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Vertical axis wind turbine

a wind turbine and vertical axis technology, applied in vessel construction, renewable energy generation, greenhouse gas reduction, etc., can solve the problems of low power generation, limited power generation, and suffer from certain drawbacks, so as to reduce the need for maintenance and replacement parts, the effect of less susceptible to flexion and extension

Inactive Publication Date: 2007-10-18
BARON RICHARD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0009] Various embodiments may provide certain advantages. The wind turbine disclosed herein is torque-governed rather than velocity-governed and can therefore generate power at a wide range of wind speeds. Also, compared to the blades in a horizontal axis wind turbine, the sail-like structures of the vertical axis wind turbine disclosed herein are less susceptible to flexion and extension under even gusty or changing wind conditions. Thus, the need for maintenance and replacement parts is significantly reduced. In addition, the wind turbine disclosed herein can extract energy from the wind in both downwind and upwind directions. Also, the wind turbine is both laterally and vertically scalable to enable power generation on a larger scale than has previously been realized, particularly with horizontal axis wind turbines.

Problems solved by technology

While horizontal axis wind turbines are the most common type of wind turbine, they suffer from certain drawbacks.
Thus, they generate low amounts of power at low wind speeds.
At high wind speeds, on the other hand, the power generated is limited by a phenomenon known as the Betz limit.
Accordingly, the efficiency of velocity-governed wind turbines is limited at both low and high wind speeds.
Other drawbacks that are particularly evident at high speeds include, for example, high noise levels and large numbers of birds killed by blade tips rotating at extremely high velocities.
In addition, increasing the speed of the rotating blades in order to extract more energy from the wind creates centrifugal forces that impart cyclic stresses, thereby leading to fatigue of the blades, axles, and bearing material.
These stresses are particularly problematic under gusty or changing wind conditions.
Some conventional vertical axis wind turbines also suffer from some drawbacks, such as a pulsating torque produced during each revolution.
In addition, mounting vertical axis turbines on towers is relatively difficult.
With the air flow slower and more turbulent relative to higher altitudes; vertical axis wind turbines may extract energy from wind less efficiently than horizontal axis wind turbines.
In addition, vertical axis wind turbines, like horizontal axis wind turbines, are typically velocity-governed and suffer from many of the same problems exhibited by horizontal axis wind turbines, including, for example, efficiency limitations at both high and low wind speeds and stresses imparted by centrifugal forces.

Method used

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Embodiment Construction

[0020] According to various example embodiments, a vertical axis sail-type wind turbine includes an array of sail-like structures that are mounted on rotating sail masts. When the sail-like structures are moving in a downwind direction, they are oriented to present a flat surface that is perpendicular to the wind direction. When the sail-like structures are moving in an upwind direction, they are oriented to present a surface that is at an angle that creates an upwind vector. The sail-like structures rotate about the sail masts, which are mounted to transverse mounting arms that are firmly mounted to a main mast. The main mast transfers power through a gear and shaft drive to hydraulic pumps in the tower. This hydraulic fluid pressure is then used to drive an electrical generator. The use of a hydraulic power transfer eliminates the transmission and planetary gear system that are characteristic of many conventional wind turbines.

[0021] In the following description, numerous specifi...

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Abstract

A vertical axis sail-type wind turbine includes an array of sail-like structures that are mounted on rotating main masts. The sail-like structures can be oriented to interact with the wind. For example, when the sail-like structures are moving in a downwind direction, they are oriented to present a flat surface that is perpendicular to the wind direction. On the other hand, when the sail-like structures are moving in an upwind direction, they are oriented to present a surface that is at an angle that creates an upwind vector. The sail-like structures rotate about the sail masts, which are mounted to transverse mounting arms that are firmly mounted to a main mast. The main mast rotates, transferring power through a gear and shaft drive to hydraulic pumps in the tower. This hydraulic fluid pressure is then used to drive an electrical generator.

Description

TECHNICAL BACKGROUND [0001] The disclosure relates generally to electrical power generation. More particularly, the disclosure relates to the generation of electricity using wind power. BACKGROUND [0002] Wind turbines are known in the art for converting wind power to electrical energy. Typically, wind turbines rotate around a horizontal axis. Such wind turbines are known as horizontal axis wind turbines and have a main rotor shaft and a generator mounted on top of a tower. A gearbox may be used to convert the slow rotation of the blades into a faster rotation that is more suitable for generating electrical power. Horizontal axis wind turbines must be pointed into the wind, for example, by a wind vane or a wind sensor coupled with a servo motor. [0003] While horizontal axis wind turbines are the most common type of wind turbine, they suffer from certain drawbacks. For example, horizontal axis wind turbines are typically velocity-governed. That is, the power that they generate is depe...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B63H1/06
CPCF03D3/068F05B2240/40Y02E10/74Y02B10/30F05B2260/406
Inventor BARON, RICHARD
Owner BARON RICHARD
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