Development of typical meteorological year for massive renewable energy deployment in Togo

IF 2 Q4 ENERGY & FUELS

International Journal of Sustainable Energy Pub Date : 2022-08-06 DOI:10.1080/14786451.2022.2109026

Kokou Amega, Y. Laré, Y. Moumouni, R. Bhandari, S. Madougou

引用次数: 1

Abstract

ABSTRACT Renewable energy (RE) penetration assessment and the development typical meteorological year (TMY) for five cities are considered together in this study. Thus, an integrated method is utilised encompassing RE status assessment and the Sandia method to generate the typical meteorological months of TMY. TMY and long-term data (LT) are then compared as well as a PV system of 3kWc output using TMY and LT under statistical errors. Until 2020 only 11.27% out of 360.02 MW capacity in power demand was RE (hydro and solar). LT and TMY are close for all the towns with a better closeness for Sokode. The latter predicts PV system performance within 2% of the LT in all the sites. More investment has to be put in RE sector because of its potential: 5.27 kWh/m2/day of mean solar radiation, 1238.21 mm of average annual precipitation and 7 m/s of mean wind speed at 50 m above the ground.

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多哥大规模可再生能源部署的典型气象年的发展

摘要本文将5个城市的可再生能源(RE)渗透率评价与典型气象年(TMY)发展相结合。因此，采用了一种综合方法，包括RE状态评估和Sandia方法来生成TMY的典型气象月份。然后比较TMY和长期数据(LT)，以及在统计误差下使用TMY和LT输出3kWc的光伏系统。到2020年，在360.02兆瓦的电力需求容量中，只有11.27%是可再生能源(水电和太阳能)。LT和TMY在所有城镇都很接近，Sokode的距离更近。后者预测所有站点的光伏系统性能在LT的2%以内。由于可再生能源的潜力:5.27千瓦时/平方米/天的平均太阳辐射、1238.21毫米的年平均降水量和距离地面50米的平均风速7米/秒，因此必须加大对可再生能源领域的投资。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Sustainable Energy ENERGY & FUELS-

CiteScore

5.70

自引率

3.20%

发文量

期刊介绍： Engineering and sustainable development are intrinsically linked. All capital plant and every consumable product depends on an engineering input through design, manufacture and operation, if not for the product itself then for the equipment required to process and transport the raw materials and the final product. Many aspects of sustainable development depend directly on appropriate and timely actions by engineers. Engineering is an extended process of analysis, synthesis, evaluation and execution and, therefore, it is argued that engineers must be involved from the outset of any proposal to develop sustainable solutions. Engineering embraces many disciplines and truly sustainable solutions are usually inter-disciplinary in nature.