Abstract
With the steady growth in the wind power sector in the past decade and the projected expansions in the future, wind energy plays a significant role in the Global clean energy scenario. When wind turbines operate in clusters as in wind farms, downwind turbines experience wake losses caused by the upwind turbines. For the efficient design and successful management of wind energy projects, these wakes induced power losses within the turbine arrays are to be analyzed and understood. In this paper, we review different approaches, both based on kinematic and flow models, in quantifying the wake induced velocity and power deficits within wind farms. Under the kinematic approach, Jensen, Larsen and Frandsen models are described. Ainslie, RANS, DNS and LES models are covered under the CFD based flow approach. The deep array effect, which is being experienced in large sized wind farms, are also discussed and models developed to estimate the deep array wake losses are reviewed. Need for new methods and approaches in quantifying the deep array losses are highlighted in the paper.
Highlights
The wind energy sector is growing rapidly
Deep array effect can be considered as the cumulative drag imposed by the turbine arrays on the planetary boundary layer [33]
Wake induced power deficit due to deep array effect is evident in large wind farms like Honsrev and Nysted as show in [38]
Summary
The wind energy sector is growing rapidly. As a result, the share of wind generated electricity in the power grids around the world has significantly increased. With 51.3 GW of new installations, the global wind power capacity has reached up to 591 GW by 2018 [1]. Wind continues to retain its prominence among the renewables as the compound annual growth rate (CAGR) in this sector, over the past five years is around 13% [1]. With all these installations, wind could provide 1,270 TWh of electricity to the global grids [2]. Wind could provide 1,270 TWh of electricity to the global grids [2] Most of these contributions are from onshore projects, the offshore wind energy sector is expanding aggressively. Several ambitious projects with large scale wind power systems, both onshore
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