Power supply and demand control method, power supply and demand control device

What is claimed is: 1. A power supply and demand control method of a power storage system that includes a storage battery and receives power from a commercial system based on a contract power, the method comprising: predicting a consumption power of a customer for each of time slots divided by a specific time interval; assigning one of a frequency control and a peak shaving control to each of the time slots based on the predicted consumption power; and controlling the storage battery based on the assigned frequency control or the assigned peak shaving control in each of the time slots, wherein the peak shaving control is assigned to each of the time slots in which the predicted consumption power is higher than the contract power, and the frequency control is assigned to each of the time slots in which the predicted consumption power is equal to or lower than the contract power, wherein, in each of the time slots to which the frequency control is assigned, charging and discharging of the storage battery are alternately performed during time periods shorter than the specific time interval of the time slots, to keep an alternate current frequency of the commercial system within a predetermined range. 2. The power supply and demand control method according to claim 1 , further comprising: performing a bid for the frequency control in a time slot, before a bid deadline. 3. The power supply and demand control method according to claim 2 , further comprising: cancelling the bid by the bid deadline in a case where the peak shaving control is assigned to the time slot. 4. The power supply and demand control method according to claim 1 , further comprising: estimating a state of charge of the power storage system in each of the time slots, wherein the frequency control is assigned to each of the time slots in which the predicted power consumption is equal to or lower than the contract power and the estimated state of charge is within a prescribed range, and a charge control is assigned to each of the time slots in which the predicted power consumption is equal to or lower than the contract power and the estimated state of charge is lower than a prescribed range. 5. The power supply and demand control method according to claim 4 , wherein a charge amount in the time slots to which the charge control is assigned, is equal to or higher than a difference between the consumption power and the contract power in the time slots. 6. The power supply and demand control method according to claim 5 , wherein, in a case where the state of charge is not kept within the prescribed range by using power within a range of the contract power in a time slot to which the charge control is assigned, the charge control is successively assigned to each of later time slots until the state of charge becomes within the prescribed range. 7. The power supply and demand control method according to claim 6 , wherein, in a case where the consumption power in a next time slot is predicted to become equal to or lower than the contract power, the frequency control is assigned to the next time slot. 8. The power supply and demand control method according to claim 4 , wherein, in a case where the peak shaving control is performed in earlier time slots, a power amount that is equivalent to a discharge amount of the peak shaving control in the earlier time slots is charged to the power storage system by using one or more time slots to which the charge control is assigned. 9. The power supply and demand control method according to claim 4 , wherein, in a case where the peak shaving control is assigned to a time slot and the peak shaving control is completed by an end time of the time slot, the charge control of the power storage system is started in a period of the time slot. 10. The power supply and demand control method according to claim 4 , wherein, in a case where the peak shaving control is not completed by using earlier time slots than the time slots to which the charge control is assigned, the peak shaving control is continued by using one or more time slots to which the charge control is assigned, and the peak shaving control is switched to the charge control when the peak shaving control is completed. 11. The power supply and demand control method according to claim 4 , wherein, charge and discharge of the power storage system is performed by using one or more time slots to which the charge control is assigned, to make the state of charge of the power storage system within the prescribed range at a start time of a time slot to which the frequency control is assigned. 12. The power supply and demand control method according to claim 4 , wherein, in a case where the consumption power of the customer is predicted to exceed the contract power, in the time slots to which the charge control is assigned, by performing charge until the state of charge of the power storage system becomes within the prescribed range, a load that belongs to the customer is stopped. 13. The power supply and demand control method according to claim 12 , wherein the peak shaving control is performed in a time slot to which the peak shaving control is assigned, by supplying power from the power storage system to the load that belongs to the customer, and by reducing or stopping the load that belongs to the customer. 14. The power supply and demand control method according to claim 4 , wherein, in a case where the consumption power of the customer is predicted to exceed the contract power, in the time slots to which the charge control is assigned, by performing charge until the state of charge of the power storage system becomes within the prescribed range, a plan in which a higher incentive is obtained is selected from: (i) a plan in which a charge amount is reduced so that the consumption power of the customer in the time slots to which the charge control is assigned, is lower than the contract power and the charge control is assigned to a next time slot, and (ii) a plan in which charge is performed in the time slots to which the charge control is assigned, until the state of charge of the power storage system becomes within the prescribed range and the frequency control is assigned to the next time slot. 15. A power supply and demand control device of a power storage system that includes a storage battery and receives power from a commercial system based on a contract power, the device comprising: one or more memories; and circuitry operative to: predict a consumption power of a customer for each of time slots divided by a specific time interval; assign one of a frequency control and a peak shaving control to each of the time slots based on the predicted consumption power; and control the storage battery based on the assigned frequency control or the assigned peak shaving control in each of the time slots, wherein the peak shaving control is assigned to each of the time slots in which the predicted consumption power is higher than the contract power, and the frequency control is assigned to each of the time slots in which the predicted consumption power is equal to or lower than the contract power, wherein, in each of the time slots to which the frequency control is assigned, charging and discharging of the storage battery are alternately performed during time periods shorter than the specific time interval of the time slots, to keep an alternate current frequency of the commercial system within a predetermined range.