Combined natural gas power generation and CO2 sequestration system

What is claimed is: 1. A combined system for power generation and CO 2 sequestration, comprising: a fuel cell system configured to generate power using natural gas (NG); a container configured to store liquid natural gas (LNG); and a fluid processor configured to convert LNG received from the container into NG and to convert exhaust output from the fuel cell system to dry ice by transferring heat between and the LNG and the exhaust, wherein the fluid processor comprises: a first heat exchanger configured to cool the exhaust output from the fuel cell system; and a compressor configured to compress the cooled fuel cell system exhaust output from the first heat exchanger. 2. The combined system of claim 1 , wherein the fluid processor further comprises: a second heat exchanger configured to generate liquid CO 2 by transferring heat between the compressed exhaust output from the compressor and the LNG received from the container; and a dry ice machine configured to convert the liquid CO 2 received from the second heat exchanger to the dry ice. 3. The combined system of claim 2 , wherein the second heat exchanger is configured to generate NG by vaporizing LNG received from the container. 4. The combined system of claim 2 , wherein the fluid processor further comprises a vaporizer configured to vaporize any LNG received from the second heat exchanger. 5. The combined system of claim 4 , wherein the vaporizer is configured to heat the received LNG using sea water. 6. The combined system of claim 1 , wherein the first heat exchanger is configured to cool the exhaust output from the fuel cell system using ambient air. 7. A combined system for power generation and CO 2 sequestration, comprising: a fuel cell system configured to generate power using natural gas (NG); a container configured to store liquid natural gas (LNG); a fluid processor configured to convert LNG received from the container into NG and to convert exhaust output from the fuel cell system to dry ice by transferring heat between the LNG and the exhaust, wherein the fluid processor comprises: a first heat exchanger configured to cool the exhaust output from the fuel cell system; a compressor configured to compress the cooled exhaust output from the first heat exchanger; a second heat exchanger configured to generate liquid CO 2 by transferring heat between the compressed exhaust output from the compressor and the LNG received from the container; and a dry ice machine configured to convert the liquid CO 2 received from the second heat exchanger to the dry ice, and wherein the first heat exchanger is configured to cool the exhaust output from the fuel cell system using the NG output from the second heat exchanger. 8. The combined system of claim 1 , wherein the first heat exchanger and the compressor are configured to collect and output water condensed from the exhaust. 9. The combined system of claim 1 , wherein the fluid processor further comprises a water separator configured to remove water vapor from the cooled exhaust received from the first heat exchanger and output dry CO 2 to the compressor. 10. The combined system of claim 1 , wherein the fuel cell system comprises power modules comprising solid oxide fuel cells. 11. A vessel, comprising: a ship hull; the combined system of claim 1 located in the ship hull; an electrical load located in the ship hull and configured to be driven by power output from the fuel cell system. 12. The vessel of claim 11 , wherein the fluid processor comprises a vaporizer configured to vaporize LNG received from the container using sea water. 13. A method of combined power generation and CO 2 sequestration, comprising: providing natural gas (NG) to a fuel cell system to generate power; cooling exhaust output from fuel cell system using a first heat exchanger; compressing the cooled fuel cell system exhaust output from the first heat exchanger using a compressor; cooling the compressed exhaust output from the compressor using a second heat exchanger provided with liquid natural gas (LNG) to generate liquid CO 2 ; converting the liquid CO 2 into dry ice; vaporizing the LNG to generate the NG; and providing the generated NG to the fuel cell system. 14. The method of claim 13 , wherein the vaporizing the LNG comprises using the second heat exchanger to transfer heat between the LNG and the compressed exhaust. 15. The method of claim 13 , wherein the vaporizing the LNG comprises using seawater provided to a vaporizer to heat any LNG output from the second heat exchanger. 16. The method of claim 13 , wherein the cooling exhaust output from fuel cell system comprises using the first heat exchanger to cool the exhaust output from the fuel cell system using the NG output from the second heat exchanger and removing condensed water from the first heat exchanger. 17. The method of claim 13 , wherein the compressing cooled exhaust output from the first heat exchanger comprises removing condensed water from the compressor. 18. The method of claim 13 , further comprising drying the cooled exhaust output from the first heat exchanger using a water separator. 19. The method of claim 13 , wherein the cooling exhaust output from fuel cell system comprises using air or the generated NG to cool the output exhaust. 20. The method of claim 13 , further comprising providing the power generated by the fuel cell system to an electrical load of ship, wherein the fuel cell system is located on the ship.