JP2019004536A - Power supply system and power supply method - Google Patents

Abstract

To provide a power supply system and a power supply method, which can stably supply necessary power without using a power storage device while a fuel power generator and a natural energy power generator are used.SOLUTION: A power supply system comprises: diesel power generators 1 to 3 being fuel power generators using fuel; and a photovoltaic power generator 4 being a natural energy power generator using natural energy. The photovoltaic power generator 4 does not comprise a power storage device and comprises a control section 5 for performing control to interconnect the photovoltaic power generator 4 to supply power when a load larger than a prescribed threshold is applied to the diesel power generators 1 to 3, to release interconnection of the photovoltaic power generator 4 and to supply power only by the diesel power generators 1 to 3 when the load equal to or below the prescribed threshold is applied to the diesel power generators 1 to 3.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an electric power supply system and an electric power supply method, and more particularly to an electric power supply system and an electric power supply method for supplying electric power by linking a natural energy generator using natural energy to a fuel generator using fuel.

  For example, in the case of a fuel power generation device such as a gasoline engine or a diesel engine, fuel is required to operate the device. On the other hand, a natural energy power generation device such as a solar power generation device or a wind power generation device using natural energy does not require fuel. In view of this, there has been proposed a power supply system that uses both a fuel power generation device and a natural energy power generation device to reduce the amount of fuel consumed and thereby reduce the cost required for power generation.

  By the way, in the case of a natural energy power generation device, for example, a solar power generation device, it is difficult to stably supply power because the amount of power generation depends on the amount of solar radiation. Therefore, in general, by connecting a power storage device such as a battery or a flywheel to the solar power generation device and storing the power in the power storage device, it is possible to stably supply power even if the amount of power generation temporarily decreases. It is configured.

  However, the power storage device not only requires an installation location but also has problems that the installation increases the weight of the system and is expensive. For example, in the case of a ship, an aircraft, a marine plant or the like equipped with a power supply system, it is difficult to accumulate sufficient power because a space for installing a power storage device and a weight that can be mounted are limited.

  Therefore, when a photovoltaic power generator that does not have a storage battery and a main generator are connected in parallel, and there is sufficient power supplied from the photovoltaic power generator, the power generation load of the main generator is reduced to reduce the power. When the power supplied and the power supplied from the solar power generation device decreases, a ship-use solar power generation power supply facility that increases the power generation load of the main generator to supply power has already been proposed (for example, , See Patent Document 1).

JP 2002-315195 A

  However, the invention described in Patent Document 1 is based on the premise that all the power generated by the solar power generation device is always used, and thus it is difficult to control the fuel power generation device following changes in the amount of solar radiation. In particular, there is a problem that the power system is disturbed in the sea area where the weather is likely to change rapidly. Moreover, in the invention described in Patent Document 1, the power generated by the solar power generation device is supplied to specific equipment such as inboard lighting (equipment that does not affect voyage even if the power supply is momentarily interrupted or becomes unstable). There is also a problem that the merit of using the solar power generation device is limited.

  The present invention has been devised in view of such problems, and a power supply system capable of stably supplying necessary power without using a power storage device while using both a fuel power generation device and a natural energy power generation device. An object is to provide a power supply method.

  According to the present invention, in a power supply system including a fuel power generation device using fuel and a natural energy power generation device using natural energy, the natural energy power generation device does not include a power storage device, and the fuel power generation When a load larger than a predetermined threshold is applied to the apparatus, the natural energy power generation apparatus is connected to supply power, and when a load equal to or lower than the threshold is applied to the fuel power generation apparatus, the natural energy power generation apparatus is connected. There is provided a power supply system including a control unit that performs control so as to release power and perform power supply only by the fuel power generation device.

  The power supply system includes a natural energy power generation priority mode in which the natural energy power generation device is operated in preference to the fuel power generation device, and a fuel power generation priority in which the fuel power generation device is operated in priority over the natural energy power generation device. The threshold value in the fuel power generation priority mode may be set to a value larger than the threshold value in the natural energy power generation priority mode.

