control unit 42 executes a program for changing the operation state of the solar panel 1, the hydroelectric power generation device 2, and the wind power generation device 3 accordingly. . By doing so, for example, during the day of a sunny day when the wind is weak, although the amount of power generated from the wind power generator 3 is reduced, a large amount of power can be supplied from the solar panel 1 to the load 64 at night. When a sufficiently strong wind is blowing, it is possible to supply a large amount of power from the wind power generation device 3 to the load 64 although the solar panel 1 cannot generate power. In addition, during daytime on a windy and sunny day, the amount of power generated by both the solar panel 1 and the wind power generator 3 increases, so that it is possible to store surplus power in the battery 5 while supplying power to the load 64. it can. Moreover, since the power generation amount of the solar panel 1 and the wind power generator 3 decreases on a cloudy day when strong wind is not blowing, the shortage can be compensated by supplying the power stored in the battery 5 to the load 64. it can. Furthermore, when the electric power stored in the battery 5 decreases, the electric power supplied from the commercial power source 6 can be stored in the battery 5, or the electric power can be supplied from the commercial power source 6 to the load 64.

  As described above, the power generation system 100 is configured to be able to stably supply power to the load 64 by appropriately using the solar panel 1, the hydroelectric power generation device 2, the wind power generation device 3, and the commercial power source 6. In the state where the power supply from the commercial power source 6 cannot be received due to an earthquake disaster such as a large earthquake, the power generation amount of the solar panel 1 and the wind power generation device 3 is reduced and the power amount stored in the battery 5 is also reduced. When the power in the system runs out, all system operations are temporarily stopped. However, when the solar panel 1 resumes light reception, a voltage is generated, and the generated voltage reaches the solar converter 11 and power is supplied via the startup line 111 as indicated by an arrow 12 in FIG. It is output to the supply line 7 as it is. As a result, when the voltage of the power supply line 7 increases, the voltage of the DC / DC converter 41 increases and the control voltage Vc is generated. As shown in FIG. 3, the control voltage Vc is input to the input power control unit 112 a of the PC 4 and the solar converter 11, and the PC 4 is restarted when the control voltage Vc is input to control the solar converter 11. Can be done. As shown in FIG. 3, a control signal is transmitted from the control unit 42 of the PC 4 to the input power control unit 112a of the solar converter 11 so that the control of the input power control unit 112a is resumed and MPPT control is performed. As a result, the amount of power obtained by efficiently extracting power from the solar panel 1 increases. As shown in FIG. 4, the control voltage Vc newly generated by the DC / DC converter 41 based on this electric power is not limited to the input power control unit 112 a of the solar converter 11 and the PC 4, and the hydropower converter 21. Are input to the input power control unit 112b, the input power control unit 112c of the wind power generation converter 31, the battery converter 51, and the DC / AC inverter 62. In addition to the input power control unit 112a of the solar converter 11 from the PC 4, in addition to the input power control unit 112b of the hydropower converter 21, the input power control unit 112c of the wind power converter 31, as shown in FIG. A control signal is also transmitted to the battery converter 51 and the DC / AC inverter 62, whereby the wind power converter 31 and the hydroelectric power converter 21 are operated and the power supply line 7 from the wind power generator 3 and the hydroelectric power generator 2. Can be supplied to the battery 5, and the battery converter 51 can operate to store surplus power in the battery 5, and the DC / AC inverter 62 operates to supply power to the load 64. It becomes possible to supply. As described above, the first power generation power source (solar panel 1) as the power generation source for start-up is capable of supplying power to the power supply line 7 at the time of control recovery for recovering the system, and the system recovers normally. Even after shifting to the state, power can be supplied to the power supply line 7. Further, the second power generation source (the hydroelectric power generation device 2 and the wind power generation device 3) cannot supply power to the power supply line 7 at the time of control recovery, and uses the power output from the first power generation source. Thus, after the system recovers and shifts to the normal state, power can be supplied to the power supply line 7. Note that a power source that can supply power to the power supply line 7 only at the time of control recovery for recovering the system may be used as the power generation source for startup.

