Flame image analysis for furnace combustion control

What is claimed is: 1. A method of heating material in a furnace, comprising (A) heating material comprising carbonaceous matter in a furnace having a flue, using heat generated by combustion in the furnace of fuel and gaseous oxidant being fed into the furnace, thereby producing carbon monoxide derived from the carbonaceous matter, wherein a flame is formed in the furnace which may extend out of the furnace from the flue; (B) taking images detecting an intensity of the flame inside the furnace or outside the furnace by a digital camera that is located outside the furnace, expressing electronically in digital form an image that corresponds to the detected intensity, and characterizing the concentration of carbon monoxide in the flame from said image images of the detected intensity of the flame detected taken inside the furnace or outside the furnace by said digital camera that is located outside the furnace, by expressing electronically at least one parameter that corresponds to the detected intensity of the flame and that corresponds to the concentration of carbon monoxide in the flame, and determining the characterized concentration of carbon monoxide in the flame from predetermined correlations of the actual concentrations of carbon monoxide in a flame to expressed values of the at least one parameter; (C) comparing the characterized concentration of carbon monoxide in the flame as characterized in accordance with step (B) to a preestablished threshold concentration value for the concentration of carbon monoxide in the flame; (D) when the characterized concentration of carbon monoxide in the flame exceeds said preestablished threshold concentration value, adjusting the amount of oxygen, the amount of fuel, or the amounts of both oxygen and fuel, being fed into the furnace that is available to react in the furnace to an amount or amounts thereof that is effective to lower the characterized concentration of carbon monoxide in the flame to be equal or less than the preestablished threshold concentration value for a predetermined length of time, while continuing to characterize the concentration of carbon monoxide in the flame from images of the flame taken by the digital camera outside the furnace, wherein said method does not measure temperatures of the flame and is not based on measuring differences of flame temperature. 2. A method according to claim 1 wherein said material comprises metal. 3. A method according to claim 1 wherein in step (A) at least a portion of said material that is heated is combusted. 4. A method according to claim 1 wherein in step (A) at least a portion of said material that is heated is melted. 5. A method according to claim 1 wherein in step (D), adjusting the amount of oxygen in the furnace that is available to react in the furnace comprises increasing the amount of oxygen that is fed into said furnace relative to the amount of said fuel that is fed into said furnace. 6. A method according to claim 1 wherein in step (D), adjusting the amount of oxygen in the furnace that is available to react in the furnace comprises decreasing the amount of said fuel that is fed into said furnace relative to the amount of oxygen that is fed into said furnace. 7. A method according to claim 1 wherein the flame extends out of the furnace from the flue, and images are taken by the digital camera of the flame extending out of the furnace from the flue. 8. A method according to claim 1 where images are taken by the digital camera of the flame inside the furnace. 9. A method according to claim 1 comprising adjusting the amount of oxygen being fed into the furnace when the characterized concentration of carbon monoxide in the flame exceeds said preestablished concentration value. 10. A method according to claim 1 comprising adjusting the amount of fuel being fed into the furnace when the characterized concentration of carbon monoxide in the flame exceeds said preestablished concentration value. 11. A method according to claim 1 comprising adjusting the amount of oxygen and the amount of fuel being fed into the furnace when the characterized concentration of carbon monoxide in the flame exceeds said preestablished concentration value. 12. A method of heating material in a furnace, comprising (A) heating material comprising carbonaceous matter in a furnace having a flue, using heat generated by combustion in the furnace of fuel and gaseous oxidant being fed into the furnace, thereby producing carbon monoxide derived from the carbonaceous matter, wherein a flame is formed in the furnace which may extend out of the furnace from the flue; (B) taking images detecting an intensity of the flame inside the furnace or outside the furnace by a digital camera that is located outside the furnace, expressing electronically in digital form an image that corresponds to the detected intensity, and characterizing the concentration of carbon monoxide in the flame from said image images of the detected intensity of the flame detected taken inside the furnace or outside the furnace by said digital camera that is located outside the furnace, by expressing electronically at least one parameter that corresponds to the detected intensity of the flame and that corresponds to the concentration of carbon monoxide in the flame, and determining the characterized concentration of carbon monoxide in the flame from predetermined correlations of the actual concentrations of carbon monoxide in a flame to expressed values of the at least one parameter; (C) comparing the characterized concentration of carbon monoxide in the flame as characterized in accordance with step (B) to a preestablished threshold concentration value for the concentration of carbon monoxide in the flame; (D) when the characterized concentration of carbon monoxide in the flame exceeds said preestablished threshold concentration value, adjusting the amount of oxygen being fed into the furnace that is available to react with carbon monoxide in the furnace to an amount that is effective to lower the characterized concentration of carbon monoxide in the flame to be equal or less than the preestablished threshold concentration value for a predetermined length of time, while continuing to characterize the concentration of carbon monoxide in the flame from images of the flame taken by the digital camera outside the furnace, wherein said method does not measure temperatures of the flame and is not based on measuring differences of flame temperature. 13. A method according to claim 12 wherein in step (D), adjusting the amount of oxygen in the furnace that is available to react with carbon monoxide in the furnace comprises increasing the amount of oxygen that is fed into said furnace relative to the amount of said fuel that is fed into said furnace. 14. A method according to claim 12 wherein in step (D), adjusting the amount of oxygen in the furnace that is available to react with carbon monoxide in the furnace comprises decreasing the amount of said fuel that is fed into said furnace relative to the amount of oxygen that is fed into said furnace.