In-situ monitoring of flue gas contaminants for fuel cell systems

What is claimed is: 1. A power production system comprising: a fuel cell separation system comprising a molten carbonate fuel cell and configured to receive a flue gas and to produce electrical power therefrom; a flue gas polishing system positioned upstream of the fuel cell separation system and configured to remove contaminants in the flue gas; a flue gas analyzer configured to receive a first sample of the flue gas from a location upstream of the flue gas polishing system, to receive a second sample of the flue gas from a location downstream of the flue gas polishing system, and to measure an amount of the contaminants in the flue gas at the location upstream of the flue gas polishing system and at the location downstream of the flue gas polishing system; and a plant control system operatively coupled to the flue gas polishing system, the flue gas analyzer, and the fuel cell separation system and configured to: calculate a contaminant removal efficiency of the flue gas polishing system as a ratio of the amount of contaminants in the second sample of the flue gas from the location downstream of the flue gas polishing system to the amount of contaminants in the first sample of the flue gas from the location upstream of the flue gas polishing system; and adjust operational parameters of the flue gas polishing system and a fuel cell assembly in the fuel cell separation system based on the calculated contaminant removal efficiency. 2. The power production system of claim 1 , wherein: the fuel cell assembly in the fuel cell separation system comprises an anode section and a cathode section, and the cathode section is configured to receive the flue gas that contains carbon dioxide. 3. The power production system of claim 2 , wherein the anode section produces an anode exhaust gas comprising carbon dioxide, hydrogen, and carbon monoxide. 4. The power production system of claim 3 , further comprising a gas separation assembly configured to receive the anode exhaust gas. 5. The power production system of claim 4 , wherein the gas separation assembly comprises at least one of a water removal system, a compressor, or a chiller. 6. The power production system of claim 4 , wherein the gas separation assembly comprises a chiller configured to separate carbon dioxide from the anode exhaust gas. 7. The power production system of claim 2 , wherein the molten carbonate fuel cell is an internal reforming MCFC. 8. The power production system of claim 2 , wherein the molten carbonate fuel cell is an external reforming MCFC. 9. The power production system of claim 1 , wherein the plant control system is configured to take at least one corrective action when the amount of the contaminants in the flue gas at the location downstream of the flue gas polishing system exceeds a predetermined threshold. 10. The power production system of claim 9 , wherein the corrective action comprises at least one of a visual warning, an audible warning, lowering an amount of carbon dioxide captured from the flue gas, or shutting down the fuel cell separation system.