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Soft Energy Applications & Environmental Protection Lab, Piraeus University of Applied Sciences, P.O. Box, 41046, Athens 12201, Greece


Centre for Research and Technology Hellas, Institute for Research and Technology of Thessaly, Technology Park of Thessaly, 1st Industrial Area, 38500 Volos, Greece


SMART BLADE GmbH, Waldemarstraße 39, 10999 Berlin, Germany


HFI TU Berlin, Müller-Breslau-Straße 8, D-10623 Berlin, Germany

These authors contributed equally to this work.


Author to whom correspondence should be addressed.

Academic Editor: Andreas Manz

Abstract The transition from the era of massive renewable energy deployment to the era of cheaper energy needed has made scientists and developers more careful with respect to energy planning compared with a few years ago. The focus is—and will be—placed on retrofitting and on extracting the maximum amount of locally generated energy. The question is not only how much energy can be generated, but also what kind of energy and how it can be utilized efficiently. The waste heat coming from wind farms WFs when in operation—which until now was wasted—was thoroughly studied. A short-term forecasting methodology that can provide the operator with a better view of the expected heat losses is presented. The majority of mechanical due to friction and electro-thermal i.e., generator losses takes place at the nacelle while a smaller part of this thermal source is located near the foundation of the wind turbine WT where the power electronics and the transformers are usually located. That thermal load can be easily collected via a working fluid and then be transported to the nearest local community or nearby agricultural or small scale industrial units using the necessary piping. View Full-Text

Keywords: wind; waste heat recovery; district heating wind; waste heat recovery; district heating

Autor: George Xydis 1,2,* , George Pechlivanoglou 3,4,† and Navid Christian Nayeri 4,†



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