Abstract
The objective of the design of a three-layers flat blade smart wind turbine with an Arduino blade angle configuration system is to study experimentally the performance of a wind turbine Three-layersflat blade horizontal guide with various wind speed variations, and apply automatically to blade blade speed average for weather. Tests are carried out to obtain the value of wind turbine power coefficient (Cp). Tests that use variations in wind and blade angle. Variations in wind speed are obtained by variations in refineries from wind turbines. The performance of Three-layersbflat blade wind turbines has the highest Power Coefficiency (Cp) values at certain blade angles on variations in wind speed at a wind speed of 5 m/sec with a blade angle of 15º at 57.84%; at a wind speed of 6 m/sec with a blade angle of 20º of 36.24%; at a wind speed of 7 m/sec with a 25º blade angle of 51.39%; at a wind speed of 8 m / sec with a blade angle of 30º of 39.37%; and at a wind speed of 9 m/s with a blade angle of 35º of 28.24%. After obtaining data about wind speed and angle with the highest Cp value, the wind speed that will be used as the input of the Arduino control system, and the output is a large blade blade that changes to adjust the wind speed.
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