A Computational Methodology for Assessing Wind Potential

Nicholas Christakis; Ioanna Evangelou; Dimitris Drikakis; George Kossioris

doi:10.3390/en17061385

A Computational Methodology for Assessing Wind Potential

Nicholas Christakis, Ioanna Evangelou, Dimitris Drikakis, George Kossioris

Research output: Contribution to journal › Article › peer-review

Abstract

This paper introduces an innovative and eco-friendly computational methodology to assess the wind potential of a location with the aid of high-resolution simulations with a mesoscale numerical weather prediction model (WRF), coupled with the statistical “10% sampling condition”. The proposed methodology is tested for a location with complex terrain on the Greek island of Crete, where moderate to strong winds prevail for most of the year. The results are promising, indicating that this method has great potential for studying and assessing areas of interest. Adverse effects and challenges associated with wind energy production may be mitigated with methods such as the proposed one. Mitigating such effects should constitute the main focus and priority in research concerning wind energy production.

Original language	English
Article number	1385
Journal	Energies
Volume	17
Issue number	6
DOIs	https://doi.org/10.3390/en17061385
Publication status	Published - Mar 2024

Keywords

environmental impacts
meteorology
statistical sampling
wind energy
WRF model

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3390/en17061385

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title = "A Computational Methodology for Assessing Wind Potential",

abstract = "This paper introduces an innovative and eco-friendly computational methodology to assess the wind potential of a location with the aid of high-resolution simulations with a mesoscale numerical weather prediction model (WRF), coupled with the statistical “10% sampling condition”. The proposed methodology is tested for a location with complex terrain on the Greek island of Crete, where moderate to strong winds prevail for most of the year. The results are promising, indicating that this method has great potential for studying and assessing areas of interest. Adverse effects and challenges associated with wind energy production may be mitigated with methods such as the proposed one. Mitigating such effects should constitute the main focus and priority in research concerning wind energy production.",

keywords = "environmental impacts, meteorology, statistical sampling, wind energy, WRF model",

author = "Nicholas Christakis and Ioanna Evangelou and Dimitris Drikakis and George Kossioris",

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journal = "Energies",

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T1 - A Computational Methodology for Assessing Wind Potential

AU - Christakis, Nicholas

AU - Evangelou, Ioanna

AU - Drikakis, Dimitris

AU - Kossioris, George

PY - 2024/3

Y1 - 2024/3

N2 - This paper introduces an innovative and eco-friendly computational methodology to assess the wind potential of a location with the aid of high-resolution simulations with a mesoscale numerical weather prediction model (WRF), coupled with the statistical “10% sampling condition”. The proposed methodology is tested for a location with complex terrain on the Greek island of Crete, where moderate to strong winds prevail for most of the year. The results are promising, indicating that this method has great potential for studying and assessing areas of interest. Adverse effects and challenges associated with wind energy production may be mitigated with methods such as the proposed one. Mitigating such effects should constitute the main focus and priority in research concerning wind energy production.

AB - This paper introduces an innovative and eco-friendly computational methodology to assess the wind potential of a location with the aid of high-resolution simulations with a mesoscale numerical weather prediction model (WRF), coupled with the statistical “10% sampling condition”. The proposed methodology is tested for a location with complex terrain on the Greek island of Crete, where moderate to strong winds prevail for most of the year. The results are promising, indicating that this method has great potential for studying and assessing areas of interest. Adverse effects and challenges associated with wind energy production may be mitigated with methods such as the proposed one. Mitigating such effects should constitute the main focus and priority in research concerning wind energy production.

KW - environmental impacts

KW - meteorology

KW - statistical sampling

KW - wind energy

KW - WRF model

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DO - 10.3390/en17061385

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SN - 1996-1073

VL - 17

JO - Energies

JF - Energies

IS - 6

M1 - 1385

ER -

A Computational Methodology for Assessing Wind Potential

Abstract

Keywords

UN SDGs

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