Ultra high efficiency fuel cell power generation system

What is claimed is: 1. A fuel cell system comprising: a fuel cell having a cathode and an anode configured to receive a portion of a hydrocarbon feed and to output an anode exhaust stream comprising carbon dioxide, hydrogen, and water; and an electrolyzer cell having a cathode and an anode, wherein the anode of the electrolyzer cell is configured to receive a first portion of the anode exhaust stream and another portion of the hydrocarbon feed, and to generate a hydrogen stream; a methanation catalyst provided downstream of the electrolyzer cell; and a peaker fuel cell, wherein: the methanation catalyst is configured to react with the hydrogen stream such that carbon monoxide is removed from the hydrogen stream and methane is formed; the peaker fuel cell is configured to receive the hydrogen stream from which carbon monoxide was removed and to output a peaker fuel cell exhaust stream; and the peaker fuel cell exhaust stream is recycled to the anode of the electrolyzer cell or the fuel cell, is exported from the fuel cell system, or a combination thereof. 2. The fuel cell system according to claim 1 , wherein the anode of the electrolyzer cell is further configured to remove carbon dioxide from the first portion of the anode exhaust stream. 3. The fuel cell system according to claim 1 , further comprising: an anode gas oxidizer configured to oxidize a gas stream comprising a second portion of the anode exhaust stream and to output an oxidized exhaust; a heat exchanger configured to receive an air stream and the oxidized exhaust, and to transfer heat from the oxidized exhaust to the air stream; and a cathode supply line configured to supply a heated air stream output from the heat exchanger to the cathode of the fuel cell. 4. The fuel cell system according to claim 3 , wherein the air stream received by the heat exchanger comprises a cathode exhaust stream output by the cathode of the electrolyzer cell. 5. The fuel cell system according to claim 3 , wherein the hydrogen stream comprises at least 70% hydrogen. 6. The fuel cell system according to claim 5 , wherein at least a portion of the hydrogen stream is recycled to the anode of the fuel cell. 7. The fuel cell system according to claim 1 , wherein a third portion of the anode exhaust stream is recycled and mixed, at a location upstream of an inlet of the anode of the fuel cell, with a fuel gas stream comprising natural gas. 8. The fuel cell system according to claim 1 , wherein: the fuel cell is a solid oxide fuel cell, and the electrolyzer cell is a molten carbonate electrolysis cell. 9. A fuel cell system comprising: a first fuel cell having a cathode and an anode configured to output an anode exhaust stream comprising carbon dioxide, hydrogen, and water; a proton-exchange membrane fuel cell; an anode gas oxidizer; and an electrolyzer cell having a cathode and an anode, wherein: the anode of the electrolyzer cell is configured to receive a first portion of the anode exhaust stream and to generate a hydrogen stream; the proton-exchange membrane fuel cell is configured to receive at least a portion of the hydrogen stream and to output an exhaust stream; the anode gas oxidizer is configured to oxidize a gas stream comprising the exhaust stream of the proton-exchange membrane fuel cell and to output an oxidized exhaust; and the cathode of the electrolyzer cell is configured to output an air stream to the cathode of the first fuel cell. 10. The fuel cell system according to claim 9 , further comprising: a heat exchanger configured to receive the air stream and the oxidized exhaust; and a cathode supply line, wherein: the heat exchanger is further configured to transfer heat from the oxidized exhaust to the air stream, and the cathode supply line is configured to supply a heated air stream output from the heat exchanger to the cathode of the first fuel cell. 11. The fuel cell system of claim 1 , wherein the anode of the fuel cell is configured to receive a mixed fuel stream including the portion of the hydrocarbon feed and a portion of the anode exhaust stream that has been recycled. 12. The fuel cell system of claim 11 , further comprising an external reformer configured to reform the mixed fuel stream before being introduced into the fuel cell. 13. The fuel cell system of claim 11 , wherein the fuel cell is configured to internally reform the mixed fuel stream by converting methane and water to hydrogen and carbon dioxide. 14. The fuel cell system of claim 11 , wherein the fuel cell comprises a plurality of unit cells connected to form a fuel cell stack. 15. The fuel cell system of claim 11 , further comprising a first blower configured to direct the mixed fuel stream to the anode of the fuel cell. 16. The fuel cell system of claim 15 , further comprising a first heat exchanger configured to heat the mixed fuel stream before being introduced into the fuel cell. 17. The fuel cell system of claim 16 , wherein the electrolyzer cell is a molten carbonate electrolyzer cell, and the fuel cell system further comprises: an air supply line coupled to the molten carbonate electrolyzer cell; a second heat exchanger coupled to the air supply line; and a second blower configured to direct an air stream through the air supply line and the second heat exchanger to the molten carbonate electrolyzer cell, wherein the second heat exchanger is configured to heat the air stream before the air stream is introduced into the molten carbonate electrolyzer cell. 18. A fuel cell system comprising: a fuel cell having a cathode and an anode configured to receive a portion of a hydrocarbon feed and to output an anode exhaust stream comprising carbon dioxide, hydrogen, and water; an electrolyzer cell having a cathode and an anode, wherein the anode of the electrolyzer cell is configured to receive a first portion of the anode exhaust stream and another portion of the hydrocarbon feed, and to generate a hydrogen stream, wherein the hydrogen stream comprises at least 70% hydrogen; an anode gas oxidizer configured to oxidize a gas stream comprising a second portion of the anode exhaust stream and to output an oxidized exhaust; a heat exchanger configured to receive an air stream and the oxidized exhaust, and to transfer heat from the oxidized exhaust to the air stream; a cathode supply line configured to supply a heated air stream output from the heat exchanger to the cathode of the fuel cell; and a proton-exchange membrane fuel cell configured to receive at least a portion of the hydrogen stream, wherein: the proton-exchange membrane fuel cell is configured to output an exhaust stream; and the gas stream oxidized by the anode gas oxidizer comprises the exhaust stream of the proton-exchange membrane fuel cell.