Abstract
Wind turbine installation worldwide has increased at unrested pace, as it represents a 100% clean energy with zero CO2 and pollutant emissions. However, visual and acoustic impact of wind turbines is still a drawback, in particular in urban areas. This paper focuses on the performance evaluation of an innovative horizontal axis ducted wind turbine, installed in the harbour of Genova (Italy) in 2018: the turbine was designed in order to minimize visual and acoustic impacts and maximize electrical energy production, also during low wind speed periods. The preliminary study and experimental analyses, performed by the authors in a previous study, showed promising results in terms of energy production, compared to a traditional generator ( factor >2.5 on power output). In the present paper, the test campaign on a scaled-up prototype, installed in the urban area of Genova, is performed, with a twofold objective: (i) comparison of the ducted innovative turbine with a standard one, in order to verify the increase in energy production; (ii) analysis of the innovative turbine for different wind speeds and directions, evaluating the influence of ambient conditions on performance. Finally, based on the obtained results, an improved setup is proposed for the ducted wind turbine, in order to further increase energy production mitigating its visual impact.
Highlights
European Union (EU) recently set several energy policy targets, already defined for 2020 and 2030 Time Horizons
This paper focuses on the performance evaluation of an innovative horizontal axis ducted wind turbine, installed in the harbour of Genova (Italy) in 2018: the turbine was designed in order to minimize visual and acoustic impacts and maximize electrical energy production, during low wind speed periods
The present paper has investigated an innovative ducted wind turbine, with a convergentdivergent shape and the rotor installed in the throat section
Summary
European Union (EU) recently set several energy policy targets, already defined for 2020 and 2030 Time Horizons. In 2018, EU has published new directives aimed at a further step of energy targets for 2030 [1]. Because of the above-mentioned energy policies, EU countries experimented a significant RES production increase from 947.7 TWh in 2007 up to 2636.5 TWh in 2016. A promising solution involves the use of systems where the rotor is inserted in the throat section of a generally convergentdivergent duct: the duct shape accelerates the wind speed at the machine section. Such systems are known in literature as shrouded, ducted or lens wind turbines [7,8,9]. The monitoring data of the ducted turbine, installed in 2018 in the industrial harbour of Genoa, are presented and analyzed for the first time
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