Method and apparatus for variable supplemental airflow to cool aircraft components

The invention claimed is: 1. An aircraft engine comprising: an engine outer casing defining an internal cavity; a compressor section positioned within the internal cavity; a combustor section positioned within the internal cavity downstream of the compressor section; a turbine section positioned within the internal cavity downstream of the combustor section, wherein the compressor section drives air along a core flow path for compression and communication into the combustor section and for expansion through the turbine section; at least one casing opening formed within an outer surface of the engine outer casing; an aircraft engine interface duct in fluid communication with the at least one casing opening; and a cooling circuit to direct external atmosphere air into the aircraft engine interface duct, wherein the cooling circuit includes at least one moveable member configured to cover an external opening configured to be formed within an aircraft outer skin, wherein the at least one moveable member comprises at least one of a scoop, door, flap, or panel, an actuator to move the at least one moveable member between a fully open position where external atmosphere air can be directed through the external opening and into the aircraft engine interface duct and a fully closed position where the external opening is covered, and a controller that selectively controls the actuator to move the at least one moveable member between the fully open position and the fully closed position, and wherein the controller opens the at least one moveable member to direct external atmosphere air through the aircraft engine interface duct and to a desired cooling location within the aircraft engine. 2. An aircraft engine comprising: an engine outer casing defining an internal cavity; a compressor section positioned within the internal cavity; a combustor section positioned within the internal cavity downstream of the compressor section; a turbine section positioned within the internal cavity downstream of the combustor section, wherein the compressor section drives air along a core flow path for compression and communication into the combustor section and for expansion through the turbine section; at least one casing opening formed within an outer surface of the engine outer casing; an aircraft engine interface duct in fluid communication with the at least one casing opening; and a cooling circuit to direct external atmosphere air into the aircraft engine interface duct, wherein the cooling circuit includes at least one moveable member configured to cover an external opening configured to be formed within an aircraft outer skin, wherein the at least one moveable member comprises a plurality of moveable members that are axially spaced apart from each other along a length of an aircraft and that direct external atmosphere air into one or more aircraft engine interface ducts, an actuator to move the at least one moveable member between a fully open position where external atmosphere air can be directed through the external opening and into the aircraft engine interface duct and a fully closed position where the external opening is covered, and a controller that selectively controls the actuator to move the at least one moveable member between the fully open position and the fully closed position, and wherein the controller opens the at least one moveable member to direct external atmosphere air through the aircraft engine interface duct and to a desired cooing location within the aircraft engine. 3. An aircraft engine comprising: an engine outer casing defining an internal cavity; a compressor section positioned within the internal cavity; a combustor section positioned within the internal cavity downstream of the compressor section; a turbine section positioned within the internal cavity downstream of the combustor section, wherein the compressor section drives air along a core flow path for compression and communication into the combustor section and for expansion through the turbine section; at least one casino opening formed within an outer surface of the engine, outer casing; an aircraft engine interface duct in fluid communication with the at least one casing opening; and a cooling circuit to direct external atmosphere air into the aircraft engine interface duct, wherein the cooling circuit includes at least one moveable member configured to cover an external opening configured to be formed within an aircraft outer skin, an actuator to move the at least one moveable member between a fully open position where external atmosphere air can be directed through the external opening and into the aircraft engine interface duct and a fully closed position where the external opening is covered, and a controller that selectively controls the actuator to move the at least one moveable member between the fully open position and the fully closed position, and wherein the controller opens the at least one moveable member to direct external atmosphere air through the aircraft engine interface duct and to a desired cooling location within the aircraft engine, and wherein the controller and actuator are configured to position the at least one moveable member in a plurality of positions between the fully open and the fully closed positions. 4. An aircraft engine comprising: an engine casing defining an internal cavity; a compressor section positioned within the internal cavity; a combustor section positioned within the internal cavity downstream of the compressor section; a turbine section positioned within the internal cavity downstream of the combustor section, wherein the compressor section drives air along a core flow path for compression and communication into the combustor section and for expansion through the turbine section; at least one casing opening formed within an outer surface of the engine outer casing; an aircraft engine interface duct in fluid communication with the at least one casing opening; and a cooling circuit to direct external atmosphere air into the aircraft engine interface duct, wherein the cooling circuit includes at least one moveable member configured to cover an external opening configured to be formed within an aircraft outer skin, an actuator to move the at least one moveable member between a fully open position where external atmosphere air can be directed through the external opening and into the aircraft engine interface duct and a fully closed position where the external opening is covered, and a controller that selectively controls the actuator to move the at least one moveable member between the fully open position and the fully closed position, and wherein the controller opens the at least one moveable member to direct external atmosphere air through the aircraft engine interface duct and to a desired cooling location within the aircraft engine, and wherein the external atmosphere air flowing into the at least one casing opening is mixed into the core flow path. 5. An aircraft engine comprising: an engine casing defining an internal cavity; a compressor section positioned within the internal cavity; a combustor section positioned within the internal cavity downstream of the compressor section; a turbine section positioned within the internal cavity downstream of the combustor section, wherein the compressor section drives air along a core flow path for compression and communication into the combustor section and or expansion through the turbine section; at least one casing opening formed within an outer surface of the engine outer casing; an aircraft engine interface duct in fluid communication with the at least one casino opening; and a cooling circuit to direct external atmosphere air into the aircraft engine interface duct, wherein the cooling circuit includes at