Generator cooling impeller and bearing/rotor cooling

Abstract

A power plant for an aircraft such as a UAV with a gas turbine engine that drives an electric generator to produce electrical power. The electric generator is rotatably supported by two foil bearings. A centrifugal compressor is secured to a forward side of the generator rotor shaft. The centrifugal compressor draws in cooling air that flows through the two foil bearings and between a space formed between the rotor coil and the stator coil of the electric generator to provide for cooling of both foil bearings and the coils of the generator.

Claims

1. A power plant for a small aircraft comprising: a gas turbine engine with a first compressor and a turbine on a rotor shaft, the rotor shaft including a forward end and an aft end; the first compressor is located on the forward end of the rotor shaft and the turbine is located on the aft end of the rotor shaft; an electric generator rotatably connected to the gas turbine engine, the electric generator having a stator and a rotor with a space therebetween; a forward bearing and an aft bearing, the electric generator being rotatably supported by the forward bearing and the aft bearing; and a second compressor rotatably connected to the electric generator, the second compressor being configured to draw in cooling air to flow through the two bearings and in the space between the stator and the rotor to provide cooling for the forward bearing, the aft bearing, and the electric generator.

2. The power plant of claim 1, wherein: the gas turbine engine and the electric generator are both on the rotor shaft.

3. The power plant of claim 1, wherein: the second compressor is a centrifugal compressor with an impeller having an axial inlet and a radial outlet.

4. The power plant of claim 3, wherein the electric generator includes a housing, the power plant further comprising: an air seal between the axial inlet of the centrifugal compressor and the housing of the electric generator.

5. The power plant of claim 1, wherein: the second compressor is on the forward end of the rotor shaft of the first compressor.

6. The power plant of claim 1, wherein: the forward bearing and the aft bearing are both foil bearings.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

(1) FIGS. 1 and 2 show a cross-section of a small gas turbine engine driving an electric generator supported by bearings with a cooling arrangement of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(2) The present invention is a small gas turbine engine that drives an electric generator to produce electrical power for an aircraft such as for propelling and steering a UAV or Unmanned Aero Vehicle. The electric generator is rotatably supported by two foil bearings, and the generator stator and rotor and the two foil bearings are cooled by forcing cooling air across the generator and foil bearings using a compressor secured to a forward side of the rotor shaft. The power plant with the rotor supported by foil bearings of the present invention can also be used for turbo-alternator applications.

(3) FIGS. 1 and 2 show cross-sections of the power plant and electric generator of the present invention. The power plant includes a small gas turbine engine 10 with a compressor 11 connected to a gas turbine 12 by a rotor shaft 14, and a combustor 13 positioned in between. The engine 10 drives an electric generator having a rotor coil 21 secured to the shaft 14 and a stator coil 22 secured to a casing 23 of the power plant. The shaft 14 of the electric generator is rotatably supported by a forward foil bearing 24 and an aft foil bearing 25. Foil bearings are used to support the generator shaft 14 because foil bearings do not require lubrication and can operate at very high speeds. The small engine 10 of the present invention operates at around 130,000 rpm and thus roller bearings cannot be used.

(4) To provide cooling for the electric generator and the foil bearings, a centrifugal compressor 31 is secured to a forward side of the shaft 14 and rotates therewith. The centrifugal compressor 31 draws in air from outside the core of the generator and across the two foil bearings 24 and 25 and through a space between the rotor 21 and stator 22 coils of the generator. A seal 32 is used to provide for an air seal between the compressor inlet and the housing 23 so that the cooling air flows into the inlet of the centrifugal compressor 31.