Method for restoring battery capacity, method for restoring battery pack capacity, device for restoring battery capacity, and device for restoring battery pack capacity

The invention claimed is: 1. A method for restoring a battery capacity of at least one nickel-hydride storage battery including a positive electrode, a negative electrode, a turn-back type safety valve device, an aqueous electrolyte by increasing a discharge capacity of the negative electrode, the method including: an oxygen generating and exhausting step of charging the at least one nickel-hydride storage battery to generate oxygen gas from the aqueous electrolyte in the positive electrode and bringing the safety valve device in a valve-open state to release at least part of the generated oxygen gas out of the battery through the safety valve device, wherein a battery temperature Ta of the at least one nickel-hydride storage battery at start of the oxygen generating and exhausting step is in a range of −30 to 10° C. and an SOC at the start is in a range of (30-Ta) to 100%, or, the battery temperature Ta of the at least one nickel-hydride storage battery at the start is in a range of 10 to 50° C. and the SOC is in a range of 20 to 100%. 2. The method for restoring a battery capacity according to claim 1 , wherein the battery temperature Ta of the at least one nickel-hydride storage battery at the start of the oxygen generating and exhausting step is in the range of −30 to 10° C. and the SOC at the start is in a range of (40-Ta) to 100%, or, the battery temperature Ta of the at least one nickel-hydride storage battery at the start is in the range of 10 to 50° C. and the SOC at the start is in a range of 30 to 100%. 3. A method for restoring a battery-pack capacity of a battery pack including a plurality of the nickel-hydride storage batteries by performing the battery capacity restoring method set forth in claim 1 on each of the plurality of nickel-hydride storage batteries, wherein the oxygen generating and exhausting step is performed while at least either cooling one or multiple nickel-hydride storage batteries placed in a central region, out of the plurality of nickel-hydride storage batteries constituting the battery pack, or heating one or multiple nickel-hydride storage batteries placed in outer regions, out of the plurality of nickel-hydride storage batteries constituting the battery pack. 4. A device for restoring a battery capacity of at least one nickel-hydride storage battery including a positive electrode, a negative electrode, a turn-back type safety valve device, and an aqueous electrolyte by increasing a discharge capacity of the negative electrode, the device including: a charge part configured to charge the at least one nickel-hydride storage battery to generate oxygen gas from the aqueous electrolyte in the positive electrode; a valve opening part configured to valve-open the safety valve device of the at least one nickel-hydride storage battery; a temperature detecting part configured to detect a battery temperature Ta of the at least one nickel-hydride storage battery; a SOC measuring part configured to measure SOC of the at least one nickel-hydride storage battery; and a controller configured to control charging by the charge part and valve-opening by the valve opening part based on the battery temperature and the SOC of the at least one nickel-hydride storage battery, wherein the controller is configured to cause the charge part to charge the at least one nickel-hydride storage battery and cause the valve opening part to bring the safety valve device in a valve-open state under a starting condition that the battery temperature Ta detected by the temperature detecting part is in a range of −30 to 10° C. and the SOC measured by the SOC measuring part is in a range of (30-Ta) to 100%, or, cause the charge part to charge the at least one nickel-hydride storage battery and cause the valve opening part to bring the safety valve device in a valve-open state under a starting condition that the battery temperature Ta is in a range of 10 to 50° C. and the SOC is in a range of 20 to 100%. 5. The device for restoring a battery capacity according to claim 4 , wherein the controller is configured to cause the charge part to charge the at least one nickel-hydride storage battery and cause the valve opening part to bring the safety valve device in the valve-open state under a starting condition that the battery temperature Ta is in the range of −30 to 10° C. and the SOC is in a range of (40-Ta) to 100%, or, cause the charge part to charge the at least one nickel-hydride storage battery and cause the valve opening part to bring the safety valve device in the valve-open state under a starting condition that the battery temperature Ta is in the range of 10 to 50° C. and the SOC is in a range of 30 to 100%. 6. A device for restoring a battery-pack capacity of a battery pack including a plurality of the nickel-hydride storage batteries by increasing a discharge capacity of the negative electrode of each of the plurality of nickel-hydride storage batteries, the device including: the battery capacity restoring device according to claim 4 ; and at least one of a cooling device for cooling one or multiple nickel-hydride storage batteries placed in a central region, out of the plurality of nickel-hydride storage batteries constituting the battery pack and a heating device for heating one or multiple nickel-hydride storage batteries placed in outer regions, out of the plurality of nickel-hydride storage batteries constituting the battery pack. 7. A method for restoring a battery-pack capacity of a battery pack including a plurality of the nickel-hydride storage batteries by performing the battery capacity restoring method set forth in claim 2 on each of the plurality of nickel-hydride storage batteries, wherein the oxygen generating and exhausting step is performed while at least either cooling one or multiple nickel-hydride storage batteries placed in a central region, out of the plurality of nickel-hydride storage batteries constituting the battery pack, or heating one or multiple nickel-hydride storage batteries placed in outer regions, out of the plurality of nickel-hydride storage batteries constituting the battery pack. 8. A device for restoring a battery-pack capacity of a battery pack including a plurality of the nickel-hydride storage batteries by increasing a discharge capacity of the negative electrode of each of the plurality of nickel-hydride storage batteries, the device including: the battery capacity restoring device according to claim 5 ; and at least one of a cooling device for cooling one or multiple nickel-hydride storage batteries placed in a central region, out of the plurality of nickel-hydride storage batteries constituting the battery pack and a heating device for heating one or multiple nickel-hydride storage batteries placed in outer regions, out of the plurality of nickel-hydride storage batteries constituting the battery pack.