System and method of reducing post-shutdown engine temperatures

What is claimed is: 1. A cooling system, said system comprising: a gas turbine engine comprising a compressor having a compressor bleed port, wherein in a first operating mode of the gas turbine engine the compressor bleed port is configured to channel a high pressure flow of air from a working fluid flow path of the compressor, and wherein in a shutdown mode of operation, the compressor bleed port is configured to channel a flow of cooling air into the compressor to one or more engine components, the flow of cooling air being from an air source external to the gas turbine engine, the air source being a cool air source for providing the flow of cooling airflow at a temperature less than a temperature of the one or more engine components in the shutdown mode of operation of the engine; and a conduit coupled in flow communication between the compressor bleed port and the source of cooling air, wherein said source of cooling air is an auxiliary power unit, wherein during the shutdown mode the conduit is configured to deliver the flow of cooling air from the air source external to the gas turbine engine into the compressor working fluid flow path of the compressor through said compressor bleed port. 2. The system of claim 1 , wherein during the shutdown mode of operation, a rate of the flow of cooling air is controlled based on an operating history of the gas turbine engine and a time since shutdown of the gas turbine engine. 3. The system of claim 1 , wherein during the shutdown mode of operation, a rate of the flow of cooling air is controlled to cool a rotor of the gas turbine engine to a predetermined temperature in a predetermined amount of time. 4. The system of claim 1 , wherein said one or more engine components include a rotor of the gas turbine engine. 5. The system of claim 1 , further comprising a second gas turbine engine comprising a second compressor having a second bleed port, in a first operating mode of said second gas turbine engine said second compressor bleed port is configured to channel a second high pressure flow of air from said second compressor, during a shutdown mode of operation of said second gas turbine engine, said second compressor bleed port is configured to channel a second external flow of cooling air into said second compressor. 6. A method of cooling a gas turbine engine via a cooling system, the cooling system comprising: a gas turbine engine comprising a compressor having a compressor bleed port, wherein in a first operating mode of the gas turbine engine the compressor bleed port is configured to channel a high pressure flow of air from a working fluid flow path of the compressor, and wherein in a shutdown mode of operation, the compressor bleed port is configured to channel a flow of cooling air into the compressor to one or more engine components, the flow of cooling air being from an air source external to the gas turbine engine, the air source being a cool air source for providing the flow of cooling airflow at a temperature less than a temperature of the one or more engine components in the shutdown mode of operation of the engine; and a conduit coupled in flow communication between the compressor bleed port and the source of cooling air, wherein said source of cooling air is an auxiliary power unit, wherein during the shutdown mode the conduit is configured to deliver the flow of cooling air from the air source external to the gas turbine engine into the compressor working fluid flow path of the compressor through said compressor bleed port, wherein said method comprises: channeling a flow of cooling fluid from the source of cooling air to the conduit; channeling the flow of cooling fluid from the conduit to an engine casing; and channeling the flow of cooling fluid into the compressor bleed port disposed within the engine casing. 7. The method of claim 6 , wherein channeling the flow of cooling fluid from the source of cooling air to the conduit comprises channeling a flow of compressed air from a source of compressed air to the conduit. 8. The method of claim 6 , wherein channeling the flow of cooling fluid from the conduit to the engine casing comprises channeling the flow of cooling fluid from the conduit to the compressor bleed port on the engine casing. 9. The method of claim 6 , wherein channeling the flow of cooling fluid into the compressor bleed port disposed within the engine casing comprises channeling the flow of cooling fluid into a high pressure compressor of the compressor disposed within the engine casing. 10. An aircraft comprising: a plurality of gas turbine engines, each gas turbine engine of the plurality of gas turbine engines comprising a compressor having a compressor bleed port, in a first operating mode of the aircraft, said compressor bleed ports are configured to channel a high pressure flow of air from said compressors, during a shutdown mode of operation, said compressor bleed ports are configured to channel a flow of cooling air into said compressors, the flow of cooling air being an external flow of cooling air; a source of cooling air; and a conduit coupled in flow communication between said compressor bleed ports and said source of cooling air, said source of cooling air configured to deliver the flow of cooling air into said compressors through said compressor bleed ports. 11. The aircraft of claim 10 , wherein during the shutdown mode of operation, a rate of the flow of cooling air is controlled based on an operating history of the aircraft and a time since shutdown of the aircraft. 12. The aircraft of claim 10 , wherein during the shutdown mode of operation, a rate of the flow of cooling air is controlled to cool a rotor of the gas turbine engine to a predetermined temperature in a predetermined amount of time. 13. The aircraft of claim 10 , wherein said source of cooling air is a gas turbine engine of said plurality of gas turbine engines. 14. The aircraft of claim 10 , wherein said source of cooling air is an auxiliary power unit. 15. The aircraft of claim 10 , wherein said source of cooling air is a ground-based source.