For a wind turbine, this means that energy generation can, to a certain extent, be enhanced by taller towers. Given that wind flow is inconsistent, so is the electricity generated by a single wind turbine. One of the fastest-growing sources of energy, wind turbines generate electricity without emitting greenhouse gases into the environment (unlike fossil fuels). Most modern turbines utilize the pitch control mechanism to harvest optimal energy. How Does Wind Turbine Work? This causes the rotor to turn. Rotor surface area: Rotor blades for wind turbines are similar to the wings of an aeroplane, but unlike wings they have a twisted profile. There is an air turbine of large blades attached on the top of a supporting tower of sufficient height. On that note, how does a wind turbine work? Learning how a wind turbine works is easy as long as you first make sure to know how a turbine generator works.. What happens inside a wind turbine so that it can transform wind into electricity? Wind turbines are analogous: like cars, they're designed to work efficiently at a range of different speeds. Wind turbines convert energy of winds between 4 and 25 meters per second. Today, wind turbines commonly feature in our landscape. Wind blows on the angled blades of the turbine and creates lift, just as it does with an airplane wing. When hit by wind, the rotor blades spin around and capture some kinetic energy from the moving air. While this essay isn’t enough to make anyone an expert, we do hope that you’ve learned some interesting things and you can now answer how does a wind turbine work?. Where wind meets the blade But how do wind turbines work? Wind. When wind strikes on the turbine blades, the turbine rotates due to the design and alignment of rotor blades. Wind turbines operate on a simple principle. However, whilst we all may have seen one, not everyone understands how they work. Today’s wind turbines are the windmill’s modern equivalent -- converting the kinetic energy in wind into clean, renewable electricity. Faster winds result in more energy. A typical wind turbine nacelle is 85 meters (280 feet) off the ground—that's like 50 tall adults standing on one another's shoulders! The diagram of the wind turbine above is a side view of a horizontal axis wind turbine with the turbine blades on the left. The simple answer is through the rain, wind and sun – but it’s there is more to it. Most modern wind turbines are built with a horizontal-axis similar to the one seen in the figure. How Does a Wind Turbine Work? Technically, only the huge rotor blades we can see on the front of a wind turbine are the “turbine” part of the system. This turns the central shaft supporting the rotors, which moves at a slower speed. (See How Electromagnets Work to learn more about electromagnetic induction, and see How Hydropower Plants Work to learn more about turbine-driven generators.) Generally, we all know that wind turbines generate electricity using wind power. Producing more electricity is also influenced by the wind turbine’s location. The diagram of the wind turbine above is a side view of a horizontal axis wind turbine with the turbine blades on the left. However, if you were to ask most people how this process works, they’d be confused. To understand how does wind energy work, we need to talk about the elements involved in a wind turbine. There is an air turbine of large blades attached on the top of a supporting tower of sufficient height. How Does a Wind Turbine Work? They are not designed to operate above 88kph - a strong gale, which could cause damage to the turbine. Wind turbines are designed to start operating at about 12-25 kilometres per hour - a gentle or moderate breeze. Unlike the old-fashioned Dutch windmill design, which relied mostly on the wind's force to push the blades into motion, modern turbines use more sophisticated aerodynamic principles to capture the wind's energy most effectively. There's a good reason for this. How Does Wind Turbine Work? The majority of wind turbines consist of three blades mounted to a tower made from tubular steel.