System and method for reducing emissions in a chemical looping combustion system

What is claimed is: 1. A system for oxidizing impurities in post-combustion gas comprising: an oxidizer; a reducer operatively connected to the oxidizer, the reducer configured to receive the post-combustion gas; a CLOU material and a solid oxygen carrier (SOC) material, each capable of selective circulation between the oxidizer and reducer; wherein the CLOU material releases gaseous oxygen within the reducer to oxidize impurities present in the post-combustion gas to remove the same; wherein the oxidizer includes an outlet to remove spent SOC material; wherein the system further includes a controller configured to vary an amount of the CLOU material and the solid oxygen carrier (SOC) material circulated between the oxidizer and the reducer in dependence upon a real-time measurement of an amount of the impurities in the post-combustion gas; and wherein the oxidizer of the post-combustion system receives a gas containing oxygen from an oxidizer of a primary chemical looping combustion system to replenish the CLOU material. 2. The system of claim 1 wherein the reducer receives post-combustion gas from a chemical looping system. 3. The system of claim 1 wherein the impurities are C, CO, CH4, or H2S. 4. The system of claim 1 wherein the CLOU material is manganese, copper or cobalt. 5. The system of claim 1 wherein the CLOU material is a manganese oxide. 6. The system of claim 1 wherein the reducer is operatively connected to a carbon capture system. 7. The system of claim 6 wherein the carbon capture system comprises: a desulfurizer; a gas condenser; and a gas processing unit. 8. The system of claim 1 further including a heat exchanger disposed in the oxidizer operable to add heat to a reaction therein. 9. A chemical looping system comprising: a primary chemical looping combustion system having: an oxidizer that oxidizes a solid oxide to produce a replenished oxide that is returned to a reducer of the primary chemical looping combustion system, and a resulting gas containing oxygen; and the reducer that combusts a fuel which produces a resulting gas containing unburned/partially-oxidized impurities; and a post-combustion system for oxidizing the partially-oxidized impurities in the resulting gas, the post-combustion system operatively connected to the primary chemical looping combustion system, the post-combustion system including a reducer and an oxidizer, wherein a CLOU material and a solid oxygen carrier (SOC) material circulate therebetween, the oxidizer of the post-combustion system receiving the resulting gas containing oxygen from the oxidizer of the primary chemical looping combustion system to replenish the CLOU material, and the reducer of the post-combustion system receiving the resulting gas from the reducer of the primary chemical looping combustion system to further oxidize the unburned/partially-oxidized impurities in the same, wherein: the CLOU material releases gaseous oxygen within the reducer; the SOC material does not release gaseous oxygen within the reducer. 10. The system of claim 9 wherein the unburned/partially-oxidized impurities are C, CO, CH4, or H2S. 11. The system of claim 9 wherein the CLOU material is manganese, copper or cobalt. 12. The system of claim 9 wherein the CLOU material is manganese oxide. 13. The system of claim 9 further comprising: a carbon capture system operatively connected to the reducer of the post-combustion system. 14. The system of claim 13 wherein the carbon capture system comprises: a desulfurizer; a gas condenser; and a gas processing unit. 15. A method for oxidizing impurities from a post-combustion gas comprising: introducing a gas containing oxygen from an oxidizer of a chemical looping system to an oxidizer of a post-combustion system; introducing a post-combustion gas to a reducer of the post-combustion system that is operatively connected to the oxidizer of the post-combustion system; reacting the post-combustion gas in the reducer of the post-combustion system with a CLOU material and a solid oxygen carrier (SOC) material to oxidize the impurities in the post-combustion gas, wherein the CLOU material releases gaseous oxygen within the reducer of the post-combustion system and the SOC material does not release gaseous oxygen within the reducer of the post-combustion system; transferring the CLOU material and the SOC material to the oxidizer of the post-combustion system and introducing air to oxidize the CLOU material and the SOC material; transferring the CLOU material and the SOC material back to the reducer of the post-combustion system to further react with post-combustion gas. 16. The method of claim 15 wherein the post-combustion gas is received from a reducer of the chemical looping system. 17. The method of claim 15 further comprising the step of: transferring the post-combustion gas after it has been oxidized via the CLOU material to a carbon capture system. 18. The method of claim 15 wherein the impurities are C, CO, CH4, or H2S. 19. The system of claim 15 wherein the CLOU material is manganese, copper or cobalt. 20. The system of claim 15 wherein the CLOU material is manganese oxide. 21. The method of claim 15 further including heating a reaction in the oxidizer with a heat exchanger disposed therein. 22. A method of capturing CO2 in a post-combustion gas from a chemical looping combustion system for sequestration or reuse, the method comprising: introducing a gas containing oxygen from an oxidizer of the chemical looping combustion system to an oxidizer of a post-combustion system; introducing a post-combustion gas produced by the chemical looping combustion system into a reducer of the post-combustion system, the reducer being operatively connected to the oxidizer of the post-combustion system via a first separator and a second separator; reacting the post-combustion gas in the reducer with a CLOU material and a solid oxygen carrier (SOC) material to oxidize impurities in the post-combustion gas; transferring the post-combustion gas after it has been oxidized via the CLOU material to the first separator; separating the CLOU material from CO2 contained in the post-combustion gas via the first separator; transferring the CO2 to a CO2 capture system; transferring the separated CLOU material to the oxidizer; oxidizing the CLOU material via the oxidizer to produce a gas containing the oxidized CLOU material; transferring the gas containing the oxidized CLOU material to the second separator; separating the oxidized CLOU material from the gas via the second separator; and transferring the oxidized CLOU material to the reducer; wherein: the CLOU material releases gaseous oxygen within the reducer; and the SOC material does not release gaseous oxygen within the reducer. 23. The method of claim 22 wherein the impurities are C, CO, CH4, or H2S. 24. The method of claim 22 wherein the CLOU material is manganese, copper or cobalt, or other such material exhibiting CLOU behavior. 25. The method of claim 22 wherein the CLOU material is a manganese oxide. 26. A system for oxidizing impurities in post-combustion gas comprising: an oxidizer, the oxidizer receiving a gas containing oxygen from the oxidizer of a chemical looping combustion system; a reducer operatively connected to the oxidizer, the reducer configured to receive the post-combustion gas; a CLOU