  The natural energy power generation priority mode and the fuel power generation priority mode may be set to be switched according to the amount of solar radiation.

  Further, when a load exceeding the rated output is applied to the fuel power generation device, a plurality of fuel power generation devices may be operated in parallel.

  The fuel power generation device, the natural energy power generation device, and the control unit may be mounted on a ship or a floating structure.

  According to the present invention, in the power supply method in a power supply system including a fuel power generation device using fuel and a natural energy power generation device using natural energy, the natural energy power generation device includes a power storage device. If the load that is larger than a predetermined threshold is applied to the fuel power generation device, the natural energy power generation device is connected to supply power, and if the load less than the threshold is applied to the fuel power generation device, the natural power generation device There is provided an electric power supply method characterized in that the electric power supply is performed only by the fuel electric power generation device after releasing the connection of the energy electric power generation device.

  The power supply method includes a natural energy power generation priority mode in which the natural energy power generation device is operated with priority over the fuel power generation device, and a fuel power generation priority in which the fuel power generation device is operated with priority over the natural energy power generation device. The threshold value in the fuel power generation priority mode may be set to a value larger than the threshold value in the natural energy power generation priority mode.

  According to the power supply system and the power supply method according to the present invention described above, only when the load larger than the predetermined threshold is applied to the fuel power generation apparatus, the natural energy power generation apparatus is supplementarily connected to supply power. Thus, it is possible to stably supply necessary power while reducing the fuel consumption of the fuel power generation device without using the power storage device.

1 is a block diagram of a power supply system according to an embodiment of the present invention. It is a flowchart of the electric power supply method which concerns on one Embodiment of this invention. It is explanatory drawing which shows an example of the electric power supply by solar power generation priority mode. It is explanatory drawing which shows another example of the electric power supply by solar power generation priority mode. It is explanatory drawing which shows an example of the electric power supply by diesel power generation priority mode.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. Here, FIG. 1 is a block diagram of a power supply system according to an embodiment of the present invention.

  As shown in FIG. 1, the power supply system according to the embodiment of the present invention includes diesel power generators 1 to 3 that are fuel power generators that use fuel, and a solar that is a natural energy power generator that uses natural energy. The photovoltaic power generation device 4 is not provided with a power storage device, and when a load larger than a predetermined threshold is applied to the diesel power generation devices 1 to 3, the photovoltaic power generation device 4 is connected. When power supply is performed and the diesel power generators 1 to 3 are loaded with a predetermined threshold value or less, the connection of the solar power generator 4 is canceled and power is supplied only by the diesel power generators 1 to 3. The control unit 5 is provided.

  The power supply system according to the present embodiment can be installed and used in marine structures such as ships and marine plants, aircraft, space plants, and the like. Further, the fuel power generation device is not limited to the diesel power generation devices 1 to 3, and for example, a fuel power generation device that uses fuel such as thermal power or nuclear power can be applied. Furthermore, as a natural energy power generation device, it is not limited to the solar power generation device 4, For example, the natural energy power generation device using natural energy, such as a wind force, hydropower, tidal power, and geothermal heat, can also be applied.

  The following description demonstrates the case where the power supply system (namely, the diesel generators 1-3, the solar power generation device 4, and the control part 5) is mounted in the ship.

  In a power supply system mounted on a ship, a land power source 9 that is an external power source such as a commercial power source is connected to a main bus 7 of a main switchboard 6 of the ship via a circuit breaker 8. For example, when the ship is berthed at a harbor, power can be supplied to the ship from the land power source 9. Further, the diesel generators 1 to 3 mounted on the ship are connected to the main bus 7 via the air circuit breakers 10 to 12. The diesel power generators 1 to 3 are not limited to three, but may be any number that can supply power necessary for power generation.

