Stud.IP Uni Oldenburg
University of Oldenburg
08.12.2021 05:17:13
phy689 - Advanced Topics in Renewable Energies (Course overview)
Institute of Physics 6 KP
Module components Semester courses Wintersemester 2020/2021 Examination
  • No access 5.04.1004 - Energie und CO2 - welche Systemänderungen werden nötig Show lecturers
    • Prof. Dr. Joachim Peinke

    Thursday: 12:00 - 14:00, weekly (from 22/10/20)

  • No access 5.04.4073 - Interdisciplinary Topics in Fluid Dynamics Show lecturers
    • Prof. Dr. Laura Lukassen

    Wednesday: 10:00 - 12:00, weekly (from 21/10/20)

    This seminar is part of the meeting of the group „Computational Fluid Dynamics for Wind Physics“. We discuss current research topics with respect to differences and similarities in the approaches and tools. This seminar combines topics in wind energy research from the areas of data analysis and stochastics, Computational Fluid Dynamics Simulations and Meteorology.

  • No access 5.04.4587 - Advanced CFD and wind turbine aerodynamics Show lecturers
    • Dr. Bernhard Stoevesandt

    Wednesday: 14:00 - 16:00, weekly (from 21/10/20)

    The aim is that the students learn how to approach all kinds of real numerical problems in CFD and solve them. Everyone is supposed to be set up to date on the current problems and challenges of CFD in aerodynamics and their solutions. Content: CFD wake modeling, grid generators and computational stability, developing fluid structure interaction solvers, detached eddy simulations (DES), turbulent inflow field generation

  • No access 5.04.4652 - Stochastic Processes in Experiments Show lecturers
    • Dr. Matthias Wächter, Dipl.-Phys.

    Thursday: 12:00 - 14:00, weekly (from 22/10/20)

    Die Studierenden erwerben fortgeschrittene Kenntnisse auf dem Gebiet der nichtlinearen Dynamik experimenteller Systeme. Sie erlangen Fertigkeiten zum sicheren und selbstständigen Umgang mit modernen Konzepten und Methoden der Analyse von Messdaten komplexer Systeme. Sie erweitern ihre Kompetenzen hinsichtlich der Fähigkeiten zur erfolgreichen Bearbeitung anspruchsvoller Probleme mit modernen analytischen und numerischen Methoden, zur selbstständigen Erarbeitung aktueller Fachveröffentlichungen sowie der Bedeutung stochastischer Differentialgleichungen im Kontext unterschiedlicher Anwendungen. Inhalte: Theoretische Grundlagen stochastischer Differentialgleichungen und der Bestimmung ihrer Parameter. Darstellung verschiedener Beispiele für die Schätzung der Parameter stochastischer Differentialgleichungen aus experimentellen Daten unter Berücksichtigung der Besonderheiten der jeweils untersuchten experimentellen Systeme.

  • No access 5.06.M311 - Hydro- & Marine Power Show lecturers
    • Hans-Gerhard Holtorf, PhD

    Dates on Monday. 19.10.20, Thursday. 22.10.20 - Friday. 23.10.20, Monday. 26.10.20 10:15 - 11:45, Monday. 26.10.20 11:45 - 14:00, Thur ...(more), Location: W16A 004, W02 1-148
    Lecture Goal and Competencies: The lecture Hydro Power I seeks to familiarize students with technological, socioeconomic and ecological aspects. Students get acquainted with basics of the technical components of Hydro Power (HP) and Ocean Power (OP) systems: their setup, their operation, their specific challenges and their linkages with one another. At the end of this unit students may size a HP for given local geographic and hydrological conditions on a basic level. They can describe the entire setup as well as individual components. They are aware of basic challenges beyond the technical problems of HP and OP systems. Students are in the position to list advantages and disadvantages of HP and OP in comparison with other renewable energy technology. Detailed Content*: • 2h Theoretical background – general hydraulic terms, Bernoulli Equation, Major Empirical Formulae and their backgrounds. • 2h Water Resource – catchment area, seasonal precipitation, flow duration curve, dam, & run off river. • 2h Powerhouse – penstock, water hammer, cavitation, tailrace. • 4h Turbines – main types of turbines, their characteristics & their components. • 3h Ocean Power Overview * indicated times are face-to-face times.

Notes for the module
Related to selected course/s
Module examination
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Skills to be acquired in this module
The aim of this module is, to give students further access to also small courses (3 CP) which address the specific interest of the student and deliver unique in-depth knowledge or the opportunity to train specific engineering skills.