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Wind turbine aerodynamics and vortic...

Branlard, Emmanuel.

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Wind turbine aerodynamics and vorticity-based methods = fundamentals and recent applications /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Wind turbine aerodynamics and vorticity-based methods/ by Emmanuel Branlard.
Reminder of title:	fundamentals and recent applications /
Author:	Branlard, Emmanuel.
Published:	Cham :Springer International Publishing : : 2017.,
Description:	xxxi, 632 p. :ill., digital ;24 cm.
[NT 15003449]:	Part I Fluid Mechanics Foundations -- Part II Introduction to Rotors Aerodynamics -- Part III Classical Vortex Theory Results: Optimal Circulation and Tip-Losses -- Part IV Latest Developments in Vorticity-based Rotor Aerodynamics -- Part V Latest Applications of Vortex Methods to Rotor Aerodynamics and Aeroelasticity -- Part VI Analytical Solutions for Vortex Methods and_Rotor Aerodynamics -- Part VII Vortex Methods -- Part VIII Complements.
Contained By:	Springer eBooks
Subject:	Wind turbines - Aerodynamics. -
Online resource:	http://dx.doi.org/10.1007/978-3-319-55164-7
ISBN:	9783319551647

Wind turbine aerodynamics and vorticity-based methods = fundamentals and recent applications /
Branlard, Emmanuel.

Wind turbine aerodynamics and vorticity-based methodsfundamentals and recent applications /[electronic resource] :by Emmanuel Branlard. - Cham :Springer International Publishing :2017. - xxxi, 632 p. :ill., digital ;24 cm. - Research topics in wind energy,v.72196-7806 ;. - Research topics in wind energy ;v.7..

Part I Fluid Mechanics Foundations -- Part II Introduction to Rotors Aerodynamics -- Part III Classical Vortex Theory Results: Optimal Circulation and Tip-Losses -- Part IV Latest Developments in Vorticity-based Rotor Aerodynamics -- Part V Latest Applications of Vortex Methods to Rotor Aerodynamics and Aeroelasticity -- Part VI Analytical Solutions for Vortex Methods and_Rotor Aerodynamics -- Part VII Vortex Methods -- Part VIII Complements.

The book introduces the fundamentals of fluid-mechanics, momentum theories, vortex theories and vortex methods necessary for the study of rotors aerodynamics and wind-turbines aerodynamics in particular. Rotor theories are presented in a great level of details at the beginning of the book. These theories include: the blade element theory, the Kutta-Joukowski theory, the momentum theory and the blade element momentum method. A part of the book is dedicated to the description and implementation of vortex methods. The remaining of the book focuses on the study of wind turbine aerodynamics using vortex-theory analyses or vortex-methods. Examples of vortex-theory applications are: optimal rotor design, tip-loss corrections, yaw-models and dynamic inflow models. Historical derivations and recent extensions of the models are presented. The cylindrical vortex model is another example of a simple analytical vortex model presented in this book. This model leads to the development of different BEM models and it is also used to provide the analytical velocity field upstream of a turbine or a wind farm under aligned or yawed conditions. Different applications of numerical vortex methods are presented. Numerical methods are used for instance to investigate the influence of a wind turbine on the incoming turbulence. Sheared inflows and aero-elastic simulations are investigated using vortex methods for the first time. Many analytical flows are derived in details: vortex rings, vortex cylinders, Hill's vortex, vortex blobs etc. They are used throughout the book to devise simple rotor models or to validate the implementation of numerical methods. Several Matlab programs are provided to ease some of the most complex implementations.

ISBN: 9783319551647

Standard No.: 10.1007/978-3-319-55164-7doiSubjects--Topical Terms:

2071816
Wind turbines
--Aerodynamics.

LC Class. No.: TJ828

Dewey Class. No.: 621.312136

Wind turbine aerodynamics and vorticity-based methods = fundamentals and recent applications /
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100 1 $a Branlard, Emmanuel. $3 3236365
245 1 0 $a Wind turbine aerodynamics and vorticity-based methods $h [electronic resource] : $b fundamentals and recent applications / $c by Emmanuel Branlard.
260 $a Cham : $b Springer International Publishing : $b Imprint: Springer, $c 2017.
300 $a xxxi, 632 p. : $b ill., digital ; $c 24 cm.
490 1 $a Research topics in wind energy, $x 2196-7806 ; $v v.7
505 0 $a Part I Fluid Mechanics Foundations -- Part II Introduction to Rotors Aerodynamics -- Part III Classical Vortex Theory Results: Optimal Circulation and Tip-Losses -- Part IV Latest Developments in Vorticity-based Rotor Aerodynamics -- Part V Latest Applications of Vortex Methods to Rotor Aerodynamics and Aeroelasticity -- Part VI Analytical Solutions for Vortex Methods and_Rotor Aerodynamics -- Part VII Vortex Methods -- Part VIII Complements.
520 $a The book introduces the fundamentals of fluid-mechanics, momentum theories, vortex theories and vortex methods necessary for the study of rotors aerodynamics and wind-turbines aerodynamics in particular. Rotor theories are presented in a great level of details at the beginning of the book. These theories include: the blade element theory, the Kutta-Joukowski theory, the momentum theory and the blade element momentum method. A part of the book is dedicated to the description and implementation of vortex methods. The remaining of the book focuses on the study of wind turbine aerodynamics using vortex-theory analyses or vortex-methods. Examples of vortex-theory applications are: optimal rotor design, tip-loss corrections, yaw-models and dynamic inflow models. Historical derivations and recent extensions of the models are presented. The cylindrical vortex model is another example of a simple analytical vortex model presented in this book. This model leads to the development of different BEM models and it is also used to provide the analytical velocity field upstream of a turbine or a wind farm under aligned or yawed conditions. Different applications of numerical vortex methods are presented. Numerical methods are used for instance to investigate the influence of a wind turbine on the incoming turbulence. Sheared inflows and aero-elastic simulations are investigated using vortex methods for the first time. Many analytical flows are derived in details: vortex rings, vortex cylinders, Hill's vortex, vortex blobs etc. They are used throughout the book to devise simple rotor models or to validate the implementation of numerical methods. Several Matlab programs are provided to ease some of the most complex implementations.
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