  In addition, the solar power generation device 4 is connected to the main bus 7 via the circuit breaker 13. The solar power generation device 4 includes a plurality of solar power generation modules 41 that generate an electromotive force by receiving sunlight, a power conditioner 42 that converts the generated direct current into an alternating current, and a voltage of the alternating current as a ship. And a transformer 43 that converts the voltage into a predetermined voltage required for supply to the main bus 7. The power conditioner 42 includes an AC / DC converter 421, an electromagnetic contactor 422, and a circuit breaker 423 that convert a direct current into an alternating current. A solar radiation meter 44 for measuring the solar radiation amount is connected to the power conditioner 42, and information relating to the solar radiation amount is transmitted to the control unit 5.

  In addition, an inboard load group 15 is connected to the main bus 7 via a circuit breaker 14, and a control unit 5 is connected. The inboard load group 15 is equipment that can generate loads such as an electric pump, inboard lighting, and electronic equipment. Necessary power is supplied to the inboard load group 15 from the onshore power source 9, the diesel power generators 1 to 3, or the solar power generator 4 based on a power supply method described later.

  The control part 5 permits the connection permission signal which permits the connection of the solar power generation device 4 to the circuit breaker 8, the air circuit breakers 10-12, and the electromagnetic contactor 422 according to the load concerning the diesel power generation devices 1-3. Is output or the connection permission signal is not output, thereby controlling the connection state of the diesel power generators 1 to 3 and the solar power generator 4.

  Next, the power supply method according to the present embodiment will be described with reference to FIGS. Here, FIG. 2 is a flowchart of a power supply method according to an embodiment of the present invention. FIG. 3 is an explanatory diagram illustrating an example of power supply in the solar power generation priority mode. FIG. 4 is an explanatory diagram illustrating another example of power supply in the solar power generation priority mode. FIG. 5 is an explanatory diagram showing an example of power supply in the diesel power generation priority mode.

  When the land power supply 9 is connected to the main switchboard 6 of the ship (step S1: YES), the control unit 5 does not output the interconnection permission signal to the power conditioner 42, thereby connecting the photovoltaic power generation apparatus 4 to the interconnection. It is prohibited (step S2). In general, the diesel power generators 1 to 3 do not consider synchronous operation with the system on the land side, and the solar power generator 4 has a specification adapted to the interconnection with the inboard power generation facility. Since it does not match the specifications in the provisions of the supply system, it is necessary to prevent the onshore power supply 9 and the onboard power generation equipment (diesel power generation apparatuses 1 to 3 and the solar power generation apparatus 4) from operating in parallel unintentionally. is there.

  Moreover, when the land power supply 9 is not connected (step S1: NO), and the diesel power generators 1 to 3 are not connected (step S3: NO), the solar power generator 4 is connected in the same manner. The system is prohibited (step S2). By such processing, for example, in the case where maintenance is performed by separating the onshore power source 9 and the diesel power generators 1 to 3 from the main switchboard 6, since the interconnection of the solar power generator 4 is prohibited, suddenly, No power is supplied from the solar power generation device 4 to the main switchboard 6, and maintenance and the like can be performed safely.

  On the other hand, when the land power source 9 is not connected (step S1: NO) and at least one of the diesel power generators 1 to 3 is connected (step S3: YES), the control unit 5 includes the power conditioner 42. The interconnection permission signal is output to the electromagnetic contactor 422 in a closed state to link the solar power generation device 4 and the diesel power generation devices 1 to 3 (step S4). With this process, it is possible to reduce the fuel consumption of the diesel power generators 1 to 3 while effectively utilizing solar energy, which is natural energy.

  Next, when the solar power generation device 4 is connected to the diesel power generation devices 1 to 3 (step S4), the priority mode may be selected (step S5). The power supply system according to this embodiment includes a solar power generation priority mode (natural energy power generation priority mode) in which the solar power generation device 4 is operated with priority over the diesel power generation devices 1 to 3, and the diesel power generation devices 1 to 3. A diesel power generation priority mode (fuel power generation priority mode) that is operated with priority over the solar power generation device 4 is provided.

