Influence of seasonal air density fluctuations on wind speed distribution in complex terrains in the context of energy yield

IF 3.9 4区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Energy, Ecology and Environment Pub Date : 2023-11-14 DOI:10.1007/s40974-023-00301-9
Bukurije Hoxha, Alban Kuriqi, Risto V. Filkoski
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Abstract

Abstract Given the variable nature of wind speed and the importance of accurately determining the energy that can be generated at a given site, understanding the wind speed at different time scales is crucial. In addition to differences within a very short period (i.e., hourly and daily), these changes are also pronounced throughout the seasons. They are affected by the atmospheric conditions and the terrain's complexity. Therefore, this study investigates the seasonal wind speed variability and its impact on the potential energy generation in a representative study case of Koznica, the mountainous region in Kosovo. The wind speed measurements campaign started in May 2019 and ended in April 2020; the measurements were made at a 10 min time scale. Ground measurements show that the wind direction is mainly northwest and southeast. Then, the wind speed and potential energy generation variability analysis were conducted for three different measurement heights. The results show that winter and spring have the highest potential wind energy capacity with an average speed of 6.7 m/s. In comparison, the average wind speed is 6.12 m/s. Potential energy generation for each season (i.e., spring, summer, autumn, and winter is as follows: 64,396.7, 22,040.3, 42,539.3, and 46,417.2 MWh/year, respectively, while the average capacity factor is 25%. Solution-oriented findings from this study might provide valuable insights to policymakers and investors regarding wind power energy exploration in Kosovo and other places with similar geo-climatic conditions.
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产能条件下季节空气密度波动对复杂地形风速分布的影响
考虑到风速的可变性以及准确确定给定地点可以产生的能量的重要性,了解不同时间尺度的风速是至关重要的。除了在很短的时间内(即每小时和每天)的差异外,这些变化在整个季节也很明显。它们受大气条件和地形复杂性的影响。因此,本研究以科索沃山区科兹尼察为例,研究了季节性风速变率及其对潜在发电量的影响。风速测量活动于2019年5月开始,于2020年4月结束;测量是在10分钟的时间尺度。地面测量显示,风向以西北和东南为主。然后,对三种不同测量高度的风速和势能发电进行变率分析。结果表明:冬季和春季的潜在风能容量最大,平均风速为6.7 m/s;平均风速为6.12 m/s。春、夏、秋、冬四季的潜在发电量分别为:64,396.7、22,040.3、42,539.3、46,417.2 MWh/年,平均容量系数为25%。本研究以解决方案为导向的研究结果可能为科索沃和其他具有类似地理气候条件的地方的风能勘探政策制定者和投资者提供有价值的见解。
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CiteScore
9.80
自引率
0.00%
发文量
26
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