Gas turbine power generation system comprising an emergency power supply system

The invention claimed is: 1. A gas turbine power generation system, comprising: a hydrogen-cooled generator; a plant hydrogen storage; generator auxiliaries configured to receive hydrogen from the plant hydrogen storage, process the hydrogen, and feed the hydrogen to the hydrogen-cooled generator for cooling of the generator; and an emergency power supply system that comprises a fuel cell; the fuel cell directly connected to the hydrogen-cooled generator via at least one supply line such that hydrogen is feedable to the fuel cell during purging of hydrogen from the hydrogen-cooled generator that occurs during a failure or disruption in operation of the gas turbine power generation system such that hydrogen purged from the hydrogen-cooled generator is fed to the fuel cell, the fuel cell configured to generate electricity from the hydrogen received from the hydrogen-cooled generator. 2. The gas turbine power generation system according to claim 1 , wherein the gas turbine power generation system is configured so that the fuel cell is configured to receive additional hydrogen from the plant hydrogen storage and/or to receive additional hydrogen via the generator auxiliaries during a failure or disruption in operation of the generator. 3. The gas turbine power generation system according to claim 1 , wherein the emergency power supply system is configured as an uninterruptible power supply (UPS) system. 4. The gas turbine power generation system according to claim 1 , wherein the emergency power supply system is configured as an independent power generating system. 5. The gas turbine power generation system according to claim 1 , wherein the emergency power supply system is configured as an uninterruptible power supply (UPS) system and an independent power generating system that are configured into one system. 6. The gas turbine power generation system of claim 1 , wherein the generator auxiliaries are configured as a gas unit that is configured to process hydrogen received from the plant hydrogen storage prior to the hydrogen being fed to the hydrogen-cooled generator. 7. The gas turbine power generation system of claim 1 , wherein the hydrogen-cooled generator is configured to receive inert gas and carbon dioxide to purge the hydrogen from the hydrogen-cooled generator and feed the purged hydrogen to the fuel cell. 8. The gas turbine generation system of claim 1 , wherein the fuel cell is configured to produce direct current electricity. 9. The gas turbine system of claim 1 , wherein the fuel cell is configured to receive additional hydrogen from the plant hydrogen storage. 10. The gas turbine system of claim 1 , wherein the fuel cell is configured to receive additional hydrogen from the generator auxiliaries. 11. The gas turbine system of claim 1 , wherein the fuel cell is configured to receive additional hydrogen from both the generator auxiliaries and the plant hydrogen storage. 12. The gas turbine power generation system of claim 1 , wherein the generator auxiliaries are configured as a gas unit that is configured to condition, clean, and cool the hydrogen prior to the hydrogen being fed to the hydrogen-cooled generator. 13. The gas turbine power generation system of claim 1 , wherein the generator auxiliaries are configured to condition, clean, and cool the hydrogen prior to the hydrogen being fed to the hydrogen-cooled generator. 14. The gas turbine power generation system of claim 1 , wherein the fuel cell is directly connected to the hydrogen-cooled generator such that there is no storage device located between the fuel cell and the hydrogen-cooled generator along the direct connection between the fuel cell and the hydrogen-cooled generator. 15. The gas turbine power generation system of claim 1 , wherein the hydrogen-cooled generator is configured to purge hydrogen during the failure or disruption in operation of the gas turbine power generation system such that the hydrogen purged from the hydrogen-cooled generator is fed to the fuel cell via the direct connection between the hydrogen-cooled generator and the fuel cell. 16. A gas turbine power generation system, comprising: a hydrogen-cooled generator having hydrogen as a coolant, a plant hydrogen storage, generator auxiliaries, and an emergency power supply system comprising a fuel cell configured to use hydrogen as fuel to generate electricity from hydrogen directly supplied to the fuel cell by the hydrogen-cooled generator during a failure or disruption in operation of the gas turbine power generation system such that the hydrogen from the hydrogen-cooled generator is purged from the hydrogen-cooled generator in response to the failure or disruption and is directly fed to the fuel cell. 17. A method for operating a gas turbine power generation system, the gas turbine power generation system comprising: a hydrogen-cooled generator having hydrogen as coolant, a plant hydrogen storage, generator auxiliaries, and an emergency power supply system comprising a fuel cell configured to use hydrogen as fuel, the method comprising: directly supplying hydrogen from the hydrogen-cooled generator to the fuel cell in response to a failure or disruption of operation of the gas turbine power generation system, wherein the hydrogen that is directly supplied to the fuel cell is hydrogen that is purged from the hydrogen-cooled generator during the failure or disruption; and generating electricity by the fuel cell using the hydrogen directly supplied from the hydrogen-cooled generator to the fuel cell. 18. The method of claim 17 , wherein the hydrogen is directly supplied to the fuel cell via at least one line.