Manuel Viqueira-Moreira scite author profile

Manuel Viqueira-Moreira

5Publications

3Citation Statements Received

32Citation Statements Given

How they've been cited

How they cite others

150

Affiliations

University of Maryland, College Park, Universidad Politécnica de Madrid

Publications

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Insights into the Aeroacoustic Noise Generation for Vertical Axis Turbines in Close Proximity

Viqueira-Moreira

Ferrer

2020

Energies

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We present Large Eddy Simulations and aeroacoustic spectra for three configurations of increasing flow complexity: an isolated NACA0012 airfoil, an isolated rotating vertical axis wind turbine composed of three rotating airfoils and a farm of four vertical axis turbines (with identical characteristics as the isolated turbine), which are located in close proximity. The aeroacoustic signatures of the simulated airfoil and the isolated turbine are validated using published numerical and experimental data. We provide theoretical estimates to predict tonal frequencies, which are used to identify the main physical mechanisms responsible for the tonal signature and for each configuration and enable the categorisation of the main tonal aeroacoustic sources of vertical axis turbines operating in close proximity. Namely, we identify wake, vortex, blade passing and boundary layer phenomena and provide estimates for the associated tonal frequencies, which are validated with simulations. In the farm, we observe non-linear interactions and enhanced mixing that decreases tonal frequencies in favour of larger broadband amplitudes at low frequencies. Comparing the spectrum with that of the isolated turbine, only the blade passing frequency and the boundary layer tones can be clearly identified. Variations in acoustic amplitudes, tonal frequencies and sound directivities suggest that a linear combination of sources from isolated turbines is not enough to characterise the aeroacoustic footprint of vertical axiswind turbines located in close proximity, and that farms need to be considered and studied as different entities.

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Application of a Diffuse Interface Multiphase Method for High Temperature and Hypersonic Flows with Phase Change

Stoffel

Viqueira-Moreira

Brehm

et al. 2023

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Validation of a High-Order Diffuse Interface Multi-Phase Method for High-Speed Droplet Shock Interaction and Impingement

Viqueira-Moreira

Stoffel

Poovathingal

et al. 2022

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Higher-Order Simulations of Droplet-Shock Interaction, Aerobreakup and Impingement at High Mach Numbers

Viqueira-Moreira

Gonuleri

Leigh

et al. 2023

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CFD-Informed Rain Drop Impact Damage Predictions at Hypersonic Conditions

Gonuleri

Viqueira-Moreira

Leigh

et al. 2023

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