  As described above, the power generation system 100 according to the present embodiment includes the power generation unit 110 having the solar panel 1 as the first power generation source (startup power generation source) that uses renewable energy, and the power generated by the power generation unit 110. Is input to the power supply line 7, and a DC / DC converter 41 as a control voltage generation unit that is connected to the power supply line 7 and generates a control voltage Vc by stepping down a voltage appearing in the power supply line 7, A PC 4 as a control device that operates when the control voltage Vc generated by the DC / DC converter 41 is input, and an operation command is given from the PC 4, and is generated by the DC / DC converter 41 according to the operation command. An input power control unit 112a that controls the power input to the power supply line 7 from the power generation means 110 using the control voltage Vc, and D / Starting line 111 as power output means for directly outputting the power generated by the solar panel 1 to the power supply line 7 in a state where the control voltage Vc generated by the DC converter 41 is not input to the input power control unit 112a. It is comprised so that it may have. The input power control unit 112 a is connected to the solar panel 1 and controls the power input from the solar panel 1 to the power supply line 7.

  Since it is configured in this way, once the power is not input to the power supply line 7 and the PC 4 is stopped, the entire system is stopped. When the panel 1 resumes light reception, the power generated by the solar panel 1 can be directly output to the power supply line 7 via the activation line 111. Then, the control voltage Vc is generated by the DC / DC converter 41 connected to the power supply line 7 so that the PC 4 can also operate again. Therefore, the control of the input power control unit 112a can be resumed by the PC 4, and the power supply to the power supply line 7 by the solar panel 1 can be returned to the normal state.

  In addition to the solar panel 1 (first power generation source), the power generation unit 110 uses a hydroelectric generator 2 and a wind power as a second power generation source that uses renewable energy other than sunlight such as wind power and hydraulic power. The power generation device 3 further includes an input power control unit 112b that is connected to the hydroelectric power generation device 2 and the wind power generation device 3 and controls the power input from the power generation devices 2 and 3 to the power supply line 7. 112c is further provided, so that the amount of power that can be supplied can be increased, and a plurality of power generators 2 and 3 are provided in order to stably obtain power even under various circumstances. Even when the entire system is stopped, only the solar panel 1 receives light, and the entire system can be recovered to shift to a normal state.

  Further, since the voltage when directly output from the solar panel 1 to the power supply line 7 via the start line 111 is set to a predetermined voltage exceeding the control voltage Vc, the input power control unit of the solar converter 11 Even when the operation of 112a is stopped, if the solar panel 1 resumes receiving light and generates electric power from the solar panel 1, the control voltage Vc can be stably generated based on this electric power. .

  Particularly, when the input of the control voltage Vc is started from the state where the input of the control voltage Vc is stopped, the PC 4 operates to the input power control units 112a to 112c by satisfying a predetermined condition. Since it is configured to include the control unit 42 as a control recovery means for restarting the output of the command, the input power control units 112a to 112c that are in the stopped state are appropriately shifted to the operating state again depending on the situation. When the system is restored, the power supply amount can be increased while maintaining the stability of the entire system.

  Furthermore, the input power control unit 112a is configured to perform maximum power point tracking control so as to take out the power generated by the solar panel 1 with maximum efficiency in accordance with an operation command from the PC 4. The electric power generated from the solar panel 1 can be increased by using the control voltage Vc generated by the DC converter 41 to supply larger electric power.

  In addition, the battery 5 and a battery converter 51 as a converter for the battery 5 interposed between the battery 5 and the power supply line 7 are further provided, and the PC 4 further gives an operation command to the battery converter 51. The battery converter 51 is configured to charge or discharge the battery 5 using the control voltage Vc generated by the DC / DC converter 41 in accordance with an operation command from the PC 4. When there is a large amount of power generated from the solar panel 1, the hydroelectric power generator 2 and the wind power generator 3 that have resumed power generation as described above, surplus power can be stored in the battery 5, and sunlight can be changed due to changes in weather conditions and the like. When the power generation amount from the panel 1, the hydroelectric power generation device 2 and the wind power generation device 3 decreases and the power in the system becomes insufficient, the battery 5 By generating the control voltage Vc by the DC / DC converter 41 using the obtained power, stable power supply can be performed while the battery 5 can be discharged, and the PC 4 and the input power control unit Operations such as 112a to 112c can be continued.

