JP2008148442A - Charging/discharging control system of power storage section in natural energy utilizing power generation system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a charging/discharging control system of a power storage section in a natural energy utilizing power generation system capable of reducing the capacity of a power storage section and eliminating the uselessness of power generation by natural energy. <P>SOLUTION: The charging/discharging control system is provided with a storage section 11 for reading and storing a load demand status and a power generation status; and processing control section 10 for executing processing on the basis of past data of the load demand status and power generation status stored in the storage section 11, weather prediction information from an Internet 12 and the charging status in the power storage section 5, and causing switches a, b to switch a charging execution mode, a discharging execution mode and a charging/discharging suspension mode. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a charge / discharge control system for a power storage unit in a power generation system using natural energy such as solar power generation.

As a power generation system using natural energy such as a solar power generation system or wind power generation system, the power storage unit is charged with surplus power that is not used on the load side, and power is supplied from the power storage unit when there is little or no output from natural energy A system linked to the grid is provided. In this system, the capacity of the storage battery is calculated from the relationship between the daily power generation amount from natural energy and the daily load demand, and the capacity of the storage battery is determined based on the calculated capacity.
Japanese Patent Laid-Open No. 9-14156

  However, since it is difficult to supply stable power throughout the year in a power generation system using natural energy, apparently, when it is used as an independent power source, it requires an extremely large capacity power storage unit, and the initial cost is low. There is a problem of being expensive.

  If the power storage capacity of the power storage unit is limited, the balance between the amount of power generated by natural energy, the capacity of the power storage unit, and the load capacity cannot be kept constant, so the power generated by natural energy can be used effectively. There is a problem that it cannot be done and is easily wasted.

  In particular, if the amount of power generated by natural energy is larger than the sum of the remaining chargeable amount and the load demand, if it is solar power generation, the power that should be generated is not generated, and if it is wind power generation, A signal for stopping the windmill is output, and the electric power that should be rotated and generated is wasted.

  In view of the above problems, the present invention can reduce the capacity of a power storage unit, and yet can eliminate the waste of power generated by natural energy, and can control the charge / discharge of the power storage unit in a power generation system using natural energy. The problem is to provide a system.

The above-mentioned problems are provided with a power generation unit using natural energy, an inverter that converts DC power generated by the power generation unit into AC power and outputs it to the load side, and a power storage unit that stores the power generated by the power generation unit. A charge / discharge control system for a power storage unit in a natural energy-based power generation system in which power stored in the power storage unit is converted into AC power and output to a load side,
A switching means for switching modes related to charging and discharging of the power storage unit is provided,
A storage unit that reads and stores the load demand status and the power generation status, past load demand status and power generation status data stored in the storage unit, weather forecast information from the Internet network, and a charge status in the power storage unit And a charging / discharging control system for a power storage unit in a natural energy power generation system, characterized in that a processing control unit is provided for performing processing based on The

  In this control system, charge / discharge control in the power storage unit is performed based on the weather forecast information, the past power generation status, and the charge status of the power storage unit. The generation of waste can be reduced or eliminated in a good manner, and this can be realized with a power storage unit having a small capacity.

  In addition, the charging / discharging control in the power storage unit is performed based not only on the weather forecast information but also on the past load demand situation. Can be reduced or eliminated more effectively.

  Since the present invention is as described above, the capacity of the power storage unit can be reduced, and the waste of power generated by natural energy can be eliminated.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings.

  1 is a power generation system using sunlight, 1 is a solar power generation unit, 2 is a power conditioner, 3 is a commercial power supply, 4 is a load, and 5 is a power storage unit. .

  The power conditioner 2 has an inverter function, and the electric power generated by the power generation unit 1 is converted from direct current to alternating current by the power conditioner 2 through the rectifier 7, the DC / DC converter 8, and the system controller 9. Output to the side.

  The power storage unit 5 is configured such that the DC power generated by the power generation unit 1 is stored without going through an AC / DC conversion process, and the stored DC power is converted into AC power by the power conditioner 2 by discharge. The output is made to the load 4 side.

