Wind Turbine System Design
Volume 1: Nacelles, drivetrains and verification
Wind energy is a pillar of the strategy to mitigate greenhouse gas emissions and stave off catastrophic climate change, but the market is under tremendous pressure to reduce costs. This results in the need for optimising any new wind turbine to maximise the return on investment and keep the technology profitable and the sector thriving. Optimisation involves selecting the best component out of many, and then optimising the system as a whole. Key components are the nacelles and drive trains, and the verification of their work as a system.
Wind Turbine System Design: Volume 1: Nacelles, drive trains and verification is a valuable reference for scientists, engineers and advanced students engaged in the design of wind turbines offering a systematic guide to these components. Chapters written by industry experts cover load calculation and validation, models and simulation, pitch and yaw system concepts and designs, drivetrain concepts and developments, gearboxes, hydraulic systems, lubrication, and validation. The book aims to enable readers to make informed and systematic choices in designing the best turbine for a given situation.
About the Editors
Jan Wenske is a professor at the University of Bremen and deputy director of the Fraunhofer-Institute for Wind Energy Systems (IWES), Germany. He received his PhD in 1999 at the Institute of Electrical Engineering at the TU Clausthal. Professional assignments from 2000-2010 included advanced development for electrical drives at the STILL GmbH and the Power Electronics Development at Jenoptik Defense & Civil Systems. He works intensively with major industry players in wind energy technology.