Patent ID: 9212625
Filing Date: 2015-12-15
Classification: B64D,F01D,F02C,F02K,F05D,Y02T

Abstract:
1. A hybrid gas turbine propulsion system comprising: a turbojet thrust module being a modified Brayton-cycle jet thrust engine comprised of an enclosing duct having an inlet and a center body for one or more turbocompressors of axial or centrifugal type in one or more stages driven by variable frequency drive (VFD) controlled, variable speed electric motors, followed by a combustor stage where fuel is mixed with air compressed by the one or more turbocompressors then ignited and combusted via a fuel manifold sufficient to achieve stoichiometric mixtures creating a jet exhaust entering a gas expansion duct of increasing cross-section lined with high-temperature resistant refractory ceramic or other high temperature resistant linings mounted stationarily along the combustor and expansion duct walls within an annular space defined by the center body and expansion duct, thereafter the jet exhaust exiting at a rearmost exit nozzle as a first propulsive thrust device; an externally mounted dual-function fan module, not axially co-located with the turbojet engine, being a plurality of airfoil blades mounted on a variable pitch propeller hub of constant-speed type, comprising a mounting for such blades extending in a radial direction, such that when the dual-function fan is exposed to a sufficient relative wind, the dual-function fan autorotates, resulting in a driving torque being applied to an electric motor/generator, and when acting as a generator, then generates an electric power output via power supply conditioning, control and motor speed circuitry to feed electric motors that turn the one or more turbocompressors, or with adjustments to the dual-function fan blade pitch at the hub and input of torque from the electric motor/generator acting as a motor, such motor deriving electric power from an external source, that motor applies torque to the adjustable pitch hub thus borne onto the dual-function fan blades as a second propulsive thrust device producing either forward or reverse thrust via changes in blade pitch as selected in operational use; an auxiliary power unit module having a turboshaft engine in the preferred embodiment, or other internal combustion engine, mechanically driving an electric generator having an output of which is sufficient to power the electric motors of the one of more turbocompressors toward achieving the full intended maximum propulsive thrust of that engine as a first propulsive thrust device while an aircraft or other vehicle so equipped is static at rest or has a low forward velocity, or when such electric power is otherwise shunted into the dual-function fan module above, the electric motor/generator of that module, acting as a motor, turns the dual-function fan as a second propulsive thrust device; and, a stored energy module containing electricity storage batteries providing supplementary power for engine ancillary systems.