Developing boundary conditions usingthe nesting technique on simple terrain: A study of wind and turbulence intensity proles sensitivity
Independent thesis Advanced level (degree of Master (One Year)), 40 credits / 60 HE creditsStudent thesis
As wind industry is developing steadily oshore, the wind turbine spacing remainsa key element for maximizing revenues and reducing loading from turbineswake interaction. In the case of relatively close to shore oshore wind farms, orlarge arrays onshore, the turbulence intensity coming from dierent sectors canhave an eect on wake growth and decay. In an attempt to obtain wind featuresat site, some boundary conditions for micro-siting simulation are found, using acommercial RANS ow solver CFD software was used. The approach in this workcould be described more practical than theoretical and could be more useful fordevelopers than pure CFD specialists.By simulating with three dierent roughness length for open sea, with theappropriate and contextual assumptions, for the oshore Lillgrund wind farm,vertical proles and turbulence intensity were extracted from the WindSim softwareat the meteorological mast position and enabled measurement comparison.In a second attempt to compare the eect of the wind and turbulence prolespreviously obtained, a sector of interest is simulated with the actuator disc model.In general, the site conditions over the large-scale domain evaluated by thecommercial software are satisfactory after adjusting the roughness length for theopen sea. The turbulence intensity trend for various in ow angle is capturedby the simulations and computed wind proles are for the most part adequately.A comparison of spring and winter ltered measurements enable discussion uponsome sectors disagreement. As for the small-scale actuator disc model using thedeveloped site conditions, the result is over-estimated by the simulations, especiallyfor the second row downstream.
Place, publisher, year, edition, pages
2011. , 48 p.
Lillgrund, turbulence intensity, WindSim, case study, actuator disc model, roughness length, boundary conditions
IdentifiersURN: urn:nbn:se:uu:diva-217092OAI: oai:DiVA.org:uu-217092DiVA: diva2:691878
Master Program in Wind Power Project Management, 60 hp (HGO)
Ivanell, Stefan, Associate ProfessorNilsson, Karl, PhD Student
Sørensen, Jens Nørkær, Professor