  The solar power generation priority mode is a mode in which when the solar power generation device 4 can expect sufficient power generation, the power supply load by the solar power generation device 4 is increased and the power supply load by the diesel power generation devices 1 to 3 is reduced. is there. The diesel power generation priority mode increases the load of power supply by the diesel power generation devices 1 to 3 and reduces the load of power supply by the solar power generation device 4 when the solar power generation device 4 cannot expect sufficient power generation. Mode.

  Here, FIG.3 and FIG.4 shows the time fluctuation of the electric power load in photovoltaic power generation priority mode. FIG. 5 illustrates the time variation of the power load in the diesel power generation priority mode. In each figure, “Section a” is a single operation section of the diesel generator 1, “Section b” is a single operation section of the diesel power generator 1 and the solar power generator 4, and “Section c” is a diesel generator 1. In addition, the parallel operation section between the parallel operation of the diesel power generation apparatus 2 and the solar power generation apparatus 4, “section d” indicates the parallel operation section between the diesel power generation apparatus 1 and the diesel power generation apparatus 2.

  In these priority modes, for example, the solar radiation 44 connected to the solar power generation device 4 is measured for the amount of solar radiation, and when the amount of solar radiation over a predetermined amount is measured, the solar power generation priority mode is selected and the amount of solar radiation is selected. The diesel power generation priority mode may be selected when is less than a predetermined amount. Note that the priority mode may be arbitrarily selected and changed by the user in accordance with a change in weather or a time zone.

  First, the solar power generation priority mode will be described. When the solar power generation priority mode is selected in step S6 (YES), it is determined whether or not there is a possibility that a load (light load) below a predetermined threshold is applied to the diesel power generators 1 to 3 (step S7). Here, a description will be given assuming that one diesel power generator 1 and the solar power generator 4 are linked. Further, the predetermined threshold is set to, for example, the lower limit output of the diesel power generator 1.

  For example, in the case of a ship, the load during navigation varies greatly. When a large load is applied from the solar power generation device 4 when the load of the inboard load group 15 is small and the single diesel power generation device 1 is operated with a load near the lower limit output at which it can operate stably, the diesel power generation device 1 There is a risk of damage.

  Therefore, when there is a possibility that a load (light load) equal to or lower than the lower limit output may be applied to the diesel power generator 1, that is, when (load-solar power generation rated output) ≦ diesel power generation lower limit output (step S7: YES), control is performed. The part 5 cancels the connection of the photovoltaic power generation apparatus 4 by not outputting the connection permission signal to the power conditioner 42 (step S8).

  Due to such processing, power generation is performed by the single operation of the diesel power generation device 1, so that when the diesel power generation device 1 is operating at a load near the lower limit output, no large power is applied from the solar power generation device 4. Damage to the diesel generator 1 can be avoided.

  On the other hand, when (load-solar power generation rated output)> diesel power generation lower limit output is satisfied (step S7: NO), the diesel power generation apparatus 1 is subjected to a load greater than the lower limit output. Next, the control part 5 determines whether there exists a possibility that the load (heavy load) more than a predetermined threshold may be applied to the diesel generator 1 (step S9).

  This threshold value is set by “the difference between the diesel power generator rated output and the solar power generator maximum rated output (diesel rating−solar maximum rating)”. That is, even when the solar power generation device 4 is disconnected at the maximum rated output due to an abnormality or erroneous operation, the load on the diesel power generation device 1 is set so as not to be overloaded. For example, when the load of the inboard load group 15 is large and the diesel generator 1 is overloaded with a rated output or more, there is a risk that the power system may be disturbed or a power failure may occur.

  Then, when there exists a possibility that the load (heavy load) more than a predetermined threshold may be applied to the diesel power generator 1, that is, when (diesel power generation rated output-load)> solar power generation rated output is satisfied (step S9: NO), There is no risk of overloading the diesel generator 1. Therefore, the control part 5 outputs a connection permission signal to the power conditioner 42, closes the electromagnetic contactor 422, and connects the solar power generation device 4 to the diesel power generation device 1 (step S10).

