Optimal Design and Techno-Economic Analysis of a Grid-Connected Photovoltaic and Battery Hybrid Energy System

IF 0.8 Q3 ENGINEERING, MULTIDISCIPLINARY
T. Adefarati, Gulshan Sharma, A. K. Onaolapo, Ambrose Njepu, K. Akindeji, S. Oladejo, G. Obikoya, I. Adeyanju
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引用次数: 8

Abstract

The application of green energy technologies (GETs) has been accepted universally due to the industrial revolution, increasing energy demand, high standard of living, population growth and fluctuation of crude oil prices. In view of this, GETs have been recognized on a global note as a promising and significant alternative to meet ever increasing power demand. This research work is aimed at optimal operation and design of hybrid renewable energy system (HRES) to enhance the performance of the power system while taking into consideration the energy produced, levelized cost of energy (LCOE), return on investment (ROI), solar fraction (SF), net present value (NPV), payback period and saved CO2 emissions based on the photovoltaic (PV) orientation. This is due to the fact that the solar panel generates more electrical output when its surface is perpendicular to the solar radiation. The PV orientation significantly affects the output of a solar farm, for this reason, fixed tilted plane, vertical axis tracking system and two axes tracking system are proposed in this research work to estimate their effects on the technical, economic and environmental performance of HRES. This paper presents a grid-connected HRES that comprises utility grid, PV, battery system (BS) and load. The modelling and simulation of HRES are implemented by using PVsyst.7 energy tools in conjunction with the meteorological data made available by the National Aeronautics and Space Administration (NASA). The research outputs show that the two axes tracking system is more techno-economic feasible when compared with the fixed tilted plane and vertical axis tracking system based on the following results: Energy obtained from the grid of 4.657 MW/yr, LCOE of 0.075 ZAR/kWh, ROI of 862.7%, SF of 0.6781, NPV of 828,881.74 ZAR, payback period of 3.5 years and carbon balance of 732.240 tons. The outcomes of the study can be used by the power system planners and designers as benchmarks to utilize the prospect of solar resources for power sector reform and the industrial revolution.
光伏-电池并网混合能源系统优化设计及技术经济分析
由于工业革命、能源需求增加、生活水平提高、人口增长和原油价格波动,绿色能源技术的应用已被普遍接受。有鉴于此,GET已在全球范围内被公认为满足日益增长的电力需求的一种有前景且重要的替代方案。本研究工作旨在优化混合可再生能源系统(HRES)的运行和设计,以提高电力系统的性能,同时考虑基于光伏(PV)方向的发电量、平准化能源成本(LCOE)、投资回报率(ROI)、太阳能发电率(SF)、净现值(NPV)、投资回收期和节省的二氧化碳排放。这是因为当太阳能电池板的表面垂直于太阳辐射时,它会产生更多的电输出。光伏方向对太阳能发电场的输出有显著影响,为此,本研究提出了固定倾斜面、垂直轴跟踪系统和双轴跟踪系统,以评估它们对HRES技术、经济和环境性能的影响。本文提出了一种并网HRES,包括公用电网、光伏、电池系统和负载。HRES的建模和模拟是通过使用PVsyst.7能源工具以及美国国家航空航天局(NASA)提供的气象数据来实现的。研究结果表明,与固定倾斜平面和垂直轴跟踪系统相比,双轴跟踪系统在技术经济上更可行,其结果如下:从电网获得的能量为4.657 MW/yr,LCOE为0.075 ZAR/kWh,ROI为862.7%,SF为0.6781,NPV为828881.74 ZAR,回收期为3.5年,碳平衡为732.240吨。该研究的结果可供电力系统规划者和设计师用作基准,以利用太阳能资源的前景进行电力部门改革和工业革命。
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来源期刊
CiteScore
1.80
自引率
14.30%
发文量
62
期刊介绍: "International Journal of Engineering Research in Africa" is a peer-reviewed journal which is devoted to the publication of original scientific articles on research and development of engineering systems carried out in Africa and worldwide. We publish stand-alone papers by individual authors. The articles should be related to theoretical research or be based on practical study. Articles which are not from Africa should have the potential of contributing to its progress and development.
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