It is not surprising that from 1995 to 2012, the standard diameter of rotor blades increased by 115 feet and the average output increased from 0.75 MW to 2.5 MW, as the blades of the wind turbine grew larger. However, at some times too big a wind wheel can cost itself more than the cost of electricity produced. Soon, "We're going to run into this problem," Eric Loth said. He is an engineer at the University of Virginia. Inspired by the palm tree's ability to bend in the presence of strong winds, Ralph designed a Morphing Downwind-Aligned Rotor (MoDaR). Its hinged blades turn in the wind to effectively trap wind energy. The blades are lightweight and therefore can reach 780 feet in length, increasing the output to 50 MW. It is likely that such a big thing will not enter the commercial market until 2025, but this is not a problem for Reese. "This idea is not necessary for a smaller wind turbine now," he said. "We are at Work hard for the future. " working principle Wind Turbines Trevor Johnston summarized the working principle of this new wind turbine as follows: 1, Crosstalk round the tower downwind. The blades can flex by hinges and will not hit the tower as the wind conditions change. Downwind Wind turbines have a big problem: The captured wind creates turbulence around the tower, stressing the system and vulnerable components. Crossed wheel tower can be used to make the fairing. 3, during the storm, the leaves can be placed in horizontal position to avoid damage. Metal Birquetting Press,Manual Metal Baler,Manual Waste Metal Baler,Manual Metal Baling Press Jiangyin Yimaisheng Hydraulic Machinery Co., Ltd. , https://www.ymsrecycling.com