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  • Introduction

Estimating power generation

wind turbine

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wind turbine

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wind turbine , apparatus used to convert the kinetic energy of wind into electricity .

Wind turbines come in several sizes, with small-scale models used for providing electricity to rural homes or cabins and community -scale models used for providing electricity to a small number of homes within a community. At industrial scales, many large turbines are collected into wind farms located in rural areas or offshore. The term windmill , which typically refers to the conversion of wind energy into power for milling or pumping, is sometimes used to describe a wind turbine . However, the term wind turbine is widely used in mainstream references to renewable energy ( see also wind power ).

There are two primary types of wind turbines used in implementation of wind energy systems: horizontal-axis wind turbines (HAWTs) and vertical-axis wind turbines (VAWTs). HAWTs are the most commonly used type, and each turbine possesses two or three blades or a disk containing many blades (multibladed type) attached to each turbine. VAWTs are able to harness wind blowing from any direction and are usually made with blades that rotate around a vertical pole.

HAWTs are characterized as either high- or low-solidity devices, in which solidity refers to the percentage of the swept area containing solid material. High-solidity HAWTs include the multibladed types that cover the total area swept by the blades with solid material in order to maximize the total amount of wind coming into contact with the blades. An example of the high-solidity HAWT is the multibladed turbine used for pumping water on farms, often seen in the landscapes of the American West . Low-solidity HAWTs most often use two or three long blades and resemble aircraft propellers in appearance. Low-solidity HAWTs have a low proportion of material within the swept area, which is compensated by a faster rotation speed used to fill up the swept area. Low-solidity HAWTs are the most commonly used commercial wind turbines as well as the type most often represented through media sources. Those HAWTs offer the greatest efficiency in electricity generation and, therefore, are among the most cost-efficient designs used.

Electric power lines against sunset (grid, power, wires, electrical, electricity)

The less-used, mostly experimental VAWTs include designs that vary in shape and method of harnessing wind energy. The Darrieus VAWT, which uses curved blades in a curved arch design, became the most common VAWT in the early 21st century. H-type VAWTs use two straight blades attached to either side of a tower in an H-shape, and V-type VAWTs use straight blades attached at an angle to a shaft, forming a V-shape. Most VAWTs are not economically competitive with HAWTs, but there is continuing interest in research and development of VAWTs, particularly for building integrated wind energy systems.

According to Betz’s law, the maximum amount of power that a wind turbine can generate cannot exceed 59 percent of the wind’s kinetic energy. Given that limitation, the expected power generated from a particular wind turbine is estimated from a wind speed power curve derived for each turbine, usually represented as a graph showing the relation between power generated (kilowatts) and wind speed (metres per second). The wind speed power curve varies according to variables unique to each turbine such as number of blades, blade shape, rotor swept area, and speed of rotation. In order to determine how much wind energy will be generated from a particular turbine at a specific site location, the turbine’s wind speed power curve needs to be coupled with the wind speed frequency distribution for its site. The wind speed frequency distribution is a histogram representing wind speed classes and the frequency of hours per year that are expected for each wind speed class. The data for those histograms are usually provided by wind speed measurements collected at the site and used to calculate the number of hours observed for each wind speed class.

A rough estimate of annual electric production in kilowatt-hours per year at a site can be calculated from a formula multiplying average annual wind speed, swept area of the turbine, the number of turbines, and a factor estimating turbine performance at the site. However, additional factors may decrease annual energy production estimates to varying degrees, including loss of energy because of distance of transmission, as well as availability (that is, how reliably the turbine will produce power when the wind is blowing). By the early 21st century most commercial wind turbines functioned at over 90 percent availability, with some even functioning at 98 percent availability.


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  1. Wind Energy

    kinetic energy noun power or force an object has because of its motion. turbine noun machine that captures the energy of a moving fluid, such as air or water. vertical noun up-down direction, or at a right angle to Earth and the horizon. wind energy noun kinetic energy produced by the movement of air, able to be converted to mechanical power.

  2. How a Wind Turbine Works

    Wind farms can consist of a few or hundreds of turbines, providing enough power for tens of thousands of homes. Small wind turbines, up to 100 kilowatts, are typically close to where the generated electricity will be used, for example, near homes, telecommunications dishes or water pumping stations.

  3. Wind Energy Basics

    Wind energy is actually a byproduct of the sun. The sun’s uneven heating of the atmosphere, the earth’s irregular surfaces (mountains and valleys), and the planet's revolution around the sun all combine to create wind. Since wind is in plentiful supply, it’s a sustainable resource for as long as the sun’s rays heat the planet.

  4. Wind turbine

    wind turbine, apparatus used to convert the kinetic energy of wind into electricity. Wind turbines come in several sizes, with small-scale models used for providing electricity to rural homes or cabins and community -scale models used for providing electricity to a small number of homes within a community.

  5. Wind turbine

    A wind turbine is a device that converts the kinetic energy of wind into electrical energy. As of 2020, hundreds of thousands of large turbines, in installations known as wind farms, were generating over 650 gigawatts of power, with 60 GW added each year. [1]