A hybrid propulsion system includes a heat engine configured to drive a heat engine shaft. An electric motor is configured to drive an electric motor shaft. A transmission system includes at least one gearbox. The transmission system is configured to receive rotational input power from each of the heat engine shaft and the electric motor shaft and to convert the rotation input power to output power.

A hybrid propulsion system includes a heat engine configured to drive a heat engine shaft. An electric motor is configured to drive an electric motor shaft. A transmission system includes at least one gearbox. The transmission system is configured to receive rotational input power from each of the heat engine shaft and the electric motor shaft and to convert the rotation input power to output power.

A hybrid-electric propulsion system includes a gas turbine engine, an electric machine coupled to and rotatably driven by the gas turbine engine to produce AC electric power, an energy storage system, and a propulsion unit. The gas turbine engine includes a combustor and a recuperator that places an exhaust air flow that is downstream from the combustor in a heat exchange relationship with a compressed air flow that is upstream from the combustor to transfer thermal energy from the exhaust flow to the compressed flow. The propulsion unit includes a fan and an electric motor rotably coupled to the fan, the electric motor being driven by electric power from one of the electric machine or the energy storage system.

A power extraction system is provided and includes a low-pressure spool of a gas turbine engine, the low-pressure spool being rotatable at an input rotational speed between a first minimum speed and a first maximum speed, downstream components rotatable at an output rotational speed between a second minimum speed and a second maximum speed and a transmission assembly by which rotations of the low-pressure spool at the input rotational speed are transmittable at the output rotational speed to the downstream components. The transmission assembly includes clutches and a controller configured to control openings and closings of the clutches according to an upshifting algorithm whereby a torque applied by the downstream components is used to reduce the output rotational speed to an output speed of a gear into which the transmission assembly is shifting.

A power extraction system is provided and includes a low-pressure spool of a gas turbine engine, the low-pressure spool being rotatable at an input rotational speed between a first minimum speed and a first maximum speed, downstream components rotatable at an output rotational speed between a second minimum speed and a second maximum speed and a transmission assembly by which rotations of the low-pressure spool at the input rotational speed are transmittable at the output rotational speed to the downstream components. The transmission assembly includes clutches and a controller configured to control openings and closings of the clutches according to an upshifting algorithm whereby a torque applied by the downstream components is used to reduce the output rotational speed to an output speed of a gear into which the transmission assembly is shifting.

A hybrid steam power drive system that uses electrical motors to power any type of vehicle. It includes a steam unit that drives a steam turbine that turns a generator to provide electricity directly to the electrical drive motors and continually charge a battery/capacitor bank which can also provide energy to the electrical drive motor(s). With this system the battery/capacitor bank is continually being charged and does not have to periodically be plugged into a power source to charge the battery/capacitor bank. It also provides an accessory outlet to power external needs when the vehicle is not in motion.

A hybrid propulsion system includes a heat engine configured to drive a heat engine shaft. An electric motor is configured to drive an electric motor shaft. A transmission system includes at least one gearbox. The transmission system is configured to receive rotational input power from each of the heat engine shaft and the electric motor shaft and to convert the rotation input power to output power.

A microturbine system for a vehicle and method of operating the microturbine system. The microturbine system is an automotive range extender that includes a generator to provide power to a battery pack of the vehicle. A compressor is operably coupled to the generator and a burner is operably coupled downstream of the compressor to burn fuel and heat compressed charge air from the compressor to form an exhaust. An aftertreatment device is operably coupled downstream of the burner to change a composition of the exhaust from the burner to form a treated exhaust. A turbine is operably coupled downstream of the aftertreatment device and operably coupled to the compressor. The turbine is configured such that a flow of the treated exhaust drives the turbine and the compressor to power the generator.

The present disclosure provides a front-engine extended range electric passenger vehicle, including a turbo shaft engine (2), a battery pack (3), an electric generator (4), drive motors (6), a storage tank (9) and an independent regenerator (12), wherein the turbo shaft engine (2) is arranged on frames above a front axle, an axis of an output shaft of the turbo shaft engine (2) is located on a symmetry plane of the vehicle body, and the independent regenerator (12) is located below the turbo shaft engine (2) and is used to preheat inlet air of the turbo shaft engine (2) using exhaust gas discharged therefrom. A combustion gas turbine is adopted in the extended range electric passenger vehicle as power source and arranged at a location at the front axle of the vehicle on a symmetrical center line thereof, an output shaft of the combustion gas turbine is longitudinally arranged, which has advantages of high effective energy conversion, balanced load weight between front and rear wheels as well as left and right wheels, good operating performance and long endurance mileage.

A hybrid steam power drive system that uses electrical motors to power any type of vehicle. It includes a steam unit that drives a steam turbine that turns a generator to provide electricity directly to the electrical drive motors and continually charge a battery/capacitor bank which can also provide energy to the electrical drive motor(s). With this system the battery/capacitor bank is continually being charged and does not have to periodically be plugged into a power source to charge the battery/capacitor bank. It also provides an accessory outlet to power external needs when the vehicle is not in motion.