A method for axial thrust control of a gas turbine, and a gas turbine with a device for controlling axial thrust are provided. A gas turbine, with regard to aerodynamic forces and pressure forces, which exert an axial force upon the rotor, is configured such that at no-load and low partial load it h
A method for axial thrust control of a gas turbine, and a gas turbine with a device for controlling axial thrust are provided. A gas turbine, with regard to aerodynamic forces and pressure forces, which exert an axial force upon the rotor, is configured such that at no-load and low partial load it has a negative thrust, and at high load it has a positive thrust. In order to ensure a resulting positive thrust upon the thrust bearing within the entire load range of the gas turbine, an additional thrust is applied in a controlled manner. The additional thrust for example can be controlled in dependence upon the gas turbine load. The resulting thrust force at full load is consequently less than in the case of a conventionally designed gas turbine without thrust balance.
대표청구항▼
1. A method for operating a gas turbine with thrust balance, comprising: providing a gas turbine with a rotor, that, with regard to aerodynamic forces and pressure forces which exert an axial force upon the rotor, is configured such that the forces at no-load and low partial load result in a negativ
1. A method for operating a gas turbine with thrust balance, comprising: providing a gas turbine with a rotor, that, with regard to aerodynamic forces and pressure forces which exert an axial force upon the rotor, is configured such that the forces at no-load and low partial load result in a negative thrust, and at high load and full load result in a positive thrust; and applying a positive additional thrust in a controlled manner, for maintaining a positive resulting axial bearing force within an entire load range, and in the high load range no compressed air for pressure application is consumed. 2. The method as claimed in claim 1, further comprising producing additional thrust for controlling the pressure on an end face, or on a partial area of the end face, of the turbine rotor. 3. The method as claimed in claim 2, further comprising dividing a substantially annular cavity between a drum cover and a first turbine disk by a seal into an outer annular cavity (11) and an inner annular cavity (10), and exposing one of the two cavities to pressure application for thrust control. 4. The method as claimed in claim 2, further comprising lowering the static pressure in the annular cavity, from which the turbine rotor is supplied with high-pressure cooling air, by imposing a swirl on the flow in the annular cavity. 5. The method as claimed in claim 3, wherein the outer annular cavity (11) is used for the cooling air supply of the turbine rotor, and the inner annular cavity (10) is used for thrust control. 6. The method as claimed in claim 1, further comprising at least one of the following for thrust control: using compressed air from a compressor plenum (2);using compressed air from a compressor tapping upstream of a compressor end;using compressed air from an external source; orusing steam from an external source. 7. The method as claimed in claim 1, further comprising providing at least one control valve (15) to control thrust for pressure application; opening the control valve at low load; closing the at least one control valve upon exceeding a discrete limiting value; and reopening the at least one control valve upon falling below the discrete limiting value. 8. The method as claimed in claim 7, wherein the limiting value for opening the at least one control valve (15) is higher than the limiting value for closing. 9. The method as claimed in claim 7, wherein the at least one control valve (15) is closed in proportion to the load for adjusting the additional thrust. 10. The method as claimed in claim 3, further comprising establishing a preset pressure ratio, for controlling the additional thrust, between inner annular cavity (10) and compressor end pressure (2); and controlling the ratio by at least one control valve (15). 11. The method as claimed in claim 10, wherein the pressure ratio between inner annular cavity and compressor end pressure is a function of the load, ora function of another relevant operating parameter, or a combination of operating parameters of the gas turbine. 12. A gas turbine with thrust balance comprising a rotor and at least one face, or partial area of the rotor, exposable to pressure application, the turbine, with regard to aerodynamic forces and pressure forces which exert an axial force upon the rotor, is configured such that the forces at no-load and low partial load result in a negative thrust, and at high load and full load result in a positive thrust, a control device for applying a positive additional thrust in a controlled manner, such that resulting axial bearing force is positively maintained within an entire load range, and in the high load range no compressed air for pressure application is consumed. 13. A gas turbine as claimed in claim 12, further comprising a substantially annular cavity between a drum cover and a first turbine disk is divided by a turbine disk seal (9) into an outer annular cavity (11) and an inner annular cavity (10), and one of the two cavities is the partial area of a turbine rotor exposable to pressure application. 14. A gas turbine as claimed in claim 13, further comprising at least one line (14) with control valve (15) from a compressor plenum (2), or from a compressor tapping point, and an inlet (16) into the substantially annular cavity exposable to pressure application. 15. A gas turbine as claimed in claim 14, further comprising at least one pressure measuring device for measuring pressure in at least one of the substantially annular cavity exposable to pressure application, or a compressor end.
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이 특허에 인용된 특허 (9)
Marmilic Robert (Baden CHX) Walchli Rene (Niedergosgen CHX), Apparatus for cooling an axial-flow gas turbine.
Greune Christian (Furstenfeldbruck DT) Herrmann Bruno (Lambertheim DT) Steuer Siegfried (Unterhaching DT), Regulating device for a prime mover, more particularly for a single-spool gas turbine.
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