System and method for operating a combustion chamber

What is claimed is: 1. A method for operating a combustion chamber comprising: obtaining a carbon monoxide reading at an exit of the combustion chamber via a carbon monoxide sensor; deriving an oxygen set point trim based at least in part on the carbon monoxide reading and a carbon monoxide set point via a controller; determining a stability status of the combustion chamber via a combustion stability sensor; via the combustion stability sensor, determining that the stability status of the combustion chamber is above a threshold indicating a stable combustion condition, and in response, adjusting an oxygen set point of the combustion chamber with the oxygen set point trim via the controller; and via the combustion stability sensor, determining that the stability status is below the threshold indicating a poor combustion condition, and in response, maintaining the oxygen set point at its prior value until the stability status is above the threshold; wherein the oxygen set point defines a desired oxygen level at the exit of the combustion chamber. 2. The method of claim 1 , wherein the combustion stability sensor is a flame stability sensor and the stability status is a flame status. 3. The method of claim 2 , wherein the flame status indicates that a flame is present within the combustion chamber. 4. The method of claim 1 further comprising: obtaining a nitrogen oxide reading at the exit of the combustion chamber via a nitrogen oxide sensor; deriving a stoichiometry set point trim based at least in part on the nitrogen oxide reading and a nitrogen oxide set point via the controller; and determining that the carbon monoxide reading is below a carbon monoxide threshold, and in response, adjusting a stoichiometry set point with the stoichiometry set point trim based at least in part on the carbon monoxide reading via the controller; and determining that the carbon monoxide reading is above the carbon monoxide threshold, and in response, holding the stoichiometry setpoint to its previous value until the carbon monoxide reading is below the carbon monoxide threshold; wherein the stoichiometry set point defines a desired stoichiometry of the combustion chamber; wherein the carbon dioxide reading is obtained continuously. 5. The method of claim 4 further comprising: adjusting one or more stoichiometries each corresponding to one of the firing nozzles of the plurality based at least in part on the stoichiometry set point. 6. The method of claim 1 , wherein deriving an oxygen set point trim based at least in part on the carbon monoxide reading and a carbon monoxide set point is based at least in part on a predictive model. 7. The method of claim 6 , wherein the predictive model is based at least in part on one of the carbon monoxide reading, a nitrogen oxide reading at the exit of the combustion chamber, and a temperature of steam generated by the combustion chamber. 8. The method of claim 1 , wherein the stability status is a fireball stability index based at least in part a pressure metric, a flame stability metric, and a fireball metric. 9. A system for operating a combustion chamber comprising: a carbon monoxide sensor operative to obtain a continuous, real-time carbon monoxide reading at an exit of the combustion chamber; a combustion stability sensor operative to determine a continuous, real-time stability status of the combustion chamber; and a controller operative to: derive an oxygen set point trim based at least on part on the carbon monoxide reading and a carbon monoxide set point; and if the stability status is above a threshold indicating a stable combustion condition, adjust an oxygen set point of the combustion chamber with the oxygen set point trim; and if the stability status is below the threshold indicating a poor combustion condition, maintaining the oxygen set point at its prior value until the stability status is above the threshold; wherein the oxygen set point defines a desired oxygen level at the exit of the combustion chamber.