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one publication added to basket [323138] |
Wake effect assessment in long- and short-crested seas of heaving-point absorber and oscillating wave surge WEC arrays
Fernandez, G.V.; Stratigaki, V.; Vasarmidis, P.; Balitsky, P.; Troch, P. (2019). Wake effect assessment in long- and short-crested seas of heaving-point absorber and oscillating wave surge WEC arrays. Water 11(6): 1126. https://dx.doi.org/10.3390/w11061126
In: Water. MDPI: Basel. e-ISSN 2073-4441, meer
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Trefwoord |
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Author keywords |
numerical coupling; MILDwave; periodic lateral boundaries; WEC arrayimpacts; WEC array interactions |
Auteurs | | Top |
- Fernandez, G.V.
- Stratigaki, V.
- Vasarmidis, P.
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Abstract |
In the recent years, the potential impact of wave energy converter (WEC) arrays on the surrounding wave field has been studied using both phase-averaging and phase-resolving wave propagation models. Obtaining understanding of this impact is important because it may affect other users in the sea or on the coastline. However, in these models a parametrization of the WEC power absorption is often adopted. This may lead to an overestimation or underestimation of the overall WEC array power absorption, and thus to an unrealistic estimation of the potential WEC array impact. WEC array power absorption is a result of energy extraction from the incoming waves, and thus wave height decrease is generally observed downwave at large distances (the so-called wake or far-field effects). Moreover, the power absorption depends on the mutual interactions between the WECs of an array (the so-called near field effects). To deal with the limitations posed by wave propagation models, coupled models of recent years, which are nesting wave-structure interaction solvers into wave propagation models, have been used. Wave-structure interaction solvers can generally provide detailed hydrodynamic information around the WECs and a more realistic representation of wave power absorption. Coupled models have shown a lower WEC array impact in terms of wake effects compared to wave propagation models. However, all studies to date in which coupled models are employed have been performed using idealized long-crested waves. Ocean waves propagate with a certain directional spreading that affects the redistribution of wave energy in the lee of WEC arrays, and thus gaining insight wake effect for irregular short-crested sea states is crucial. In our research, a new methodology is introduced for the assessment of WEC array wake effects for realistic sea states. A coupled model is developed between the wave-structure interaction solver NEMOH and the wave propagation model MILDwave. A parametric study is performed showing a comparison between WEC array wake effects for regular, long-crested irregular, and short-crested irregular waves. For this investigation, a nine heaving-point absorber array is used for which the wave height reduction is found to be up to 8% lower at 1.0 km downwave the WEC array when changing from long-crested to short-crested irregular waves. Also, an oscillating wave surge WEC array is simulated and the overestimation of the wake effects in this case is up to 5%. These differences in wake effects between different wave types indicates the need to consider short-crested irregular waves to avoid overestimating the WEC array potential impacts. The MILDwave-NEMOH coupled model has proven to be a reliable numerical tool, with an efficient computational effort for simulating the wake effects of two different WEC arrays under the action of a range of different sea states. |
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