  With this process, the diesel power generation device 1 and the solar power generation device 4 can be connected to supply power, the solar power generation device 4 can be operated effectively, and the fuel consumption of the diesel power generation device 1 can be reduced. Necessary power supply can be performed. Thereafter, the processing from step S7 is repeated.

  In addition, when the load of the inboard load group 15 increases, (diesel power generation rated output−load) ≦ solar power generation rated output (step S9: YES), and this state continues for a predetermined time (step S11: YES). The diesel power generator 1 may be subject to heavy loads. In this case, the control unit 5 performs start-up and connection control of the diesel power generator 2, and performs parallel operation by the diesel power generators 1 and 2 (step S12).

  With this process, for example, even when the power supplied from the solar power generation device 4 decreases when the load of the inboard load group 15 is large, the two diesel power generation devices 1 and 2 are operating in parallel. Therefore, the disturbance of the electric power system and the occurrence of a power failure due to overload can be avoided. In addition, when there exists a possibility that heavy load may be applied to both the diesel generators 1 and 2, the diesel generator 3 may be connected and parallel operation by the diesel generators 1-3 may be performed. Thereafter, the processing from step S7 is repeated.

  On the other hand, in the state where the diesel power generation devices 1 and 2 are operated in parallel and the solar power generation device 4 is connected, the load of the inboard load group 15 is reduced, and (load−solar power generation rated output) ≦ diesel When the power generation lower limit output (the total value of the lower limit outputs of the two diesel power generators 1 and 2) is reached, as shown in FIG. Therefore, the interconnection of the solar power generation device 4 is canceled, and power is supplied only by the diesel power generation devices 1 and 2.

  When more efficient operation of the diesel generators 1 and 2 is performed, as shown in FIG. 4, before the diesel generators 1 and 2 in parallel operation become a load (light load) lower than the lower limit output. The parallel operation is canceled in a light load state (for example, 35% of the rated output of the two diesel power generators 1 and 2), and the system is shifted to a linked operation between the diesel power generator 1 and the solar power generator 4. It may be.

  Further, in the state where the connection of the solar power generation device 4 is released, the operation of the diesel power generation device 2 is stopped when there is a possibility that a load (light load) below the lower limit output is applied to the diesel power generation devices 1 and 2. Power is supplied only by the diesel generator 1.

  Furthermore, when there is no possibility that a light load is applied to the diesel power generator 1 that is operating alone, the solar power generator 4 may be reconnected.

  In the state where the load of the inboard load group 15 is further reduced and the solar power generation device 4 is connected, the diesel power generation device 1 may be subjected to a load (light load) lower than the lower limit output. The interconnection of the power generation device 4 is released, and power is supplied by the single operation of the diesel power generation device 1.

  Next, the diesel power generation priority mode will be described. In step S6, when the diesel power generation priority mode is selected (NO, step S13), there is a risk that a load (light load) equal to or lower than the lower limit output set as a predetermined threshold may be applied to the diesel power generation devices 1 to 3. Is determined (step S14). Note that the “light load” in this mode does not lead to damage to the diesel power generators 1 to 3, but for example, is an inefficient load factor for operating two diesel power generators 1 and 2 in parallel. Means.

  Here, the threshold value in the diesel power generation priority mode is set to 35% of the rated output of the diesel power generation device 1, for example, and is larger than the threshold value in the solar power generation priority mode (the lower limit output of the diesel power generation device 1). Is set.

  In this way, by setting the threshold value in the diesel power generation priority mode> the threshold value in the solar power generation priority mode, in the solar power generation priority mode where the output is unstable, it is easy to operate a plurality of diesel power generators 1 to 3 in parallel. can do. Therefore, even if it is a case where the electric power supply amount falls from the solar power generation device 4 at the time of the solar power generation priority mode, the risk that a heavy load is applied to one diesel power generation device 1 can be reduced.

  On the other hand, in the diesel power generation priority mode, by setting the threshold value high, one diesel power generation device 1 can be efficiently operated, and unnecessary parallel operation of the diesel power generation devices 1 to 3 can be suppressed. .

