Fuel gas heating with thermal energy storage

What is claimed is: 1. A system, comprising: a gas turbine engine; a steam generating source configured to recover exhaust energy from the gas turbine and generate a supply of a working fluid; a fuel gas source configured to supply fuel gas to the gas turbine engine; a thermal storage unit configured to store a thermal storage working medium for heating the fuel gas supplied from the fuel gas source to the gas turbine, the thermal storage unit including a cold tank storing the thermal storage working medium in a cold state and a hot tank storing the thermal storage working medium in a heated state, wherein the thermal storage working medium is separate and different from the working fluid; a first fuel gas heater configured to heat the fuel gas supplied from the fuel gas source; and a second fuel gas heater configured to complement the first fuel gas heater in the heating of the fuel gas supplied from the fuel gas source, wherein the first fuel gas heater and the second fuel gas heater utilize an extracted portion of the working fluid generated in the steam generating source and thermal energy from the thermal storage working medium stored in the hot tank of the thermal storage unit to heat the fuel gas to a predetermined fuel gas temperature level. 2. The system according to claim 1 , wherein the first fuel gas heater is configured to heat the fuel gas supplied from the fuel gas source and the second fuel gas heater is configured to further heat the fuel gas generated from the first fuel gas heater, wherein the second fuel gas heater receives the thermal storage working medium from the hot tank of the thermal storage unit and facilitates a heat transfer of thermal energy between the thermal storage working medium and the fuel gas generated from the first fuel gas heater to increase the temperature of the fuel gas to the predetermined fuel gas temperature level. 3. The system according to claim 2 , wherein the steam generating source includes an energy storage charge heat exchanger that facilitates a heat transfer of thermal energy between the working fluid generated in the steam generating source and the thermal storage working medium in the cold tank of the thermal storage unit and discharges the thermal storage working medium in a heated state into the hot tank of the thermal storage unit. 4. The system according to claim 2 , wherein the steam generating source is configured to supply the extracted portion of the working fluid generated therein to the first fuel gas heater, the first fuel gas heater configured to facilitate a heat transfer of thermal energy between the extracted portion of the working fluid and the fuel gas to increase the temperature of the fuel gas supplied from the fuel gas source. 5. The system according to claim 2 , wherein the steam generating source comprises a multi-pressure heat recovery steam generation unit including a high pressure section, an intermediate pressure section and a low pressure section, wherein the high pressure section, the intermediate pressure section and the low pressure section each includes a superheater, an evaporator and an economizer. 6. The system according to claim 5 , wherein an economizer from at least one of the pressure sections in the multi-pressure heat recovery steam generation unit is configured to supply the extracted portion of the working fluid generated therein to the first fuel gas heater, the first fuel gas heater configured to facilitate a heat transfer of thermal energy between the extracted portion of the working fluid and the fuel gas to increase the temperature of the fuel gas. 7. The system according to claim 2 , wherein the second fuel gas heater is configured to provide the fuel gas heated to the predetermined fuel gas temperature level to a combustor chamber of the gas turbine engine. 8. The system according to claim 1 , wherein the second fuel gas heater is configured to heat up the extracted portion of the working fluid generated in the steam generating source with the thermal storage working medium in the hot tank of the thermal storage unit, the first fuel gas heater receiving the heated extracted portion of the working fluid from the second fuel gas heater and facilitating a heat transfer of thermal energy with the fuel gas supplied from the fuel gas source. 9. The system according to claim 8 , wherein the second fuel gas heater is configured to receive the thermal storage working medium from the hot tank of the thermal storage unit and facilitate a heat transfer of thermal energy between the thermal storage working medium and the extracted portion of the working fluid to increase the temperature of the extracted portion of the working fluid before being supplied to the first fuel gas heater. 10. The system according to claim 9 , wherein the second fuel gas heater is configured to supply the thermal storage medium after the heat transfer thereof with the extracted portion of the working fluid to the cold tank of the thermal storage unit for storage. 11. The system according to claim 8 , wherein the steam generating source includes an energy storage charge heat exchanger that transfers thermal energy between the working fluid generated in the steam generating source and the thermal storage working medium in the cold tank of the thermal storage unit and discharges the thermal storage working medium in a heated state into the hot tank of the thermal storage unit. 12. The system according to claim 8 , wherein the steam generating source comprises a multi-pressure heat recovery steam generation unit including a high pressure section, an intermediate pressure section and a low pressure section, wherein the high pressure section, the intermediate pressure section and the low pressure section each includes a superheater, an evaporator and an economizer. 13. The system according to claim 12 , wherein an economizer from at least one of the pressure sections in the heat recovery steam generation unit is configured to supply the extracted portion of the working fluid to the second fuel gas heater, the second fuel gas heater facilitating a heat transfer of thermal energy between the thermal storage working medium and the extracted portion of the working fluid to increase the temperature of the extracted portion of the working fluid. 14. The system according to claim 8 , wherein the second fuel gas heater is configured to receive the thermal storage medium stored in the cold tank of the thermal storage unit and charge the thermal storage medium to a heated state with the extracted portion of the working fluid generated in the steam generating source, the second fuel gas heater discharging the thermal storage medium in the heated state to the hot tank of the thermal storage unit for storage. 15. The system according to claim 8 , further comprising a working fluid heat exchanger that facilitates a heat transfer between portions of the working fluid extracted from at least two different pressure sections in the steam generating source resulting in the extracted portion of the working fluid generated from the steam generating source, the working fluid heat exchanger configured to supply the extracted portion of the working fluid to the second fuel gas heater. 16. The system according to claim 15 , wherein the steam generating source comprises a multi-pressure heat recovery steam generation unit including a high pressure section, an intermediate pressure section and a low pressure section, wherein the high pressure section, the intermediate pressure section and the low pressure section each includes a superheater, an evaporator and an economizer.