초록 ▼

A system and method provide for the effective, real, testing of a wind turbine, especially a vertical axis wind turbine, in a simple, versatile, durable, and relatively cost effective manner. The shaft of a wind turbine (e.g. a VAWT such as a Savonius) is connected to a disc, as is a proportionally

A system and method provide for the effective, real, testing of a wind turbine, especially a vertical axis wind turbine, in a simple, versatile, durable, and relatively cost effective manner. The shaft of a wind turbine (e.g. a VAWT such as a Savonius) is connected to a disc, as is a proportionally controlled disc brake. A torque transducer is connected to the shaft, and an rpm sensor, and a device which collects torque and rpm data from the torque transducer and sensor, are provided. The torque transducer and rpm sensor may be a rotary torque transducer, or the torque transducer may be a load cell operatively positioned a known distant X from the turbine shaft, which known distance X is input into the device which collects torque and rpm data. By effectively applying loads to the proportional disc brake at determined wind speeds, a power curve for the wind turbine can be generated.

대표청구항 ▼

What is claimed is: 1. A wind turbine testing system comprising: a wind turbine shaft; a disc operatively connected to the shaft; a proportionally controlled disc brake operatively connected to the disc; a torque transducer operatively connected to the shaft; an rpm sensor; and a device which colle

What is claimed is: 1. A wind turbine testing system comprising: a wind turbine shaft; a disc operatively connected to the shaft; a proportionally controlled disc brake operatively connected to the disc; a torque transducer operatively connected to the shaft; an rpm sensor; and a device which collects torque and rpm data from the torque transducer and sensor. 2. A wind turbine testing system as recited in claim 1 further comprising a wind speed sensor operatively connected to the device which collects torque and rpm data, the device correlating wind speed to the torque and rpm data. 3. A wind turbine testing system as recited in claim 1 wherein the wind turbine shaft is operatively connected to a Savonius vertical axis wind turbine. 4. A wind turbine testing system as recited in claim 1 further comprising a second, parking, electrically controlled disc brake operatively connected to the disc. 5. A wind turbine testing system as recited in claim 4 wherein the disc brakes are electric/hydraulic brakes. 6. A wind turbine testing system as recited in claim 1 further comprising an electrically actuated clutch operatively connected to the wind turbine shaft and a load. 7. A wind turbine testing system as recited in claim 6 further comprising a device operatively connected to a wind speed sensor which operates the clutch to connect the shaft to the load when the wind speed exceeds a predetermined value. 8. A wind turbine testing system as recited in claim 1 wherein the torque transducer and rpm sensor are provided by a rotary torque transducer. 9. A wind turbine testing system as recited in claim 1 wherein the torque transducer comprises a load cell operatively positioned a known distance X from the turbine shaft, which known distance X is input into the device which collects torque and rpm data. 10. A wind turbine system comprising: a vertical axis wind turbine having a substantially vertical shaft; a disc operatively connected to the shaft; a parking disc brake operatively connected to the disc; and a proportionally controlled disc brake operatively connected to the disc. 11. A wind turbine system as recited in claim 10 further comprising a torque transducer operatively connected to the shaft. 12. A wind turbine system as recited in claim 10 further comprising a device which collects rpm and torque data associated with the shaft; and wherein the torque transducer comprises a load cell operatively positioned a known distance X from the turbine shaft, which known distance X is input into the device which collects torque and rpm data. 13. A wind turbine system as in claim 12 further comprising an electrically actuated clutch operatively connected to the wind turbine shaft and a load; and a device operatively connected to a wind speed sensor which operates the clutch to connect the shaft to the load when the wind sped exceeds a predetermined value. 14. A wind turbine testing system for a vertical axis wind turbine having a substantially vertical shaft, comprising: a computer controlled dynamometer operatively connected to the wind turbine substantially vertical shaft, a computer controlled dynamometer including a torque transducer and telemetry system. 15. A wind turbine testing system for a wind turbine having a shaft, comprising: a proportional controlled brake operatively connected to the shaft; a computer controller; a signal amplifier operatively connected to the controller; and a proportional electric actuator operatively connected to the amplifier and brake. 16. A method of obtaining torque and other data utilizing the system of claim 10 comprising: a) operating the proportional brake to decrease and increase the braking pressure from about 100% to about 0% and to about 100% while substantially continuously recording wind speed, torque, and rpm. 17. A method as recited in claim 16 further comprising, prior to a), b) determining if the wind speed is over x mph and less than y mph where y is at least 10 mph more than x, and x is at most 12 mph, before practicing a); and wherein a) is practiced to decrease the pressure until the rpm of the shaft substantially stops increasing, then increasing the pressure until the rpm is substantially zero, until the maximum power point for a given wind speed is reached. 18. A method of operating a wind turbine comprising a) periodically testing the wind turbine to determine maximum power points for a particular wind speed, and b) while not practicing a) operating the wind turbine to power a load. 19. A wind turbine testing system having a vertical axis wind turbine with a substantially vertical shaft; a loading device; and a device which functions as a torque transducer operationally in between the turbine and loading device and comprising: a load cell, a disc operatively connected to the shaft for rotation therewith, and a device operatively connected to the disc and abutting the load cell so that the device prevents rotation of the disc by applying a force to the load cell. 20. A method as recited in claim 16 wherein a) is practiced periodically to test the wind turbine to determine maximum power points for a particular wind speed; and further comprising b), while not practicing a), operating the wind turbine to power a load.