TY - JOUR
TI - On the Multi-Scale Interactions Between an Offshore-Wind-Turbine Wake and the Ocean-Sediment Dynamics in an Idealized Framework - A Numerical Investigation
AU - Nagel, T
AU - Chauchat, J
AU - Wirth, A
AU - Bonamy, C
T2 - Renewable Energy
AB - We investigate the turbulent dynamics of the coupled atmosphere-ocean-sediment system around a wind turbine. To this end, a coupled two-dimensional idealized numerical model of the ocean and sediment layers, forced by an idealized offshore wind turbine wake is used. The turbine wake impacts the ocean surface and for strong wind and water layer thickness higher than 20 m, large scale eddies of the size comparable to the wake thickness are generated, leading to a turbulent dynamics in the ocean. The turbulence in the ocean is controlled by the shallow wake parameter S.The turbulent ocean dynamics is numerically integrated using time dependent simulations at fine horizontal resolution (1 m). From these simulations, eddy coefficients parametrizating the turbulent fluxes are proposed to be used in larger-scale (RANS) models. The ocean dynamics and the parameter values depend mainly on S. The ocean dynamics is laminar (S > 7.10−2), has a localized (7.10−2 −2) or domain wide turbulent (S < 3.10−2) behavior. In the first two cases, changes in seabed elevation are around a few millimeters per month. For the third case, averaged over several days, changes decreases to a few tenths of millimeters per month. This is due to the alternating local velocity which transports sediments back and forth.
DA - 2018/01//
PY - 2018
VL - 115
SP - 783
EP - 796
UR - https://www.sciencedirect.com/science/article/pii/S096014811730839X
DO - 10.1016/j.renene.2017.08.078
LA - English
KW - Wind Energy
KW - Fixed Offshore Wind
KW - Changes in Flow
KW - Physical Environment
KW - Sediment Transport
ER -