Combined cycle power plant with flue gas recirculation

What is claimed is: 1. A method for operating a combined cycle power plant (CCPP) having a gas turbine and a heat recovery steam generator (HRSG) with a flue gas recirculation system, comprising: calculating a target value for a flue gas recirculation rate as a function of at least one of combustion pressure and a hot gas temperature of a combustion chamber; controlling a flue gas recirculation rate (rFRG) of flue gases recirculated into a compressor inlet gas of the gas turbine by the flue gas recirculation system as a function of at least one of the combustion pressure and the hot gas temperature (Thot) of the combustion chamber; and adjusting the flue gas recirculation rate based on measured CO emissions, wherein a control band establishes an allowable flue gas recirculation rate as a function of at least one of the combustion pressure and the hot gas temperature around the target value. 2. The method according to claim 1 , comprising: providing a target oxygen concentration in the compressor inlet gas as a function of the combustion pressure of the gas turbine; and controlling the oxygen concentration in the inlet gas by variation of the flue gas recirculation rate (rFRG) and/or admixing of oxygen or oxygen enriched air. 3. The method according to claim 1 , comprising: adjusting the flue gas recirculation rate (rFRG) and/or admixing of oxygen or oxygen enriched air as a function of measured CO and/or unburned hydrocarbon emissions. 4. The method according to claim 1 , comprising: adjusting the flue gas recirculation rate (rFRG) and/or admixing of oxygen or oxygen enriched air as a function of the measured combustor pulsations. 5. The method according to claim 1 , comprising: maintaining the flue gas recirculation rate (rFRG) above a minimum value to assure a minimum flow through a CO2 capture system. 6. The method according to claim 1 , comprising: controlling a re-cooling temperature (Trecool) as a function of the combustion pressure and/or compressor exit temperature (Tk2). 7. The method according to claim 1 , comprising: controlling a re-cooling temperature (Trecool) as a function of combustion pressure and/or compressor exit temperature (Tk2) and the recirculation rate. 8. The method according to claim 1 , comprising: providing the target compressor inlet temperature of the gas turbine as a function of relative load; and controlling the compressor inlet temperature by adjusting re-cooling temperature (Trecool). 9. The method according to claim 1 , comprising: controlling the flue gas recirculation rate (rFRG) based on a variable speed flue gas blower for recirculation and/or a variable speed flue gas blower to a stack. 10. A power plant designed for operation according to claim 1 , comprising: a gas turbine; a heat recovery steam generator; a steam turbine; a flue gas recirculation line with a recirculation flue gas re-cooler; at least one of a compressor exit pressure measurement device and a compressor exit temperature measurement device; and at least one of an oxygen measurement device and a CO2 measurement device between a mixing point of recirculated flue gas and ambient air and a compressor of the gas turbine, or at least one of an oxygen measurement device, a CO2 measurement device, and a CO measurement device downstream of the gas turbine. 11. The power plant according to claim 10 , comprising: a gas turbine with a design compressor pressure ratio greater than 26. 12. The power plant according to claim 11 , comprising: a sequential combustion gas turbine with a design pressure of a second combustion chamber, which is greater than 15 bar. 13. The power plant according to claim 10 , comprising: a variable speed flue gas blower for at least one of a recirculation capture system and a CO2 capture system, wherein the variable speed flue gas blower directs the flue gases to at least one of the recirculation capture system and the CO2 capture system for control of the recirculation rate. 14. The power plant according to claim 10 , comprising: an air separation unit or a membrane based oxygen enrichment unit for admixing oxygen or oxygen enriched air to the compressor inlet gases of the compressor and/or to a combustor. 15. A power plant designed for operation according to claim 1 , comprising: a gas turbine; a heat recovery steam generator; a steam turbine; a flue gas recirculation line with a recirculation flue gas re-cooler; at least one of a compressor exit pressure measurement device and a compressor exit temperature measurement device; and at least one of an oxygen measurement device and a CO2 measurement device between a mixing point of recirculated flue gas and ambient air and a compressor of the gas turbine and at least one of an oxygen measurement device, a CO2 measurement device, and a CO measurement device or downstream of the gas turbine. 16. The method according to claim 1 , wherein the target value for the flue gas recirculation rate is calculated as a function of only at least one of the combustion pressure and the hot gas temperature of the combustion chamber. 17. A method for operating a combined cycle power plant (CCPP) having a gas turbine and a heat recovery steam generator (HRSG) with a flue gas recirculation system, comprising: calculating a target value for a flue gas recirculation rate as a function of at least one of combustion pressure and a hot gas temperature of a combustion chamber; adjusting the flue gas recirculation rate based on measured CO emissions; controlling the flue gas recirculation rate (rFRG) of flue gases recirculated into a compressor inlet gas of the gas turbine by the flue gas recirculation system as a function of at least one of the combustion pressure and the hot gas temperature (Thot); and admixing oxygen or oxygen enriched air to at least one of the compressor inlet gases of a gas turbine compressor of the gas turbine and the combustion chamber of the gas turbine to allow a higher flue gas recirculation rate (rFRG), wherein a control band establishes an allowable flue gas recirculation rate as a function of at least one of the combustion pressure and the hot gas temperature around the target value. 18. A method for operating a combined cycle power plant (CCPP) having a gas turbine and a heat recovery steam generator (HRSG) with a flue gas recirculation system, comprising: calculating a target value for a flue gas recirculation rate as a function of at least one of combustion pressure and a hot gas temperature of a combustion chamber; controlling the flue gas recirculation rate (rFRG) of flue gases recirculated into a compressor inlet gas of the gas turbine by the flue gas recirculation system as a function of at least one of the combustion pressure and the hot gas temperature (Thot) of the combustion chamber; and adjusting the flue gas recirculation rate based on unburned hydrocarbon emissions, wherein a control band establishes an allowable flue gas recirculation rate as a function of at least one of the combustion pressure and the hot gas temperature around the target value.