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Wind Energy Laboratory

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#50713 / #4

WS 2018/19 - SS 2019

English

Wind Energy Laboratory

6

Nayeri, Christian

benotet

Portfolioprüfung

Zugehörigkeit


Fakultät V

Institut für Strömungsmechanik und Technische Akustik

35311200 FG Experimentelle Strömungsmechanik

No information

Kontakt


HF 1

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christian.nayeri@tu-berlin.de

http://tu.berlin/fd

Learning Outcomes

The aim of the module is the deepening and practical application of knowledge in the field of wind energy, which is based on the modules "Wind Energy - Fundamentals"("Windenergie-Grundlagen") and "Wind Energy - Project / Deepening"("Windenergie-Projekt/Vertiefung"). Participating students should learn independent organization of projects and group work, deepening in the area of wind energy and practical experience in dealing with wind power plants. After a successful attendance of the course, the students will have an in-depth knowledge of the field of wind power plants. The students will gain a deeper insight into design procedures and certification relevant simulations of wind turbines. The course is principally designed to impart: Technical skills 40%, methodological skills 20%, system skills 20%, social skills 20%

Content

The course "Wind Energy Laboratory" is about the active transfer of application-oriented software knowledge. The simulation program "QBlade" is used within a one-semester course for aerodynamic as well as for aeroelastic simulation. Through application examples, simulations and supervised programming tasks, the students are given competences in the independent handling of the software, and existing knowledge from previous lectures is deliberately deepened and expanded. In addition, the course prepares the participating students for assignments in the area of ​​wind energy research by dealing with scientific-oriented questions.

Module Components

Pflichtgruppe:

All Courses are mandatory.

Course NameTypeNumberCycleLanguageSWSVZ
Aeroelastic Simulation of Wind TurbinesIV3531 L 025WiSeEnglish4

Wahlpflicht:

1 from the following courses must be completed.

Course NameTypeNumberCycleLanguageSWSVZ
This group does not contain any courses

Workload and Credit Points

Aeroelastic Simulation of Wind Turbines (IV):

Workload descriptionMultiplierHoursTotal
Attendance15.04.0h60.0h
Pre/post processing15.08.0h120.0h
180.0h(~6 LP)
The Workload of the module sums up to 180.0 Hours. Therefore the module contains 6 Credits.

Description of Teaching and Learning Methods

The focus is on the project work in small groups, whereby the independent scientific work, small group presentations, preparation of project reports as well as the independent elaboration of scientific content beyond frontal teaching plays an important role.

Requirements for participation and examination

Desirable prerequisites for participation in the courses:

The course does not provide the basics of the wind energy and fluid dynamics but deepenes existing knowledge and builds upon it. Therefore the successful completion of the modules "Wind Energy - Basics"("Windenergie - Grundlagen"), "Wind Energy - Project / Deepening"("Windenergie - Projekt/Vertiefung") and "Fluid Dynamics I + II"("Strömungslehre I+II") are highly recommended .

Mandatory requirements for the module test application:

This module has no requirements.

Module completion

Grading

graded

Type of exam

Portfolio examination

Type of portfolio examination

100 Punkte insgesamt

Language

English

Test elements

NamePointsCategorieDuration/Extent
Project Report70written20-25 pages
Report Presentation and Discussion30oral45 minutes

Grading scale

Notenschlüssel »Notenschlüssel 2: Fak IV (2)«

Gesamtpunktzahl1.01.31.72.02.32.73.03.33.74.0
100.0pt95.0pt90.0pt85.0pt80.0pt75.0pt70.0pt65.0pt60.0pt55.0pt50.0pt

Test description (Module completion)

"Portfolioprüfung" with 2 components as described

Duration of the Module

The following number of semesters is estimated for taking and completing the module:
1 Semester.

This module may be commenced in the following semesters:
Wintersemester.

Maximum Number of Participants

The maximum capacity of students is 25.

Registration Procedures

Registration for the module is done by e-mail before the start of the first lecture week. The e-mail address will be published on the homepage of the "chair of fluid dynamics" (FG "Experimentelle Strömungsmechanik"). If the number of applications exceeds the number of available participants, the participants will be selected by lottery (Los-Verfahren)

Recommended reading, Lecture notes

Lecture notes

Availability:  unavailable

 

Electronical lecture notes

Availability:  unavailable

 

Literature

Recommended literature
Gasch, Robert ; Twele, Jochen ; Gasch, Robert ; Twele, Jochen: Wind Power Plants : Fundamentals, Design, Construction and Operation. 2. Aufl.. Berlin Heidelberg: Springer Science & Business Media, 2011.
Hau, Erich: Wind Turbines : Fundamentals, Technologies, Application, Economics. Berlin Heidelberg: Springer Science & Business Media, 2013.
Piggott, Hugh: Wind Power Workshop: Building Your Own Wind Turbine. 2011 Centre for Alternative Technology
QBlade-Guidelines V.09,https://www.researchgate.net/publication/280097378_QBlade_Guidelines_v09

Assigned Degree Programs


This module is used in the following Degree Programs (new System):

Studiengang / StuPOStuPOsVerwendungenErste VerwendungLetzte Verwendung
This module is not used in any degree program.
Veranstaltung für Studierenden der Masterstudiengänge der Fachrichtungen Maschinenbau, Physikalische Ingenieurwissenschaften, Verfahrenstechnik sowie Regenerative Energiesysteme o.ä.

Miscellaneous

No information