Techno-Economic Feasibility Study of a 1.5 MW Grid-Connected Solar Power Plant in Bangladesh

Q2 Engineering Designs Pub Date : 2023-12-07 DOI:10.3390/designs7060140

Md. Feroz Ali, Nitai Kumar Sarker, Md. Alamgir Hossain, Md Shafiul Alam, Ashraf Hossain Sanvi, Syed Ibn Syam Sifat

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Abstract

This study addresses the pressing energy constraints in nations like Bangladesh by proposing the implementation of photovoltaic (PV) microgrids. Given concerns about environmental degradation, limited fossil fuel reserves, and volatile product costs, renewable energy sources are gaining momentum globally. Our research focuses on a grid-connected solar PV system model at Char Jazira, Lalpur, Natore, Rajshahi, Bangladesh. Through PVsyst 7.1 simulation software, we assess the performance ratio (PR) and system losses, revealing an annual solar energy potential of 3375 MWh at standard test condition (STC) efficiency. After considering losses, the system generates 2815.2 MWh annually, with 2774 MWh exported to the grid. We analyze an average PR of 78.63% and calculate a levelized cost of energy (LCOE) of 2.82 BDT/kWh [1 USD = 110 BDT]. The financial assessment indicates a cost-effective LCOE for the grid-connected PV system, with an annual gross income of 27744 kBDT from selling energy to the grid and operating costs of 64060.60 BDT/year. Remarkably, this initiative can prevent 37647.82 tCO2 emissions over the project’s 25-year lifespan.

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孟加拉国 1.5 兆瓦并网太阳能发电厂技术经济可行性研究

这项研究通过提出光伏微电网的实施，解决了孟加拉国等国家紧迫的能源限制问题。考虑到对环境恶化、化石燃料储量有限以及产品成本波动的担忧，可再生能源正在全球范围内获得动力。我们的研究重点是位于孟加拉国查贾兹拉、拉普尔、纳托雷、拉杰沙希的并网太阳能光伏系统模型。通过PVsyst 7.1仿真软件，我们评估了性能比(PR)和系统损耗，揭示了在标准测试条件下(STC)的年太阳能潜力(3375 MWh)效率。考虑损耗后，系统年发电量2815.2兆瓦时，输出电网2774兆瓦时。我们分析了平均PR为78.63%，并计算出平均能源成本(LCOE)为2.82 BDT/kWh[1美元= 110 BDT]。财务评估表明，并网光伏系统的LCOE具有成本效益，向电网出售能源的年总收入为27744千比特币，运营成本为64060.60千比特币/年。值得注意的是，这一举措可以在项目25年的生命周期内减少37647.82吨二氧化碳的排放。

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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