Design analysis of a sustainable techno-economic hybrid renewable energy system: Application of solar and wind in Sigulu Island, Uganda

IF 2.7 Q2 MULTIDISCIPLINARY SCIENCES
Val Hyginus Udoka Eze , Joseph Simera Mwenyi , Kelechi John Ukagwu , Martin C. Eze , Chidinma Esther Eze , Wisdom O. Okafor
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Abstract

Sustainable energy is central to achieving the global Sustainable Development Goals (SDGs), particularly in electrifying underserved communities. This study examines Sigulu Island, which lacks grid electricity and relies on costly, polluting diesel generators. On-site assessments revealed a daily load demand of 1,455.705 kWh. This study designed and analyzed a Sustainable Techno-economic Hybrid Renewable Energy System (STHRES) combining solar photovoltaics and wind turbines, with battery backup, to meet the island's energy needs. The research adopted both qualitative and quantitative methods, gathering atmospheric weather conditions specific to Sigulu Island. Solar panels and wind turbines were identified as the most viable options, with the system incorporating 677 units of 1 kW solar panels and 27 units of 1 kW wind turbines, generating 839.97 kW and 640.08 kW daily, respectively. Additionally, 527 Li-ion batteries were used to store approximately 1480.05 kW of surplus energy demand to manage fluctuations capable of sustaining the island for 8 hours during a total blackout. The initial installation costs are estimated at $90,393.04 for solar PV, $27,729.82 for wind turbines, $159,169.81 for batteries, and $92,407.00 for the inverter. The STHRES is projected to save $56,917.93 annually, covering 15.4 % of the installation costs compared to diesel operations. Moreover, this system will reduce Uganda's carbon footprint by 436,035.6 kgCO₂ annually, equivalent to a 0.01 % reduction in national emissions. The proposed system decreases the Net Present Cost (NPC) from $426,617.60 to $369,699.67 and the Cost of Energy (COE) from $32.12/kWh to $ 27.79/kWh. With a 9 % Internal Rate of Return (IRR) and a 3 % Return on Investment (ROI), STHRES has a payback period of 8.2 years, demonstrating its financial and environmental benefits for Sigulu Island.
可持续技术经济混合可再生能源系统的设计分析:太阳能和风能在乌干达西古鲁岛的应用
可持续能源是实现全球可持续发展目标(SDGs)的核心,尤其是为服务不足的社区提供电力。本研究对锡古鲁岛进行了考察,该岛缺乏电网供电,只能依靠成本高昂、污染严重的柴油发电机发电。现场评估显示,该岛的日负荷需求为 1,455.705 千瓦时。本研究设计并分析了一种可持续技术经济混合可再生能源系统 (STHRES),该系统结合了太阳能光伏发电和风力涡轮机,并配有备用电池,可满足该岛的能源需求。研究采用定性和定量两种方法,收集西古鲁岛特有的大气气象条件。太阳能电池板和风力涡轮机被确定为最可行的方案,该系统包含 677 块 1 千瓦太阳能电池板和 27 台 1 千瓦风力涡轮机,日发电量分别为 839.97 千瓦和 640.08 千瓦。此外,还使用 527 个锂离子电池来存储约 1480.05 千瓦的剩余能源需求,以管理波动,从而在全岛停电时能够维持 8 小时。太阳能光伏发电的初始安装成本估计为 90,393.04 美元,风力涡轮机为 27,729.82 美元,蓄电池为 159,169.81 美元,逆变器为 92,407.00 美元。预计 STHRES 每年可节省 56,917.93 美元,比柴油发电节省 15.4% 的安装成本。此外,该系统每年将减少乌干达碳足迹 436,035.6 千克 CO₂,相当于减少全国排放量的 0.01%。拟议系统的净现值成本 (NPC) 从 426617.60 美元降至 369699.67 美元,能源成本 (COE) 从 32.12 美元/千瓦时降至 27.79 美元/千瓦时。STHRES 的内部收益率 (IRR) 为 9%,投资回报率 (ROI) 为 3%,投资回收期为 8.2 年,证明了其为西古鲁岛带来的经济和环境效益。
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
Scientific African
Scientific African Multidisciplinary-Multidisciplinary
CiteScore
5.60
自引率
3.40%
发文量
332
审稿时长
10 weeks
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