Stud.IP Uni Oldenburg
Universität Oldenburg
06.07.2020 02:17:56
phy648 - Wind Resources and its Applications (Vollständige Modulbeschreibung)
Originalfassung Englisch PDF Download
Modulbezeichnung Wind Resources and its Applications
Modulcode phy648
Kreditpunkte 6.0 KP
Workload 180 h
(
Attendance: 72 hrs, Self study: 108 hrs
)
Fachbereich/Institut Institut für Physik
Verwendet in Studiengängen
  • Master Engineering Physics (Master) > Schwerpunkt: Renewable Energies
  • Master Postgraduate Programme Renewable Energy (Master) > Mastermodule
Ansprechpartner/-in
Modulverantwortung
Prüfungsberechtigt
Teilnahmevoraussetzungen
Knowledge in Basics Wind Energy, Fluid Dynamics I, Matlab
Kompetenzziele
assess different aspects of wind energy farms by modelling, comparison, explanation of wind energy potential, wind energy farm's output, power curves, wind energy project development, assess in detail in uences of meteorological/ climatological aspects on the performance of wind power systems, summarize physical processes governing atmospheric wind flows, value atmospheric boundary layer flow relevant for wind power conversion, argue methods for wind resource assessment and forecasting
Modulinhalte
Advanced Wind Energy Meteorology (Lecture -90 h workload) Atmospheric Boundary Layer (turbulence, vertical structure, special BL effects) Atmospheric Flow Modelling: Linear models, RANS and LES models Wind farm modelling Offshore-Specific Conditions Resource Assessment and Wind Power Forecasting Wind Measurements and Statistics Wind Energy Applications - from Wind Resource to Wind Farm Operations (Lecture - 90 h workload) Evaluation of Wind Resources Weibull Distribution Wind velocity measurements to determine energy yield Basics of Wind Atlas Analysis and Application Program (WAsP) Method, Partial models using WAsP Measure-Correlate-Predict (MCP) Method of long term corrections of wind measurement data in correlation to long term reference data Conditions for stable, neutral and instable atmospheric conditions Wind yield from wind distribution and the power curve Basics in appraising the yearly wind yield from a wind turbine. Wake Effect and Wind Farm Recovery of original wind fields in the downstream of wind turbines Basics of Riso Models Spacing and effciency in wind farms Positive and Negative Effects of Wind Farms Wind Farm Business Income from the energy yield from wind farms Profit optimization by increase of energy production Wind farm project development Wind farm operation and Surveillance of power production vs. wind climate, power curves, and turbine availability
Literaturempfehlungen
Advanced Wind Energy Meteorology Holton, J.R. and G. J. Hakim, 2013: An Introduction to Dynamic Meteorology, 5th Edition, Academic Press, New York Stull, R.B., 1988: An Introduction to Boundary Layer Meteorology. Kluwer Academic Pub. Wind Energy Applications - from Wind Resource to Wind Farm Operations Burton, T., N. Jenkins, D. Sharpe and E. Bossanyi, 2011: Wind Energy Handbook, Second Edition, John Wiley. Gasch, R. and J. Twele, 2012: Wind Power Plants: Fundamentals, Design, Construction and Operation; Second Edition, Springer http://www.av8n.com/how/htm/airfoils.html, Last access: 4/2016 http://www.windpower.org/en/, Last access: 4/2016
Links
Unterrichtssprache Englisch
Dauer in Semestern 1 Semester
Angebotsrhythmus Modul Sommersemester
Aufnahmekapazität Modul unbegrenzt
Modullevel MM (Mastermodul / Master module)
Modulart Wahlpflicht / Elective
Lern-/Lehrform / Type of program Lecture: 4 hrs/week
Vorkenntnisse / Previous knowledge
Prüfung Prüfungszeiten Prüfungsform
Gesamtmodul
1 Prüfung
Lehrveranstaltungsform Vorlesung
SWS 4.00
Angebotsrhythmus SoSe oder WiSe
Workload Präsenzzeit 56 h