Computational Wind Energy Systems

Participation in the 'Computational Wind Energy Systems' certificate requires the successful completion of the 'Scientifically Oriented Fundamentals of Wind Energy Systems' certificate.

It provides a sound knowledge of computational methods for the statistical and dynamic analysis of wind turbines and the surrounding wind and water flows at expert level. The aim of this certificate is not only to enable engineers to apply existing commercial structural and fluid mechanics software packages in a sophisticated way as a basis for reliable predictions of the mechanical behavior of wind turbines, but also to improve the quality of numerical methods and procedures in order to develop more realistic models of wind turbines. These aspects are essential components for the technical optimization of modern wind turbines and their future innovative designs with higher energy efficiency, lifetime, load factor and robustness against extreme load cases.

Studying the certificate 'Computational Wind Energy Systems' requires the successful completion of the certificate<link>'Scientifically Oriented Fundamentals of Wind Energy Systems'.

The certificate in 'Computational Wind Energy Systems' provides a knowledge of computational methods used for the static and dynamic analysis of wind energy converters and the surrounding wind and water flows. The goal is to enable engineers to apply existing commercial software packages of structural and fluid mechanics in a sophisticated manner as a basis for reliable prognoses of the mechanical behavior of wind turbines, to improve the quality of numerical methods, and to develop more realistic models of wind energy systems. These aspects are fundamental ingredients for optimizing current wind turbines and producing innovative new designs with a higher energy efficiency, life time, degree of capacity utilization and robustness with regard to extreme load cases.

and selection of one module from two available modules:

The participants of the certificate program will learn about classical, current and future numerical methods for the solution of advanced mechanical models of wind turbines and the surrounding fluid flow. They will know the advantages and disadvantages of models and numerical methods and they will recognize which combinations of models and numerical methods can be efficiently and trustworthily applied for special kinds of structural and fluid analyses. Furthermore, the students will be familiar with the limitations of the models and numerical methods and they will overcome these limitations by writing their own partial programs for special tasks in their professional career. Based on their ability to perform realistic simulations of structural and fluid flow behavior, they will be engineers in charge of the development and design of current wind energy converters, structural safety, new developments of detailed aspects, and general novel designs of wind turbines.

€6,000 (30 credits)

All 30 credits of the certificate 'Computational Wind Energy Systems' will be accepted for the complete master's study program Online M.Sc. Wind Energy Systems.

and selection of one module from two available modules:

The participants of the certificate will learn about classical, current and future numerical methods for solving advanced mechanical models of wind turbines and their flows. They will know the advantages and disadvantages of models and numerical methods and will be able to assess which combinations of models and numerical methods can be used efficiently and safely for specific types of structural and flow analyses. In addition, students are familiar with the limitations of models and numerical methods and overcome these limitations by writing their own subprograms for specific tasks in their professional careers. Based on their ability to perform realistic simulations of the structural and flow behavior to which wind turbines are subjected, they will be responsible for the design of current wind power converters as well as the new and further development of individual aspects and complete designs of wind turbines.

6,000 € (30 ECTS credits)

All 30 credits of the certificate 'Computational Wind Energy Systems' are recognized for the Master's degree program Online M.Sc. Wind Energy Systems.

Prof. Dr.-Ing. Detlef Kuhl
<link mail>write an email
<link>apply for certificate

Prof. Dr.-Ing. Detlef Kuhl
<link mail>Send e-mail
<link>Application for the certificate