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Computational Diagnostics of Regional Photovoltaic Smoothing Potential for Composite Orientations and Configurations

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Bibtex - Lataa

@conference{c6b17376445947539ceb835ddb12755a,
title = "Computational Diagnostics of Regional Photovoltaic Smoothing Potential for Composite Orientations and Configurations",
abstract = "The intermittent nature of cloud cover and cloud movement introduces short-term solar power fluctuations, which appear as frequency deviation at the grid. However, the uncertainty of solar power output decreases when integrated on a large scale, this phenomenon is known as smoothing. The association of smoothing potential with the velocity and movement of clouds along with the height and position of sun inspires to examine the topographic and orientational dependence of solar power fluctuations throughout the year. Therefore, this research promotes the idea of impact evaluation of optimum directions, tilt angles and azimuth angles of PV (photovoltaic) panels w.r.t PV plant’s location, enhancing solar power smoothing for each month of the year.",
author = "Nida Riaz and Sami Repo",
year = "2018",
month = "11",
day = "7",
language = "English",

}

RIS (suitable for import to EndNote) - Lataa

TY - CONF

T1 - Computational Diagnostics of Regional Photovoltaic Smoothing Potential for Composite Orientations and Configurations

AU - Riaz, Nida

AU - Repo, Sami

PY - 2018/11/7

Y1 - 2018/11/7

N2 - The intermittent nature of cloud cover and cloud movement introduces short-term solar power fluctuations, which appear as frequency deviation at the grid. However, the uncertainty of solar power output decreases when integrated on a large scale, this phenomenon is known as smoothing. The association of smoothing potential with the velocity and movement of clouds along with the height and position of sun inspires to examine the topographic and orientational dependence of solar power fluctuations throughout the year. Therefore, this research promotes the idea of impact evaluation of optimum directions, tilt angles and azimuth angles of PV (photovoltaic) panels w.r.t PV plant’s location, enhancing solar power smoothing for each month of the year.

AB - The intermittent nature of cloud cover and cloud movement introduces short-term solar power fluctuations, which appear as frequency deviation at the grid. However, the uncertainty of solar power output decreases when integrated on a large scale, this phenomenon is known as smoothing. The association of smoothing potential with the velocity and movement of clouds along with the height and position of sun inspires to examine the topographic and orientational dependence of solar power fluctuations throughout the year. Therefore, this research promotes the idea of impact evaluation of optimum directions, tilt angles and azimuth angles of PV (photovoltaic) panels w.r.t PV plant’s location, enhancing solar power smoothing for each month of the year.

M3 - Paper, poster or abstract

ER -