Heat recovery steam generator and power plant

The invention claimed is: 1. A heat recovery steam generator, comprising: a duct, in which an exhaust gas from a gas turbine is configured to flow; a superheater, an evaporator, and an economizer disposed in the duct along a flow direction of the exhaust gas; a first auxiliary combustor comprising a plurality of first burners, disposed upstream of the superheater; a second auxiliary combustor, comprising a plurality of second burners, disposed upstream of the evaporator; an air supply configured to supply air from an outside of the duct to the plurality of second burners, the air supply comprising a regulator configured to regulate an amount of the air to be supplied; a detector configured to detect a concentration of a harmful gas in the exhaust gas exhausted from the duct; and a controller configured to control the regulator based on the concentration detected with the detector. 2. The heat recovery steam generator according to claim 1 , wherein the air supply includes an air duct configured to supply the air to the plurality of second burners, and a fan configured to flow the air in the air duct. 3. The heat recovery steam generator according to claim 1 , wherein the controller is configured to control the regulator based on a load of the gas turbine. 4. The heat recovery steam generator according to claim 3 , wherein the controller is configured to control the regulator to regulate the amount of the air to be decreased with an increase of the load. 5. The heat recovery steam generator according to claim 4 , wherein the controller is configured to control the regulator to regulate the amount of the air to be kept maximum when the gas turbine is operated at a load lower that a preset load value. 6. The heat recovery steam generator according to claim 1 , wherein the controller is configured to control the regulator based on an amount of fuel fed to the plurality of second burners. 7. The heat recovery steam generator according to claim 6 , wherein the controller is configured to control the regulator to regulate the amount of the air to be kept at a preset value when the amount of fuel fed to the plurality of second burners is smaller than a preset fuel feed value, and wherein the controller is configured to control the regulator to regulate the amount of the air to be increased with an increase in the fuel feed when the amount of fuel fed to the plurality of second burners is equal or higher than the preset fuel feed value. 8. The heat recovery steam generator according to claim 1 , further comprising an extinguisher configured to extinguish one or more of the plurality of second burners. 9. A power plant comprising: a gas turbine; a heat recovery steam generator configured to generate steam by utilizing an exhaust gas from the gas turbine; a steam turbine driven by steam generated in the heat recovery steam generator; and a power generator driven by the gas turbine and the steam turbine; wherein the heat recovery steam generator comprises: a duct, in which the exhaust gas is configured to flow; a superheater, an evaporator, and an economizer disposed in the duct along a flow direction of the exhaust gas; a first auxiliary combustor, comprising a plurality of first burners, disposed upstream of the superheater; a second auxiliary combustor, comprising a plurality of second burners, disposed upstream of the evaporator; an air supply configured to supply air from an outside of the duct to the plurality of second burners, the air supply comprising a regulator configured to regulate an amount of the air to be supplied; a detector configured to detect a concentration of a harmful gas in the exhaust gas exhausted from the duct; and a controller configured to control the regulator based on the concentration detected with the detector. 10. The power plant according to claim 9 , wherein the air supply includes an air duct configured to supply the air to the plurality of second burners, and a fan configured to flow the air in the air duct. 11. The power plant according to claim 9 , wherein the controller is configured to control the regulator based on a load of the gas turbine. 12. The power plant according to claim 11 , wherein the controller is configured to control the regulator to regulate the amount of the air to be decreased with an increase of the load. 13. The power plant according to claim 12 , wherein the controller is configured to control the regulator to regulate the amount of the air to be kept maximum when the gas turbine is operated at a load lower than a preset load value. 14. The power plant according to claim 9 , wherein the controller is configured to control the regulator based on an amount of fuel fed to the plurality of second burners. 15. The power plant according to claim 14 , wherein the controller is configured to control the regulator to regulate the amount of the air to be kept at a preset value when the amount of fuel fed to the plurality of second burners is smaller than a preset fuel feed value, and wherein the controller is configured to control the regulator to regulate the amount of the air to be increased with an increase in the fuel feed when the amount of the fuel fed to the plurality of second burners is equal or higher than the preset fuel feed value. 16. The power plant according to claim 9 , wherein the heat recovery steam generator further comprises an extinguisher configured to extinguish one or more of the plurality of second burners. 17. A method for operating a power plant, the power plant including: a gas turbine; a heat recovery steam generator, configured to generate steam with an exhaust gas from the gas turbine, including: a duct, in which the exhaust gas is configured to flow; a superheater, an evaporator, and an economizer disposed in the duct along a flow direction of the exhaust gas; a first auxiliary combustor, comprising a plurality of first burners, disposed upstream of the superheater; a second auxiliary combustor, comprising a plurality of second burners, disposed upstream of the evaporator; a steam turbine driven by steam generated in the heat recovery steam generator; and a power generator driven by the gas turbine and the steam turbine; the method comprising: detecting a concentration of a harmful gas in the exhaust gas exhausted from the duct; and controlling an amount of air from an outside of the duct to be supplied to the plurality of second burners based on the concentration detected.