The contribution of wind to the energy mix is steadily growing: with well over 300 GW of installed wind power worldwide [1], wind energy provides today about 8% of electricity consumption in Europe [2], with peaks of up to 34% for Denmark [3], and about 4.5% in the U.S. [3], with other markets such as China and South America in rapid expansion. The growth in recent years has been remarkable; just to give an example, wind represented only 2.4% of the total installed nameplate power capacity in Europe back in the year 2000, while it was up to 14% in 2014 [2]. The penetration of wind energy has been helped not only by specific political choices favoring renewables to curb carbon emissions, but also and foremost by substantial technological advancements that have and are contributing to the reduction of the...
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July 2015
Editorial
Special Issue: Wind Turbine Modeling and Simulation
Carlo L. Bottasso
Carlo L. Bottasso
Wind Energy Institute,
Technische Universität München
,Garching b. München 85748
, Germany
Department of Aerospace Science and Technology,
Politecnico di Milano
,Milano 20156
, Italy
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Carlo L. Bottasso
Wind Energy Institute,
Technische Universität München
,Garching b. München 85748
, Germany
Department of Aerospace Science and Technology,
Politecnico di Milano
,Milano 20156
, Italy
J. Comput. Nonlinear Dynam. Jul 2015, 10(4): 040201 (1 pages)
Published Online: July 1, 2015
Article history
Received:
March 12, 2015
Revision Received:
March 13, 2015
Online:
April 2, 2015
Citation
Bottasso, C. L. (July 1, 2015). "Special Issue: Wind Turbine Modeling and Simulation." ASME. J. Comput. Nonlinear Dynam. July 2015; 10(4): 040201. https://doi.org/10.1115/1.4030072
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