  Furthermore, even while power supply from the commercial power source 6 is possible, surplus power can be stored in the battery 5 when the power generation amount is large, and when the power generation amount decreases and power shortage occurs, the commercial power source 6 The cost of commercial power can be reduced by using the power stored in the battery 5 instead of obtaining power from the power. Moreover, it is also possible to store the electric power obtained from the commercial power supply 6 in preparation for the case where the power generation amount decreases, and the cost can be further reduced by using the relatively cheap nighttime electric power for the charging. Furthermore, when the power supply from the commercial power source 6 cannot be received, the power generation by the power generation system 100 can be continued by supplying power from the battery 5.

  In the power generation system 100 of the first embodiment as described above, the solar panel 1 is a power generation source for startup and the solar converter 11 has power output means. As in the power generation system 200 according to the second embodiment, the hydraulic power generation apparatus 202 may be a startup power generation power source (first power generation power source), and the hydroelectric power generation converter 221 may include a power output unit.

  As shown in FIGS. 6 to 8, the power generation system 200 according to the second embodiment of the present invention includes a solar panel 1 as a second power generation source, a hydroelectric power generation apparatus 202 as a first power generation source, and a first power generation system 202. Power generation means 110 having a wind power generation device 3 that is a power generation source of 2, a battery 5, converters 211, 221, 31, 51 connected thereto, and activation connected by these converters 211, 221, 31, 51 The line 7 includes a DC / DC converter 41, a PC 4, a DC / AC inverter 62, a load 64, a rectifier 61, and a commercial power supply 6 that are directly or indirectly connected to the start line 7. Among these, the same components as those in the first embodiment are denoted by the same reference numerals as those in FIGS.

  The hydroelectric generator 202 generates power using hydropower that is renewable energy. For example, a hydraulic turbine (not shown) and a generator (not shown) including a shaft (rotor) connected thereto are integrated. A hydroelectric generator 202 can be used. In the present embodiment, a permanent magnet generator is used as the generator of the hydroelectric generator 202. The permanent magnet generator generates an alternating voltage by rotating a shaft (rotor) with the rotation of a water turbine. In addition, you may use the speed-up machine which speed-ups the rotational force of a water wheel and transmits it to a shaft (rotor) between a water wheel and a generator. Further, the hydroelectric power generator 202 alone cannot generate electric power having a predetermined voltage exceeding the control voltage Vc.

  The hydroelectric power converter 221 connected to such a hydroelectric generator 202 is an AC / DC converter, and includes a start-up voltage generator 223 and a voltage amplifier 224 as power output means. The start-up voltage generator 223 includes a diode (not shown) having a rectifying action, and generates a start-up voltage (control power supply) Vd by diode-rectifying the AC voltage output from the hydroelectric generator 202. As shown in FIG. 6, the voltage amplifying unit 224 uses the starting voltage Vd output from the starting voltage generating unit 223 to boost the voltage generated in the hydroelectric generator 202 to a specified value voltage of the power supply line 7. Output to the power supply line 7. As described above, the solar panel 1 can obtain electric power of a predetermined voltage exceeding the control voltage Vc without using the boosting means such as the input electric power control unit 112a. By itself, it is impossible to generate electric power of a predetermined voltage exceeding the control voltage Vc. Therefore, the electric power obtained from the hydroelectric generator 202 is boosted using the voltage amplifying unit 224 so that the electric power having a predetermined voltage exceeding the control voltage Vc is output from the hydroelectric generator 202 to the power supply line 7. .

  The solar converter 211 connected to the solar panel 1 has the same configuration as the solar converter 11 in the first embodiment except that it does not have the activation line 111, and has an input power control unit 112a.