  In step S14, when load ≦ 35% of the rated output of the diesel generator 1 (YES), it is determined that the diesel generator 1 may be subjected to a load (light load) equal to or lower than the lower limit output. The interconnection of the power generation device 4 is canceled and power is supplied only by the diesel power generation device 1 (step S15).

  On the other hand, in step S14, if load> 35% of the rated output of diesel power generation (NO), next, whether or not there is a possibility that a load (heavy load) exceeding a predetermined threshold may be applied to the diesel power generation device 1 is determined. Determine (step S9).

  In step S9, when (diesel power generation rated output-load)> solar power generation rated output (NO), there is no possibility that a load (heavy load) exceeding a predetermined threshold value is applied to the diesel power generator 1, so that solar power generation The device 4 is connected to the diesel power generator 1 to supply power (step S10).

  With this process, the solar power generation device 4 is connected when the load becomes higher than that in the solar power generation priority mode. Electric power can be supplied in a more stable state than the power generation priority mode. Thereafter, the processing from step S14 is repeated.

  In addition, when the load of the inboard load group 15 increases, (diesel power generation rated output−load) ≦ solar power generation rated output (step S9: YES), and this state continues for a predetermined time (step S11: YES). The diesel power generator 1 may be subject to heavy loads (see, for example, range c in FIG. 4). In this case, the control unit 5 performs start-up and connection control of the diesel power generator 2, and performs parallel operation by the diesel power generators 1 and 2 (step S12).

  With this process, for example, even when the power supplied from the solar power generation device 4 decreases when the load of the inboard load group 15 is large, the two diesel power generation devices 1 and 2 are operating in parallel. Therefore, the disturbance of the electric power system and the occurrence of a power failure due to heavy loads can be avoided. In addition, when there exists a possibility that heavy load may be applied to both the diesel generators 1 and 2, the diesel generator 3 may be connected and parallel operation by the diesel generators 1-3 may be performed. Thereafter, the processing from step S14 is repeated.

  On the other hand, in the state where the diesel power generation devices 1 and 2 are operated in parallel and the solar power generation device 4 is connected, the load of the inboard load group 15 decreases, and load ≦ (35% of the rated output of diesel power generation) + Maximum rated output of the solar power generation device 4), the diesel power generation devices 1 and 2 may be subjected to a load (light load) below a predetermined threshold value. The power is supplied only by the diesel generators 1 and 2. Note that “35% of the rated output of diesel power generation” during parallel operation means a total value of 35% of the rated output of the two diesel power generation apparatuses 1 and 2.

  In addition, in the state where the connection of the solar power generation device 4 is released, when there is a risk that the diesel power generation devices 1 and 2 may be subjected to a load (light load) equal to or less than a predetermined threshold, The power supply is stopped only by the diesel generator 1.

  Furthermore, when there is no fear that a load (heavy load) exceeding a predetermined threshold is applied to the diesel generator 1 that is operating alone, the solar power generator 4 may be re-linked.

  In the state where the load of the inboard load group 15 further decreases and the solar power generation device 4 is connected, there is a risk that a load (light load) below a predetermined threshold may be applied to the diesel power generation device 1. The interconnection of the photovoltaic power generation device 4 is released, and power is supplied by the diesel power generation device 1 alone.

  According to the power supply system and the supply method described above, the photovoltaic power generation apparatus 4 is supplementarily connected to supply power only when the diesel power generation apparatuses 1 to 3 are loaded with a load larger than a predetermined threshold (lower limit output). As a result, the necessary power can be stably supplied while reducing the fuel consumption of the diesel power generators 1 to 3 without using the power storage device.

  The present invention is not limited to the above-described embodiment, and it is needless to say that various modifications can be made without departing from the spirit of the present invention.