  As switching means for switching between charging and discharging of the power storage unit 5 as described above, the switches a and b are provided, the “charging execution exclusive mode” in which the switch a is on and the switch b is off, and the switch a is off. Switching between the “charge / discharge stop mode” in which the switch b is on and the “daytime surplus power charging / night discharge mode” in which the switch a is on and the switch b is on can be performed.

  A processing control unit 10 that switches and controls the on / off states of the switches a and b is provided, and a storage unit 11 that reads and stores the load demand status and the power generation status in units of time is provided. 10 is processed based on, for example, data on load demand status and power generation status for the past year stored in the storage unit 11, weather forecast information from the Internet network 12, and the state of charge (SOC) in the power storage unit 5. Based on the processing result, control is performed to cause the switches a and b to switch the mode so that the power storage unit 5 performs the optimum charge / discharge operation.

  The processing control unit 10 can calculate and process the power generation status and the load demand status for each season, each day of the week, and each time zone from the past power generation status and the past load demand status stored in the storage unit 11. It should be done.

  In the charge / discharge control system described above, charging / discharging in the power storage unit 5 is performed by the processing control unit 10 based on weather forecast information from the Internet 12, past power generation status from the storage unit 11, and charging status of the power storage unit 5. Since the control is performed, it is possible to reduce or eliminate the waste of generated power due to the fully charged state of the power storage unit 5, and achieve it with a power storage unit with a small capacity. In addition, the charge / discharge control in the power storage unit 5 is performed based not only on the weather forecast information but also on the past load demand situation, so that more accurate charge / discharge control is possible. Thus, the waste of generated power can be reduced or eliminated more effectively.

  Further, the state of charge of the power storage unit 5 can be monitored by the processing control unit 10 and charging / discharging can be repeated within the set range, and the occurrence of problems due to overdischarge / overcharge can be reduced by the above processing control. It becomes possible.

  Although the embodiment of the present invention has been described above, the present invention is not limited to this, and various modifications can be made without departing from the spirit of the invention. For example, in the above embodiment, a case where a solar power generation unit is used as a power generation unit using natural energy has been shown, but it may be a wind power generation unit or a hydropower generation unit, What is necessary is just the electric power generation part using various natural energy.

  Moreover, although the case where it applied to the power generation system connected with the grid | system was shown in said embodiment, it is also possible to apply to the natural energy utilization power generation system as an independent power supply which is not linked with a grid | system.

  Further, in the above-described embodiment, the switches a and b are provided as switching means for switching between charging and discharging, and the switching modes include “charge execution only mode”, “charge / discharge stop mode” and “daytime surplus power”. Although the case of using the “charge night discharge mode” is shown, there is no limit to the number and arrangement of switches constituting the switching means, and the switching means may be constituted by other than the switches, and various modes In short, it suffices if some switching means for switching some mode related to charging and discharging of the power storage unit is provided.

It is explanatory drawing which shows the charging / discharging control system of embodiment.

Explanation of symbols

1 ... Power generation unit 2 ... Power conditioner (inverter)
4 ... Load 5 ... Power storage unit 10 ... Processing control unit 11 ... Storage unit 12 ... Internet network

Claims (1)

A power generation unit using natural energy, an inverter that converts DC power generated by the power generation unit into AC power and outputs it to the load side, and a power storage unit that stores the power generated by the power generation unit are provided. A charge / discharge control system for a power storage unit in a power generation system using natural energy, wherein the generated power is converted into AC power and output to the load side,
A switching means for switching modes related to charging and discharging of the power storage unit is provided,
A storage unit that reads and stores the load demand status and the power generation status, past load demand status and power generation status data stored in the storage unit, weather forecast information from the Internet network, and a charge status in the power storage unit A charging / discharging control system for a power storage unit in a natural energy-based power generation system, comprising: a processing control unit that performs processing based on the above and causes the switching unit to switch the mode.

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