  In such a power generation system 200 of the present embodiment, once the operation of all the systems is stopped, a power source (water) is supplied to the water turbine of the hydroelectric power generation apparatus 202, and the turbine is rotated to rotate the turbine. A voltage (alternating current) is generated from the connected generator. The generated voltage reaches the starting voltage generating unit 223 of the hydroelectric power converter 221 as indicated by an arrow 214 in FIG. 6, and the starting voltage generating unit 223 generates (secures) the starting voltage Vd by diode rectification. When the starting voltage Vd is generated, the voltage amplifying unit 224 is activated, and the voltage amplifying unit 224 amplifies the voltage from the hydroelectric generator 202 and takes it out to the power supply line 7 as indicated by an arrow 213 in FIG. Output. As a result, when the voltage of the power supply line 7 increases, the voltage of the DC / DC converter 41 increases and the control voltage Vc is generated. As shown in FIG. 7, the control voltage Vc is input to the input power control unit 112a of the PC 4 and the converter 211 for sunlight, and the PC 4 is restarted when the control voltage Vc is input to control the input power control unit 112a. Can be done. As shown in FIG. 8, the control of the input power control unit 112a is resumed by transmitting a control signal from the control unit 42 of the PC 4 to the input power control unit 112a as shown in FIG. 8, and the input power control is performed by performing MPPT control. The amount of electric power obtained by efficiently extracting electric power from the solar panel 1 via the section 112a increases. As shown in FIG. 8, the control voltage Vc newly generated by the DC / DC converter 41 on the basis of this power is not limited to the input power control unit 112a and the PC 4, and the input power control unit 112c of the wind power converter 31 is used. , And input to the battery converter 51 and the DC / AC inverter 62. In addition, as shown in FIG. 8, the control signal is transmitted from the PC 4 to the input power control unit 112c of the wind power converter 31, the battery converter 51, and the DC / AC inverter 62 in addition to the input power control unit 112a. . As a result, the wind power converter 31 operates and power generation by the wind power generator 3 becomes possible, and the battery converter 51 operates and surplus power can be stored in the battery 5. The AC inverter 62 operates to supply power to the load 64. In this embodiment, even when the control voltage Vc can be generated by the DC / DC converter 41, the voltage is amplified from the hydroelectric generator 202 via the start-up voltage generation unit 223 and the voltage amplification unit 224. Therefore, the control voltage Vc is not input to the hydroelectric power generation converter 221 and no control signal is transmitted.

  As described above, the power generation system 200 employs the hydraulic power generation device 202 that uses hydropower as the first power generation power source (startup power generation power source), and uses the voltage generated by the hydroelectric power generation device 202 as the power output means. And a voltage amplifying unit 224 that amplifies and extracts the voltage from the hydroelectric generator 202 and outputs it to the power supply line 7 using the starting voltage Vd generated by the starting voltage generating unit 223. It is characterized by having. Further, the power generation means 110 includes a solar panel 1 as a second power generation source in addition to the hydroelectric power generation device 202 as a startup power generation source, and an input power control unit 112a is connected to the solar panel 1. The power input from the solar panel 1 to the power supply line 7 is controlled.

  Since it is configured in this manner, once power is not input to the power supply line 7 and the PC 4 is stopped, the entire system is stopped. When the water wheel of the device 202 rotates, the starting voltage generator 223 generates a starting voltage Vd from the voltage generated by the generator, and the voltage amplifying unit 224 uses the starting voltage Vd to generate a voltage from the hydroelectric generator 202. Amplified and output to the power supply line 7. Therefore, it is possible to supply the power supply line 7 with the amount of power necessary for generating the control voltage Vc. The DC / DC converter 41 connected to the power supply line 7 generates the control voltage Vc to generate the PC 4. It becomes possible to operate again. And the electric power supply to the electric power supply line 7 by the solar panel 1 can be returned to a normal state by restarting control of the input electric power control part 112a by PC4.

  The specific configuration of each unit is not limited to the above-described embodiment.

  In the present embodiment, the solar panel 1, the hydroelectric generator 2 and the wind power generator 3 are used as the first power generation source and the second power generation source, but other power generation devices such as a geothermal power generation device are further used. Alternatively, the hydroelectric power generator 2 or the wind power generator 3 may be selectively used.

  Further, in the power generation system 200 according to the second embodiment, the hydroelectric power generation converter 221 may include an input power control unit. In this case, the input power control unit operates to boost the voltage generated in the hydroelectric power generation device 202 to a specified value voltage of the power supply line 7 and output the boosted voltage to the power supply line 7. In such a configuration, in order to boost the voltage from the hydroelectric generator 202 to a specified value and take it out, the input voltage control unit uses the control voltage Vc when the DC / DC converter 41 can generate the control voltage Vc. When the control voltage Vc cannot be generated, the voltage amplifying unit 224 is operated using the starting voltage Vd. That is, once the entire system is stopped, the voltage is amplified from the hydroelectric generator 202 through the voltage amplifying unit 224 using the starting voltage Vd generated by the starting voltage generating unit 223, and the voltage is extracted. After the control voltage Vc is generated by the DC / DC converter 41 on the basis, the input power control is performed based on the control signal transmitted from the control unit 42 of the PC 4 using the control voltage Vc. The power is extracted by amplifying the voltage from the hydroelectric generator 202 via the unit.

