Optimizing renewable energy systems for 100 % clean energy target: A comparative study of solar, hydro, pumped hydro, and battery storage technologies

IF 8.9 2区 工程技术 Q1 ENERGY & FUELS
Zainullah Serat
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Abstract

Addressing global environmental concerns and rising energy demand underscores the urgent need for sustainable renewable energy solutions. This study introduces a novel optimization framework for 100 % hybrid renewable energy systems (HRES) tailored for rural electrification, utilizing HOMER software. This study conducts a comprehensive comparative analysis of mono-crystalline silicon (m-Si) and poly-crystalline silicon (p-Si) photovoltaic (PV) technologies, integrated with hydro, pumped hydro storage (PHS), and battery storage systems, from both energy performance and economic perspectives. The study examines three scenarios, m-Si and p-Si PV systems with PHS, m-Si, and p-Si PV systems with battery storage, and a direct comparison of the optimal configurations from these scenarios. The results indicate that the p-Si PV/Hybrid/PHS system, with a capacity of 162 kW PV, 25 kW hydro, and 1525 kWh PHS, is the most cost-effective and energy-efficient solution. This system generates 474,399 kWh annually, with a net present cost (NPC) of US$472,528.54 and a cost of energy (COE) of US$0.101/kWh. Its superior economic performance and minimized excess energy make it the optimal choice for sustainable energy generation in the targeted rural area. Sensitivity analysis further underscores the critical role of solar irradiation and hydro flow rates in cost minimization. These findings highlight the importance of site-specific customization of PV technology and storage solutions, offering actionable insights for the design and implementation of sustainable energy systems in rural and off-grid environments. By providing a detailed optimization framework, this study significantly advances the development of renewable energy solutions, with potential applications in similar settings.
优化可再生能源系统,实现 100% 清洁能源目标:太阳能、水能、抽水蓄能和电池储能技术比较研究
应对全球环境问题和不断增长的能源需求凸显了对可持续可再生能源解决方案的迫切需求。本研究利用 HOMER 软件,为农村电气化量身定制了 100% 混合可再生能源系统 (HRES) 的新型优化框架。本研究从能源性能和经济角度出发,对单晶硅(m-Si)和多晶硅(p-Si)光伏(PV)技术与水力、抽水蓄能(PHS)和电池蓄能系统进行了全面的比较分析。研究考察了三种方案,即带有 PHS 的 m-Si 和 p-Si 光伏系统、带有电池储能的 m-Si 和 p-Si 光伏系统,并对这些方案的最佳配置进行了直接比较。结果表明,光伏容量为 162 千瓦、水力发电容量为 25 千瓦、PHS 容量为 1525 千瓦时的对硅光伏/混合/PHS 系统是最具成本效益和能效的解决方案。该系统年发电量为 474,399 千瓦时,净现值成本 (NPC) 为 472,528.54 美元,能源成本 (COE) 为 0.101 美元/千瓦时。其优越的经济性能和最小化的多余能源使其成为目标农村地区可持续能源发电的最佳选择。敏感性分析进一步强调了太阳辐照度和水流量在成本最小化中的关键作用。这些发现凸显了针对具体地点定制光伏技术和存储解决方案的重要性,为农村和离网环境中可持续能源系统的设计和实施提供了可操作的见解。通过提供详细的优化框架,本研究极大地推动了可再生能源解决方案的发展,并有可能应用于类似环境。
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来源期刊
Journal of energy storage
Journal of energy storage Energy-Renewable Energy, Sustainability and the Environment
CiteScore
11.80
自引率
24.50%
发文量
2262
审稿时长
69 days
期刊介绍: Journal of energy storage focusses on all aspects of energy storage, in particular systems integration, electric grid integration, modelling and analysis, novel energy storage technologies, sizing and management strategies, business models for operation of storage systems and energy storage developments worldwide.
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