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OpenFOAM for Wind Energy Engineering
How to use the Open-Source Toolbox for Wind Energy-Related CFD Simulations
1st Edition - January 1, 2020
Authors: Bernhard Stoevesandt, Jonas Schmidt, Hassan Kassem, Matthias Schramm, Bastian Dose, Hamid Rahimi
Paperback ISBN:9780128148709
9 7 8 - 0 - 1 2 - 8 1 4 8 7 0 - 9
eBook ISBN:9780128148716
9 7 8 - 0 - 1 2 - 8 1 4 8 7 1 - 6
OpenFOAM for Wind Energy Engineering: How to Use the Open-Source Toolbox for Wind Energy-Related CFD Simulations is a concise, approachable and clear guide for wind engineers and… Read more
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OpenFOAM for Wind Energy Engineering: How to Use the Open-Source Toolbox for Wind Energy-Related CFD Simulations is a concise, approachable and clear guide for wind engineers and students facing the steep learning curve associated with using this powerful, yet complex, software. The book addresses the specific problems and challenges users encounter when using OpenFOAM for wind energy applications and provides solutions and/or approaches to solutions that are dependent on the problem. The book is an essential introduction to an important open-source tool that was written specifically to meet the information needs of wind industry professionals, researchers and graduate students studying wind energy.
Addresses the specific challenges users encounter when using OpenFOAM for wind energy applications
Goes into detail on topics crucial for wind engineers that aren’t covered in general OpenFOAM manuals, such as turbulence models in thick airfoil simulations and the simulation of rotating turbines
Includes downloadable code that users can use to quickly get started when using OpenFOAM for wind energy applications for the first time
Professionals in the wind industry (e.g. OEMs, wind farm developers, wind farm operators). Graduate students in universities studying wind energy and their lecturers. Researchers studying wind energy in universities and research institutes
1. Introduction
2. Getting started with OpenFOAM
3. Programming OpenFOAM
4. Meshes for Aerodynamics
5. 2D-Airfoil Simulations
6. 3D-Blade
7. Fluid-Structure-Interaction
8. Adjoint Optimization
9. Meshing for Site Assessment
10. Steady State Site Simulations
11. Wind turbine models in CFD
12. Unsteady atmospheric inflow
13. Wind Farm Optimization
14. Other Applications in Wind Energy
15. Outlook
No. of pages: 350
Language: English
Edition: 1
Published: January 1, 2020
Imprint: Academic Press
Paperback ISBN: 9780128148709
eBook ISBN: 9780128148716
BS
Bernhard Stoevesandt
Dr Stoevesandt is Head of the department Aerodynamics, CFD and stochastic dynamics at the Fraunhofer Institute for Wind Energy and Energy Systems. He started working on OpenFOAM in 2008 at the University of Oldenburg and built up the research group on computational fluid dynamics (CFD) for wind energy (using OpenFOAM) at the University and later at Fraunhofer IWES. In 2013 he was part of the team that started the conference series “Symposium on OpenFOAM in Wind Energy”, which is having its 5th anniversary this year. The IWES group gives courses on OpenFOAM in wind energy on a regular basis to commercial partners. It has developed a broad toolbox to achieve CFD simulations with OpenFOAM.
Affiliations and expertise
Department of Aerodynamics, CFD and Stochastic Dynamics, Fraunhofer Institute for Wind Energy and Energy Systems, Germany
JS
Jonas Schmidt
Affiliations and expertise
Fraunhofer Institute for Wind Energy and Energy Systems, Germany
HK
Hassan Kassem
Affiliations and expertise
Fraunhofer Institute for Wind Energy and Energy Systems, Germany
MS
Matthias Schramm
Affiliations and expertise
Fraunhofer Institute for Wind Energy and Energy Systems, Germany
BD
Bastian Dose
Affiliations and expertise
Fraunhofer Institute for Wind Energy and Energy Systems, Germany
HR
Hamid Rahimi
Affiliations and expertise
Fraunhofer Institute for Wind Energy and Energy Systems, Germany