초록 ▼

A wind turbine generator includes at least one rotating member, at least one stationary member, and a clearance gap control system. The stationary member is positioned such that a clearance gap is defined between a portion of the rotating member and a portion of the stationary member. The clearance

A wind turbine generator includes at least one rotating member, at least one stationary member, and a clearance gap control system. The stationary member is positioned such that a clearance gap is defined between a portion of the rotating member and a portion of the stationary member. The clearance gap is configured to facilitate transmitting a controllable magnetic flux therethrough. The control system includes at least one clearance gap measurement assembly, at least one power converter, and at least one controller. The controller is coupled in electronic data communication with the assembly and the converter and is configured to modulate a dimension of the gap by modulating the flux.

대표청구항 ▼

What is claimed is: 1. A generator comprising: at least one rotating member; at least one stationary member positioned such that a clearance gap is defined between a portion of said rotating member and a portion of said stationary member, wherein said clearance gap is configured to facilitate trans

What is claimed is: 1. A generator comprising: at least one rotating member; at least one stationary member positioned such that a clearance gap is defined between a portion of said rotating member and a portion of said stationary member, wherein said clearance gap is configured to facilitate transmitting a controllable magnetic flux therethrough; and a clearance gap control system comprising at least one clearance gap measurement assembly, at least one power converter, and at least one controller, said controller coupled in electronic data communication with said assembly and said converter and configured to modulate a dimension of said gap by modulating said flux. 2. A generator in accordance with claim 1, said assembly comprising at least one of: a clearance gap radial dimension measurement apparatus configured to transmit a gap dimension measurement signal; and a clearance gap magnetic flux measurement apparatus configured to transmit a clearance gap flux measurement signal. 3. A generator in accordance with claim 1 wherein said converter comprises a plurality of electronic switching devices configured to modulate said flux. 4. A generator in accordance with claim 3 wherein said switching devices comprise at least one of an insulated gate bipolar transistor (IGBT), an integrated gate commutated thyristor (IGCT), and a thyristor. 5. A generator in accordance with claim 1 further comprising: at least one controller input channel coupled in electronic data communication with said assembly, said input channel facilitating transmission of a clearance gap measurement signal; said controller comprising at least one processor coupled in electronic data communication with said assembly via said input channel, said processor configured to receive said clearance gap measurement signal; and at least one controller output channel coupled in electronic data communication with said processor and said converter, said controller output channel facilitates transmission of a controller output signal. 6. A generator in accordance with claim 5 wherein said processor comprises: at least one resident conversion algorithm configured to receive said clearance gap measurement signal, said algorithm further configured to generate at least one predetermined processor clearance gap measurement signal; at least one resident control algorithm configured to receive said processor clearance gap measurement signal, said control algorithm further configured to generate a processor clearance gap adjustment signal; and at least one resident clearance gap adjustment algorithm configured to receive said processor adjustment signal, said clearance gap adjustment algorithm comprising at least one predetermined value, said clearance gap adjustment algorithm configured to generate said controller output signal. 7. A generator in accordance with claim 1 wherein said control system is further configured to at least partially modulate radial support of at least a portion of said rotating member. 8. A generator in accordance with claim 1 wherein said generator is a wind turbine generator. 9. A method of controlling a clearance gap dimension within a generator, the generator having at least one rotating member and at least one stationary member positioned such that a clearance gap is defined between a portion of the rotating member and a portion of the stationary member, said method comprising modulating the clearance gap dimension by modulating a controllable magnetic flux generated within the clearance gap. 10. A method in accordance with claim 9 wherein modulating the dimension by modulating the magnetic flux comprises: providing a clearance gap control system that has at least one power converter; rotating the rotating member around the stationary member and generating the clearance gap magnetic flux within the clearance gap; measuring at least one of the clearance gap dimension and the clearance gap magnetic flux; and switching a plurality of switching devices within the converter, thereby modulating the clearance gap magnetic flux, and thereby modulating the clearance gap dimension. 11. A method in accordance with claim 10 wherein providing a clearance gap control system comprises: providing at least one clearance gap measurement assembly, the power converter, and at least one controller; fixedly coupling the assembly to the stationary member; electrically coupling the assembly in data communication with the controller; electrically coupling the controller in data communication with the converter; and coupling the converter in electrical connection with at least a portion of at least one of the stationary member and the rotating member. 12. A method in accordance with claim 11 wherein fixedly coupling the assembly to the stationary member comprises coupling the assembly to a predetermined radial and circumferential portion of the stationary member using at least one of an adhesive, retention hardware, and tack welding to facilitate measurement of the clearance gap dimension. 13. A method in accordance with claim 11 wherein coupling the assembly to the controller comprises: providing at least one controller input channel and at least one processor, electrically coupling the assembly in data communication with the controller input channel; and electrically coupling the controller input channel in data communication with the processor. 14. A method in accordance with claim 13 wherein coupling the controller to the converter comprises: providing at least one controller output channel; and electrically coupling the controller in data communication with the controller output channel. 15. A control system for a rotary machine, the rotary machine having at least one rotating member and at least one stationary member positioned such that a clearance gap is defined between a portion of the rotating member and a portion of the stationary member, wherein the clearance gap is configured to facilitate transmitting a controllable magnetic flux therethrough, said control system comprising: at least one clearance gap measurement assembly; at least one power converter; and at least one controller, said controller coupled in electronic data communication with said assembly and said converter and configured to modulate said dimension of said clearance gap by modulating said flux. 16. A control system in accordance with claim 15 said assembly comprising at least one of: a clearance gap radial dimension measurement apparatus configured to transmit a clearance gap dimension measurement signal; and a clearance gap magnetic flux measurement apparatus configured to transmit a clearance gap flux measurement signal. 17. A control system in accordance with claim 15 wherein said converter comprises a plurality of electronic switching devices configured to modulate said controllable magnetic flux generated within said clearance gap. 18. A control system in accordance with claim 17 wherein said switching devices comprise at least one of an insulated gate bipolar transistor (IGBT), an integrated gate commutated thyristor (IGCT), and a thyristor. 19. A control system in accordance with claim 15 further comprising: at least one controller input channel coupled in electronic data communication with said assembly, said input channel facilitating transmission of a clearance gap measurement signal; said controller comprising at least one processor coupled in electronic data communication with said assembly via said input channel, said processor configured to receive said clearance gap measurement signal; and at least one controller output channel coupled in electronic data communication with said processor and said converter, said controller output channel facilitating transmission of a controller output signal. 20. A control system in accordance with claim 19 wherein said processor comprises: at least one resident conversion algorithm configured to receive said clearance gap measurement signal, said algorithm further configured to generate at least one predetermined processor clearance gap measurement signal; at least one resident control algorithm configured to receive said processor clearance gap measurement signal, said control algorithm further configured to generate a processor clearance gap adjustment signal; and at least one resident clearance gap adjustment algorithm configured to receive said processor adjustment signal, said clearance gap adjustment algorithm comprising at least one predetermined value, said clearance gap adjustment algorithm configured to generate said controller output signal.