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Designing Wind Turbines: Engineering and Manufacturing Process in the Industrial Context: Synthesis Lectures on Renewable Energy Technologies

Autor Uwe Ritschel, Michael Beyer
en Limba Engleză Hardback – 5 noi 2022
Designing a wind turbine is an interdisciplinary process that requires an understanding of challenges for all parties involved. The authors deliver an effective and economic way to organize such a design by respecting all the challenges involved. The book provides such insight by utilizing specific examples of existing modern designs. Detailed descriptions and explanations are given for those components of the wind turbine that are normally developed by the so-called original equipment manufacturers (OEM) of a particular type. The OEM needs to have full knowledge of the complete system that consists of all parts being rotor blades, nacelle, drive train, tower, and foundation including the dynamic properties and the response to the controller action. This full knowledge is called system competence. For a wind turbine the drive train is the most important system. It consists of many components like shafts, bearings, gearbox, and generator for a wind turbine with a gear box; in systems without a gearbox a large generator has to be integrated into the drive train.
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Specificații

ISBN-13: 9783031085482
ISBN-10: 3031085485
Pagini: 174
Ilustrații: XIII, 174 p. 138 illus., 103 illus. in color.
Dimensiuni: 168 x 240 mm
Greutate: 0.54 kg
Ediția:1st ed. 2022
Editura: Springer International Publishing
Colecția Springer
Seria Synthesis Lectures on Renewable Energy Technologies

Locul publicării:Cham, Switzerland

Cuprins

Preface.- Acknowledgments.- Chapter 1 - Wind Energy Basics.- Chapter 2 - Modern wind turbines.- Chapter 3 - Development process and requirements.- Chapter 4 - Drivetrain.- Chapter 5 - Structural components.- Chapter 6 - Bearings.- Chapter 7 - Gearbox.- Chapter 8 - Bolt connections.- Chapter 9 - Yaw and Pitch System.- Chapter 10 - Auxiliary Systems and Secondary Steel- Bibliography.- Author's Biography.

Notă biografică

Dr. Uwe Ritschel studied physics and received his Ph.D. in 1989. After several years in fundamental research in 2000, he joined the engineering department of Nordex, a wind turbine manufacturer. In 2002 he established the Windrad Engineering GmbH and worked as managing director. The main business is the development of new wind turbines for international customers from the wind industry. Since 2014 he works as the Chair of Wind Energy Technology at the University of Rostock. In 2019 he co-founded the independent research institute IWEN working more generally on renewable energies and energy transition.
Dr. Michael Beyer received his Ph.D. in physics in 1985. He held several research and teaching positions in different countries including Germany, U.S.A., Switzerland, and several visiting and research grants on basic research. He is affiliated to the University of Rostock since 1994. In 2008 he entered the wind business and from 2014 until 2021 he was managing director of Windrad Engineering GmbH, an independent engineering office and design house for wind turbines. He shares his experience through supervising, consulting, and is presently teaching mechanical aspects of wind energy at the University of Kassel.

Textul de pe ultima copertă

Designing a wind turbine is an interdisciplinary process that requires an understanding of challenges for all parties involved. The authors deliver an effective and economic way to organize such a design by respecting all the challenges involved. The book provides such insight by utilizing specific examples of existing modern designs. Detailed descriptions and explanations are given for those components of the wind turbine that are normally developed by the so-called original equipment manufacturers (OEM) of a particular type. The OEM needs to have full knowledge of the complete system that consists of all parts being rotor blades, nacelle, drive train, tower, and foundation including the dynamic properties and the response to the controller action. This full knowledge is called system competence. For a wind turbine the drive train is the most important system. It consists of many components like shafts, bearings, gearbox, and generator for a wind turbine with a gear box; in systems without a gearbox a large generator has to be integrated into the drive train.

Caracteristici

Derived from development projects for complete designs of new wind turbines Focus on mechanical design of the drive train and how a wind turbine is developed within the engineering process Examples are given from original wind turbine developments