Compressed air energy storage power generation device and compressed air energy storage power generation method

The invention claimed is: 1. A compressed air energy storage power generation device comprising: a compressor that is mechanically connected to a driving machine and compresses air; a first pressure accumulation unit that stores compressed air compressed by the compressor; an expander driven by compressed air supplied from the first pressure accumulation unit; a power generator mechanically connected to the expander; a first heat exchanger that exchanges heat between a heat medium and the compressed air supplied from the compressor to the first pressure accumulation unit; a second heat exchanger that exchanges heat between the heat medium and the compressed air supplied from the first pressure accumulation unit to the expander; an SOC detection unit that detects SOC of the first pressure accumulation unit; an SOC regulating unit that regulates the SOC of the first pressure accumulation unit; and a control device that controls the SOC regulating unit such that the SOC detected by the SOC detection unit is within an optimal SOC range which is based on operating efficiencies of the compressor and the expander while satisfying a requested power. 2. The compressed air energy storage power generation device according to claim 1 , wherein the SOC regulating unit includes a heat storage unit that is fluidly connected to the first heat exchanger and the second heat exchanger and stores the heat medium, and a heating unit that heats the heat medium within the heat storage unit. 3. The compressed air energy storage power generation device according to claim 2 , wherein when the SOC of the first pressure accumulation unit is larger than the optimal SOC range, the control device supplies the compressed air in the first pressure accumulation unit to the expander and drives the power generator to generate power, and supplies the generated power of the power generator to the heating unit. 4. The compressed air energy storage power generation device according to claim 1 , wherein when the SOC of the first pressure accumulation unit is smaller than the optimal SOC range, the control device produces compressed air by the driving machine to supply the compressed air to the first pressure accumulation unit. 5. The compressed air energy storage power generation device according to claim 1 , wherein the SOC regulating unit includes a second pressure accumulation unit. 6. The compressed air energy storage power generation device according to claim 5 , wherein the control device supplies the compressed air to the second pressure accumulation unit and supplies the compressed air in the first pressure accumulation unit to the expander when the SOC of the first pressure accumulation unit is larger than the optimal SOC range, and supplies the compressed air in the first pressure accumulation unit to the second pressure accumulation unit when the internal pressure of the first pressure accumulation unit is higher than the internal pressure of the second pressure accumulation unit. 7. The compressed air energy storage power generation device according to claim 5 , wherein the control device supplies the compressed air to the first pressure accumulation unit and supplies the compressed air in the second pressure accumulation unit to the expander when the SOC of the first pressure accumulation unit is smaller than the optimal SOC range, and supplies the compressed air in the second pressure accumulation unit to the first pressure accumulation unit when the internal pressure of the first pressure accumulation unit is lower than the internal pressure of the second pressure accumulation unit. 8. The compressed air energy storage power generation device according to claim 1 , wherein the SOC regulating unit includes an air release valve for releasing the compressed air from the first pressure accumulation unit, and when the SOC of the first pressure accumulation unit is larger than the optimal SOC range, the control device opens the air release valve to release the compressed air from the first pressure accumulation unit. 9. The compressed air energy storage power generation device according to claim 1 , wherein regardless of the requested power, the control device controls the SOC regulating unit to decrease the SOC when the SOC detected by the SOC detection unit is within a predetermined high range, and controls the SOC regulating unit to increase the SOC when the SOC detected by the SOC detection unit is within a predetermined low range. 10. A compressed air energy storage power generation method comprising: a step of compressing air; a step of cooling compressed air whose temperature is increased in the compression step; a step of storing the cooled compressed air in a first pressure accumulation unit; a step of regulating an SOC of the first pressure accumulation unit so as to be within an optimal SOC range which is based on operating efficiencies of the compressor and the expander; a step of heating the stored compressed air; and a step of generating power by expanding the heated compressed air. 11. The compressed air energy storage power generation device according to claim 2 , wherein when the SOC of the first pressure accumulation unit is smaller than the optimal SOC range, the control device produces compressed air by the driving machine to supply the compressed air to the first pressure accumulation unit. 12. The compressed air energy storage power generation device according to claim 2 , wherein the SOC regulating unit includes a second pressure accumulation unit. 13. The compressed air energy storage power generation device according to claim 2 , wherein the SOC regulating unit includes an air release valve for releasing the compressed air from the first pressure accumulation unit, and when the SOC of the first pressure accumulation unit is larger than the optimal SOC range, the control device opens the air release valve to release the compressed air from the first pressure accumulation unit. 14. The compressed air energy storage power generation device according to claim 2 , wherein regardless of the requested power, the control device controls the SOC regulating unit to decrease the SOC when the SOC detected by the SOC detection unit is within a predetermined high range, and controls the SOC regulating unit to increase the SOC when the SOC detected by the SOC detection unit is within a predetermined low range.