Claims
- 1. A multiple bypass turbofan engine comprising:
- a Brayton Cycle gas generator having a fuel rich burning combustor;
- a fan section comprising in downstream serial flow relationship a forward fan and an aft fan;
- said fan section upstream and forward of said gas generator and drivingly connected to a low pressure turbine by a low pressure shaft that is aft of and in serial flow communication with said gas generator;
- a fan bypass duct disposed radially outward of said gas generator and having first and second annular inlets disposed between said forward and aft fans;
- an annular inlet duct having an annular duct wall, disposed radially inward of said bypass duct, said annular duct wall and said annular inlet duct connecting said second inlet to said bypass duct;
- an exhaust duct downstream of and in fluid communication with said fan bypass duct and said low pressure turbine at an upstream end of said exhaust duct;
- said exhaust duct comprising in downstream serial flow relationship a mixing section, a combustion section, and an exhaust nozzle; and
- a supercharger means for compressing air, said supercharger disposed in said inlet duct and drivingly connected to said low pressure turbine;
- said aft fan having a row of aft fan rotor blades disposed adjacent to and longitudinally aft of a row of aft fan stator vanes;
- said aft fan rotor blades having airfoils that generally extends radially outward from blade airfoil bases to airfoil tips;
- said supercharger means comprising:
- at least one of said aft fan stator vanes having an independently variable radially outer vane tip portion and an independently variable radially inner van hub portion separated by a non-rotatable portion of said annular duct wall, and
- said aft fan blades having radially outer airfoil tip sections and radially inner hub sections of airfoils separated by a rotatable portion of said annular duct wall, such that said tip sections are disposed in said inlet duct.
- 2. A multiple bypass turbofan engine as claimed in claim 1, further comprising an afterburner fuel injection means for injecting fuel into said combustion section.
- 3. A multiple bypass turbofan engine as claimed in claim 1, further comprising a means for independently varying said vane tip portion and said vane hub portion.
- 4. A multiple bypass turbofan engine as claimed in claim 3, wherein said vane tip portion includes a pivotable, trailing-edge tip flap and said vane hub portion includes an independently pivotable, trailing-edge hub flap.
- 5. A multiple bypass turbofan engine as claimed in claim 4, wherein said varying means includes means for independently pivoting said flaps.
- 6. A multiple bypass turbofan engine as claimed in claim 5, wherein all of said fan stator vanes have independently variable radially outer vane tip portions and independently variable radially inner vane hub portions separated by said non-rotatable portion of said annular duct wall.
- 7. A multiple bypass turbofan engine as claimed in claim 6, further comprising an afterburner fuel injection means for injecting fuel into said combustion section.
- 8. A multiple bypass turbofan engine as claimed in claim 1, wherein said Brayton Cycle gas generator comprises a core engine assembly comprising in downstream serial flow relationship a core driven aft fan, a core compressor, a core combustor, and a core turbine, and wherein said core turbine is drivingly connected to said core compressor by a core engine shaft.
- 9. A multiple bypass turbofan engine as claimed in claim 8, further comprising an afterburner fuel injection means for injecting fuel into said combustion section.
- 10. A multiple bypass turbofan engine as claimed in claim 8, further comprising a means for independently varying said vane tip portion and said vane hub portion.
- 11. A multiple bypass turbofan engine as claimed in claim 10, wherein said vane tip portion includes a pivotable, trailing-edge tip flap and said vane hub portion includes an independently pivotable, trailing-edge hub flap.
- 12. A multiple bypass turbofan engine as claimed in claim 11, wherein said varying means includes means for independently pivoting said flaps.
- 13. A multiple bypass turbofan engine as claimed in claim 12, wherein all of said fan stator vanes have independently variable radially outer vane tip portions and independently variable radially inner vane hub portions separated by said non-rotatable portion of said annular duct wall.
- 14. A multiple bypass turbofan engine as claimed in claim 13, further comprising an afterburner fuel injection means for injecting fuel into said combustion section.
- 15. A multiple bypass turbofan engine as claimed in claim 12, wherein said vane tip portions include pivotable, trailing-edge tip flaps and said vane hub portions include independently pivotable, trailing-edge hub flaps.
- 16. A multiple bypass turbofan engine as claimed in claim 15, wherein said varying means includes means for independently pivoting said flaps.
- 17. A multiple bypass turbofan engine as claimed in claim 15, said core turbine further comprising a row of high pressure turbine stator vanes and means for varying the flow area of said high pressure turbine nozzle vanes.
- 18. A multiple bypass turbofan engine as claimed in claim 15, said low pressure turbine further comprising a row of counter-rotating low pressure turbine rotor blades disposed longitudinally adjacent and longitudinally aft of said core turbine such said row of low pressure turbine blades are operable to counter-rotate to high pressure turbine rotor blades in said core turbine during engine operation.
BACKGROUND OF THE INVENTION
The Government has rights in this invention pursuant to Contract No. NAS3-26051 awarded by NASA.
US Referenced Citations (22)