Power system for more electric aircraft

What is claimed is: 1. A power system for an aircraft, comprising: a first fuel cell configured to provide base power to one or more loads on the aircraft; a second fuel cell configured to provide peak power to the one or more loads on the aircraft, wherein the peak power comprises power exceeding the base power; an energy storage device configured to provide transient power to the one or more loads on the aircraft, wherein the transient power comprises power exceeding the peak power; and a controller configured to control delivery of power from the first fuel cell, the second fuel cell, and the energy storage device to the one or more loads on the aircraft. 2. The power system of claim 1 , wherein the first fuel cell comprises a solid oxide fuel cell or a molten carbonate fuel cell. 3. The power system of claim 1 , wherein the second fuel cell comprises a proton exchange membrane fuel cell, an alkaline fuel cell, a phosphoric acid fuel cell, or a direct methanol fuel cell. 4. The power system of claim 1 , wherein the energy storage device comprise one of a battery, a capacitor, or a supercapacitor. 5. The power system of claim 1 , wherein the one or more loads on the aircraft comprise one or more high voltage loads, the power system further comprising: a high voltage bus configured to deliver a high voltage power to the one or more high voltage loads on the aircraft coupled to the high voltage bus; and one or more DC to DC converters coupled between the first fuel cell, the second fuel cell, or the energy storage device and the high voltage bus. 6. The power system of claim 5 , wherein the one or more loads on the aircraft further comprise one or more low voltage loads, the power system further comprising: a low voltage bus configured to deliver a low voltage power to the one or more low voltage loads on the aircraft coupled to the low voltage bus; and one or more DC to DC converters coupled between the high voltage bus and the low voltage bus. 7. The power system of claim 5 , wherein the one or more loads on the aircraft further comprise one or more AC loads, the power system further comprising: an AC network configured to deliver an AC power to the one or more AC loads on the aircraft coupled to the AC network; and one or more DC to AC converters coupled between the high voltage bus and the AC network. 8. The power system of claim 1 , further comprising: a fuel reformer configured to reform a hydrocarbon fuel into a reformed fuel suitable for use by the first fuel cell, wherein the first fuel cell is configured to generate the base power using the reformed fuel. 9. The power system of claim 1 , further comprising: a regenerative fuel cell, wherein the regenerative fuel cell is configured to convert electric energy from one or more regenerative loads on the aircraft into a regenerative fuel suitable for use by the regenerative fuel cell. 10. The power system of claim 9 , wherein the regenerative fuel cell is further configured to convert electric energy from the one or more regenerative loads on the aircraft into a fuel suitable for use by the second fuel cell. 11. The power system of claim 9 , wherein the regenerative fuel comprises hydrogen. 12. The power system of claim 11 , further comprising: a compressor configured to compress hydrogen generated by the regenerative fuel cell; and a hydrogen tank configured to store hydrogen compressed by the compressor. 13. The power system of claim 8 , further comprising: a regenerative bus, wherein the regenerative fuel cell is coupled to the regenerative bus; an emergency bus coupled to the regenerative bus; and one or more essential loads coupled to the emergency bus; wherein the regenerative fuel cell is further configured to generate an emergency power for the essential loads from the regenerative fuel. 14. The power system of claim 13 , further comprising: a solid fuel storage unit configured to store a solid fuel for use by the regenerative fuel cell; and wherein the regenerative fuel cell is further configured to generate the emergency power for the essential loads from the solid fuel. 15. The power system of claim 13 , wherein the regenerative bus is coupled to the high voltage bus; and wherein the regenerative bus is configured to receive power from the high voltage bus. 16. A method of providing power to one or more loads on an aircraft, the aircraft comprising power system, the power system comprising a first fuel cell configured to provide a base power, a second fuel cell configured to provide a peak power, and an energy storage device configured to provide a transient power, the peak power comprising a power exceeding the base power, the transient power comprising a power exceeding the peak power, the method comprising: determining, by one or more controllers, a power demand for the one or more loads on the aircraft; determining, by the one or more controllers, one or more selected power sources from the power system needed to meet the power demand; and controlling, by the one or more controllers, the one or more selected power sources to provide power to the one or more loads on the aircraft; wherein the first fuel cell comprises a solid oxide fuel cell or a molten carbonate fuel cell; wherein the second fuel cell comprises a proton exchange membrane fuel cell, an alkaline fuel cell, a phosphoric acid fuel cell, or a direct methanol fuel cell; and wherein the energy storage device comprises a battery, a capacitor, or a supercapacitor. 17. The method of claim 16 , wherein the first fuel cell is configured to provide power up to a first threshold, wherein when the power demand does not exceed the first threshold, determining, by the one or more controllers, one or more selected power sources from the power system needed to meet the power demand comprises selecting the first fuel cell as the selected power source, and controlling, by the one or more controllers, the one or more selected power sources to provide power to the one or more loads on the aircraft comprises controlling the first fuel cell to provide power to the one or more loads on the aircraft. 18. The method of claim 17 , wherein the first fuel cell and the second fuel cell are configured to provide power up to a second threshold, wherein when the power demand exceeds the first threshold but not the second threshold, determining, by the one or more controllers, one or more selected power sources from the power system needed to meet the power demand comprises selecting the first fuel cell and the second fuel cell as the selected power sources, and controlling, by the one or more controllers, the one or more selected power sources to provide power to the one or more loads on the aircraft comprises controlling the first fuel cell and second fuel cell to provide power to the one or more loads on the aircraft. 19. The method of claim 18 , wherein the first fuel cell, the second fuel cell, and the energy storage device are configured to provide power above a second threshold, wherein when the power demand exceeds the second threshold, determining, by the one or more controllers, one or more selected power sources from the power system needed to meet the power demand comprises selecting the first fuel cell, the second fuel cell, and the energy storage device as the selected power sources and controlling, by the one or more controllers, the one or more selected power sources to provide power to the one or more loads on the aircraft comprises controlling the first fuel cell, second fuel