RU2488699C2 - Turbo electric generator assembly - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: proposed assembly comprises rotor, stator, electric generator, support assemblies, working body inlet, groove seal and turbine exhaust. Impeller and compressor wheel ate fitted on assembly rotor shaft while electric generator rotor section is fitted there between. Turbo electric generator assembly stator consists of turbine and compressor cases and includes electric generator stator arranged between turbine and compressor cases. Working body feed channel extending from inlet to compressor is made in rotor hollow shaft. Groove seal area between turbine exhaust and working body inlet accommodates extra axial compressor stage. Rotor shaft has openings to communicate working body feed channel with assembly stator cavity. Assembly stator has channel for cooling electric generator stator, supports and turbine hub.

EFFECT: higher efficiency of cooling.

1 dwg

Description

The invention relates to power engineering and can be used in the construction of gas turbine units for driving electric generators.

Known turboelectric generating sets containing a turbocompressor and an electric generator (see, for example, US patents No. 5497615, 1996, No. 6634176 B2, 2003). These designs are characterized by the location of the compressor and turbine on an autonomous chassis with the transmission of torque to the generator shaft, which reduces the reliability of the generator.

Known turboelectric generator, taken as a prototype of the invention, containing a rotor, on the shaft of which are installed turbine and compressor impellers and the rotor part of the generator, a stator, consisting of turbine and compressor housings and including a generator stator located between the turbine and compressor wheels, as well as supporting units , the entrance of the working fluid, a gap seal and the exhaust of the turbine (see application for invention No. 2009143067, F01D 15/10, dated November 20, 2009, according to which a decision was made to grant a patent).

The design of the turboelectric generator according to the prototype operates in hard thermal mode.

The invention is aimed at improving the cooling efficiency of the electric generator and the supporting units of the unit.

To do this, in a known turboelectric generating unit containing a rotor, on the shaft of which there are turbine and compressor impellers and the rotor part of the electric generator between them, a stator consisting of turbine and compressor bodies and including a stator of the electric generator located in the stator between the turbine and compressor cases, as well as supporting nodes, the inlet of the working fluid, the gap seal and the exhaust of the turbine, the channel for supplying the working fluid from the inlet to the compressor is made in the hollow shaft of the rotor, in the zone of the gap seal between an additional preliminary axial stage of the compressor is installed by the exhaust of the turbine and the input of the working fluid, the rotor shaft has holes communicating with the supply channel of the working fluid with the stator cavity of the unit, in which the cooling channels of the stator of the electric generator, supporting units and the turbine hub are made. An additional preliminary axial stage of the compressor provides locking of the hot exhaust of the turbine and effective cooling of the electric generator, supporting units and the hub of the turbine.

The accompanying drawing shows a longitudinal section of a turboelectric generating unit.

The unit contains a rotor, on the shaft 1 of which there are turbine 2 and compressor 3 impellers and a rotor part 4 of an electric generator between them, a stator 5, consisting of turbine housings 6 and a compressor 7 and including a stator 8 of an electric generator located between them, gap seals 9 and 10 of the turbine and the compressor, as well as the support nodes 11, the input 12 of the working fluid and the exhaust 13 of the turbine.

Unlike the prototype, the channel 14 for supplying the working fluid from the inlet 12 to the compressor 3 is made in the hollow shaft 1 of the rotor of the unit, in the area of the gap seal 9 between the exhaust 13 of the turbine and the inlet 12 of the working fluid an additional preliminary axial stage 15 of the compressor is installed, the shaft 1 of the rotor has openings 16 communicating the working medium supply channel 14 with the stator cavity 5 of the unit, and in the stator 5 of the unit, cooling channels 17 of the stator 8 of the electric generator, supporting nodes 11 and the turbine hub 2 are made.

When the unit is operating, the axial stage 15 of the compressor provides a working fluid pressure exceeding the pressure in the exhaust 13 of the turbine.

On the hollow shaft 1 through channel 14, most of the flow of the working fluid flows to the compressor wheel 3, at the same time, through the openings 16, part of the flow of the working fluid passes through the channels 17 and cools the support nodes 11, the stator 8 of the electric generator and the hub of the turbine 2, providing efficient cooling of the unit .

Claims (1)

A turbine-electric generating unit comprising a rotor, on the shaft of which turbine and compressor impellers and a rotor part of the electric generator are installed between them, a stator consisting of turbine and compressor cases and including a stator of the electric generator located in the stator between the turbine and compressor cases, as well as supporting units, the working input bodies, gap seal and turbine exhaust, characterized in that in it the channel for supplying the working fluid from the inlet to the compressor is made in the hollow shaft of the rotor, in the zone of the gap seal m An additional preliminary axial stage of the compressor is installed between the turbine exhaust and the inlet of the working fluid, the rotor shaft has holes communicating with the supply channel of the working fluid with the stator cavity of the unit, in which the cooling channels of the stator of the electric generator, support nodes and the turbine hub are made.