  Further, in the power generation system 200 according to the second embodiment, when the system is recovered, the control voltage Vc generated by the DC / DC converter 41 is first input to the input power control unit 112c of the wind power converter 31 and the wind power generator. After restarting the power supply from 3, the power may be input to the input power control unit 112a of the solar converter 11 and the power supply from the solar panel 1 may be restarted.

  Further, in the above embodiment, the solar panel 1 or the hydroelectric generator 2 is adopted as the first power generation source, but the wind power generation device 3 or other power generation device may be used as the first power generation source.

  Other configurations can be variously modified without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 ... Solar power panel, starting power generation, 1st power generation 2 ... Power generation, 2nd power generation (hydroelectric generator)
3. Power generation source, second power generation source (wind power generator)
4. Control device (PC)
5 ... Battery 7 ... Power supply line 41 ... Control voltage generator (DC / DC converter)
42 ... Control recovery means (control unit)
51 ... Converter for battery (DC / DC converter)
DESCRIPTION OF SYMBOLS 100,200 ... Electric power generation system 110 ... Electric power generation means 111 ... Starting line 112a-112c ... Input electric power control part 202 ... Generating power source for starting (hydroelectric power generation device)
223 ... Starting voltage generator 224 ... Voltage amplifier Vc ... Control voltage Vd ... Starting voltage

Claims (9)

Power generation means having a power generation source for start-up that uses renewable energy;
A power supply line to which power generated by the power generation means is input;
A control voltage generator connected to the power supply line and generating a control voltage by stepping down a voltage appearing in the power supply line;
A control device that operates when the control voltage generated by the control voltage generation unit is input;
An operation command is given from the control device, and in accordance with the operation command, the control power generated by the control voltage generator is used to control the power input from the power generator to the power supply line. A control unit;
A power output means for outputting the power generated by the startup power source to the power supply line in a state where the control voltage generated by the control voltage generation unit is not input to the input power control unit. Characteristic power generation system. Adopting a solar panel as the startup power source,
The power output means is an activation line that directly outputs the power generated by the solar panel to the power supply line,
The power generation system according to claim 1, wherein the input power control unit is connected to the solar panel and controls power input to the power supply line from the solar panel. The power generation means further includes a second power generation source that uses renewable energy other than sunlight, such as wind power and hydraulic power, in addition to the first power generation source as the startup power generation source.
The power generation system according to claim 2, further comprising an input power control unit that is connected to the second power generation source and controls power input to the power supply line from the second power generation source.   4. The power generation according to claim 2, wherein a voltage when directly output from the solar panel to the power supply line via the start line is set to a predetermined voltage exceeding the control voltage. 5. system. As the startup power source, a power source that uses renewable energy other than sunlight, such as wind and hydropower, is adopted,
The power output means uses a start-up voltage generator that generates a start-up voltage from the voltage generated at the power generation source, and a start-up voltage generated by the start-up voltage generation unit, amplifies the voltage from the power generation source and takes it out The power generation system according to claim 1, further comprising: a voltage amplification unit that outputs to the power supply line. The power generation means further includes a solar panel as a second power generation source in addition to the first power generation source as the startup power generation source,
The power generation system according to claim 5, wherein the input power control unit is connected to the solar panel and controls power input from the solar panel to the power supply line.   When the control voltage input is started from the state where the control voltage input is stopped, the control device is configured to output an operation command to the input power control unit by satisfying a predetermined condition. The power generation system according to claim 1, further comprising control recovery means for restarting output.   The said input electric power control part performs maximum electric power point tracking control so that the electric power which a solar panel generate | occur | produces with maximum efficiency according to the operation command from the said control apparatus. The power generation system according to any one of 6. Battery,
A battery converter interposed between the battery and the power supply line, and
The control device further gives an operation command to the battery converter,
The battery converter charges or discharges the battery using the control voltage generated by the control voltage generator according to an operation command from the control device. The power generation system according to any one of the above.

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