Once the minimum ring flame tempera

Once the minimum ring flame temperature boundary is determined, the parameters (e.g., readings from sensors 84-92) for this boundary are recorded into memory device 82 at block 1.12. Method 100 then continues to block 1.13 where the minimum ring flame temperature, determined in block 1.11, is subtracted from the maximum ring flame temperature, determined in block 1.9, to determine a temperature window size. At block 1.14, the temperature window size calculated in block 1.13 is compared to a predetermined minimum window size (e.g., 75 degrees Fahrenheit), which is retrieved from memory device 82. If the temperature window size is less than the predetermined minimum window size, method 100 continues to block 1.15, where the NOx levels and combustor discharge temperatures, recorded in blocks 1.10 and 1.12, are compared against predetermined threshold limits retrieved from memory device 82. If the NOx levels or combustor discharge temperatures are above their threshold limits, an alarm prompts the user, at a block 1.17, that the temperature window size is too small for the NOx constraint. From block 1.17, the method continues to block 1.23, where all internal flags are reset, and then to block 1.24, where method 100 is ended. If NOx levels and combustor outlet pressures are below their predetermined threshold limits in block 1.15, the method continues to block 1.16, where all internal flags are reset, and then to block 2.6 where the bulk temperature will be increased.

Returning again to block 1.14, if the temperature window calculated in block 1.13 is greater than the predetermined threshold limit (e.g., 75 degrees Fahrenheit), the method continues to block 1.18 where a nominal ring flame temperature is calculated from the minimum and maximum ring flame temperatures determined in blocks 1.9 and 1.11. In addition, mapping device 13 instructs controller 11 to set the ring flame temperature of the operating combustor 12, 14, or 16 to this nominal temperature. The procedure to determine nominal ring flame temperature is described in further detail hereinafter.

Once nominal ring flame temperature is set in block 1.18, the method continues to block 1.19 where data from sensors 84-92 are recorded for operation of combustor 10 at nominal ring flame temperature. Method 100 then continues to block 1.20 where the NOx level and high pressure turbine outlet temperature recorded in block 1.19 are compared to their predetermined threshold limits. If the NOx level and high pressure turbine outlet temperature are above their predetermined threshold limits in block 1.20, then method 100 continues to block 1.20, where all internal flags are reset, and then to block 2.9, where the bulk temperature will be decreased. If, in block 1.20, the NOx level and combustor outlet temperature recorded in block 1.19 are below their predetermined threshold limits, method 100 continues to block 1.22