Journal article
Energy Conversion and Management, vol. 258, 2022, p. 115530
Thermal Machines and Engines Area
Thermal Machines and Engine Area
Thermal Machines and Engines Area
APA
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Santamaría, L., Oro, J. F. F., Díaz, K. A. A., Meana-Fernández, A., Pereiras, B., & Velarde-Suárez, S. (2022). Novel methodology for performance characterization of vertical axis wind turbines (VAWT) prototypes through active driving mode. Energy Conversion and Management, 258, 115530. https://doi.org/10.1016/j.enconman.2022.115530
Chicago/Turabian
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Santamaría, Luis, J. F. Fernández Oro, K. A. Argüelles Díaz, A. Meana-Fernández, B. Pereiras, and S. Velarde-Suárez. “Novel Methodology for Performance Characterization of Vertical Axis Wind Turbines (VAWT) Prototypes through Active Driving Mode.” Energy Conversion and Management 258 (2022): 115530.
MLA
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Santamaría, Luis, et al. “Novel Methodology for Performance Characterization of Vertical Axis Wind Turbines (VAWT) Prototypes through Active Driving Mode.” Energy Conversion and Management, vol. 258, 2022, p. 115530, doi:10.1016/j.enconman.2022.115530.
BibTeX Click to copy
@article{luis2022a,
title = {Novel methodology for performance characterization of vertical axis wind turbines (VAWT) prototypes through active driving mode},
year = {2022},
journal = {Energy Conversion and Management},
pages = {115530},
volume = {258},
doi = {10.1016/j.enconman.2022.115530},
author = {Santamaría, Luis and Oro, J. F. Fernández and Díaz, K. A. Argüelles and Meana-Fernández, A. and Pereiras, B. and Velarde-Suárez, S.}
}
Vertical axis wind turbines (VAWT) are called to have an important role in the definitive penetration of renewable energies in the near future. Although still under development, they are considered good candidates for urban environments and offshore generation in deep waters. For its experimental characterization, wind tunnel testing of small-scaled VAWTs is usually employed. However, self-starting issues, reduced aerodynamic torques -for reliable measurement- and high rotational speeds -imposed by similarity- emerge as inherent operative problems. To overcome these issues, Active Driving Mode (ADM) is commonly used to drive the turbine under equivalent kinematic conditions introducing an external motor. Up to now, an accurate characterization of the turbine performance, in terms of retrievable aerodynamic power, is not available for this methodology in the open literature.
This work presents the development and application of an innovative methodology for testing VAWT prototypes through ADM. Interesting advantages over the conventional determination of the turbine performance using Passive Driving Mode (PDM) are shown. It is demonstrated that a deep level of characterization and high-test control is achieved with a simple experimental set-up. In addition, the key aspects for the application of this methodology have been identified and studied in detail, like the isolation of the mechanical losses from the blade drag or the quantification of the parasitic drag of the turbine struts. Relevant conclusions have been revealed concerning the marginal effect of the induction factor on the parasitic drag, or the importance of a correct blade drag estimation for the computation of the mechanical losses. Finally, the methodology has been applied to a real wind tunnel set-up, for the characterization of a 3-bladed VAWT with a H-rotor based on the DU 06-W-200 profile. The performance results obtained experimentally have been accurately compared to CFD simulations.
Vertical axis wind turbine; VAWT; Wind tunnel; Performance characterization; Active driving mode