1-3 Diesel generator 4 Solar generator 5 Controller 6 Main switchboard 7 Main buses 8, 13, 14, 423 Breaker 9 Land power supply 10-12 Air breaker 15 Inboard load group 41 Solar power module 42 Power Conditioner 43 Transformer 44 Radiometer 421 AC / DC converter 422 Magnetic contactor

According to the present invention, in a power supply system including a fuel power generation device using fuel and a natural energy power generation device using natural energy, the natural energy power generation device does not include a power storage device, and the fuel power generation When a load larger than a predetermined threshold is applied to the apparatus, the natural energy power generation apparatus is connected to supply power, and when a load equal to or lower than the threshold is applied to the fuel power generation apparatus, the natural energy power generation apparatus is connected. Bei example a control unit for controlling so as to perform power supply release to only by the fuel power generation device, said control unit, the natural energy power generation priority be operated by priority over the fuel power generator natural energy power generation device And a fuel power generation priority mode in which the fuel power generation device is operated with priority over the natural energy power generation device. The threshold value in the fuel power generation priority mode is set to a value larger than the threshold value in the natural energy power generation priority mode, and the natural energy power generation priority mode and the fuel power generation priority mode are set to the amount of solar radiation. A power supply system is provided that is set to be switched in response .

According to the present invention, in the power supply method in a power supply system including a fuel power generation device using fuel and a natural energy power generation device using natural energy, the natural energy power generation device includes a power storage device. If the load that is larger than a predetermined threshold is applied to the fuel power generation device, the natural energy power generation device is connected to supply power, and if the load less than the threshold is applied to the fuel power generation device, the natural power generation device to release the interconnection of the energy generating device have line power supply by only the fuel power generation device, further, the natural energy power generation priority mode for operating the natural energy power generation device by priority over the fuel power generation device, a fuel A fuel power generation priority mode for operating the power generation device with priority over the natural energy power generation device, and the fuel power generation The threshold value in the previous mode is set to a value larger than the threshold value in the natural energy power generation priority mode, and the natural energy power generation priority mode and the fuel power generation priority mode are set to be switched according to the amount of solar radiation. it is the power supply and wherein the is provided.

Claims (7)

In a power supply system including a fuel power generation device using fuel and a natural energy power generation device using natural energy,
The natural energy power generation device does not include a power storage device,
When a load larger than a predetermined threshold is applied to the fuel power generation device, the natural energy power generation device is connected to supply power, and when a load equal to or lower than the threshold is applied to the fuel power generation device, the natural energy power generation device A power supply system comprising: a control unit that performs control so as to cancel the interconnection and perform power supply only by the fuel power generation device.   A natural energy power generation priority mode for operating the natural energy power generation device with priority over the fuel power generation device; and a fuel power generation priority mode for operating the fuel power generation device with priority over the natural energy power generation device; The power supply system according to claim 1, wherein the threshold value in the fuel power generation priority mode is set to a value larger than the threshold value in the natural energy power generation priority mode.   The power supply system according to claim 2, wherein the natural energy power generation priority mode and the fuel power generation priority mode are set so as to be switched according to the amount of solar radiation.   2. The power supply system according to claim 1, wherein a plurality of fuel power generation devices are operated in parallel when a load greater than a rated output is applied to the fuel power generation devices.   The power supply system according to claim 1, wherein the fuel power generation device, the natural energy power generation device, and the control unit are mounted on a ship or an offshore structure. In a power supply method in a power supply system comprising a fuel power generation device using fuel and a natural energy power generation device using natural energy,
The natural energy power generation device does not include a power storage device,
When a load larger than a predetermined threshold is applied to the fuel power generation device, the natural energy power generation device is connected to supply power, and when a load equal to or lower than the threshold is applied to the fuel power generation device, the natural energy power generation device The power supply method is characterized in that the power supply is performed only by the fuel power generation device after releasing the interconnection. A natural energy power generation priority mode for operating the natural energy power generation device with priority over the fuel power generation device; and a fuel power generation priority mode for operating the fuel power generation device with priority over the natural energy power generation device; The power supply method according to claim 6, wherein the threshold value in the fuel power generation priority mode is set to a value larger than the threshold value in the natural energy power generation priority mode.