Evaluation of Mini-Grid Technology, Policy and Regulatory Framework in Nigeria

The International Journal of Science & Technoledge Pub Date : 2020-03-31 DOI:10.24940/theijst/2020/v8/i3/st2003-024

Kehinde Alabi

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Abstract

the success and sustainability of Mini-grids Developing Countries that Mini-grids viable solution to energy access problems for persons living without electricity supply and those living poorly supplied areas Based the NERC with a regulation mini-grids set they relate operate the jurisdiction the Distribution Licensees exclusive Abstract: The NERC 2016 Mini-grid regulations since coming into force has received very little academic attention. This paper provides an evaluation of mini-grid technology, policy and regulatory framework in Nigeria using NERC classification. The study utilized one primary study area (Aba-Gbooro), and 37 secondary locations, one in each of the 36 states of the Federation and one in the Federal Capital Territory (FCT). Two load profile scenarios were considered: the base case load and a second scenario that incorporated Anchor and Business load at the same peak load. The paper utilized HOMER for the simulation using Solar PV (PV)), Diesel Generator(G), Storage Battery(B), Converter (C) and Hydro (H). The Hybrid of PV+G+B+C architecture was recommended for 25 states while for 11 states with mini hydro (H) potential, hybrid of PV+G+B+C+H was recommended for few locations with hydro potentials. The LCOE for the PV+G+B+C at 25% interest rate was $0.481, higher than for the PV+G+B+C+H with LCOE of $0.302 for the same load profile. The LCOE was also found to be higher at higher interest rates. Renewable energy (RE) penetration also increased with lower interest rates. Subsidy as high as 75% (on capital costs only) did not lead to tariff parity with the grid. The paper then made a case for feed-in tariff as a complementary policy to increase investment in mini-grid and increase RE penetration. Anchor and Business load gave rise to increase in the load factor from 0.4 to 0.86 and resulted in lower LCOE compared to the base case. This suggests stronger SME initiative support in the rural areas is germane for mini-grid development.

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尼日利亚微型电网技术、政策和监管框架评估

尼日利亚微型电网的成功和可持续性发展中国家认为微型电网是解决无电地区和供电不佳地区居民能源获取问题的可行方案基于 NERC 的微型电网监管规定，它们涉及配电许可证持有人的专属管辖范围摘要：NERC 2016 年微型电网监管规定自生效以来，很少受到学术界的关注。本文利用 NERC 的分类对尼日利亚的微型电网技术、政策和监管框架进行了评估。该研究利用了一个主要研究区域（阿巴-Gbooro）和 37 个次级地点，联邦 36 个州和联邦首都区（FCT）各有一个。研究考虑了两种负荷情况：基本负荷情况和在相同峰值负荷下包含主播和商业负荷的第二种情况。本文利用 HOMER 对太阳能光伏（PV）、柴油发电机（G）、蓄电池（B）、转换器（C）和水电（H）进行了模拟。）建议在 25 个州采用 PV+G+B+C 混合结构，在 11 个州采用具有小型水电（H）潜力的混合结构，在少数具有水电潜力的地区采用 PV+G+B+C+H 混合结构。在 25% 的利率下，PV+G+B+C 的 LCOE 为 0.481 美元，高于相同负荷情况下 LCOE 为 0.302 美元的 PV+G+B+C+H。利率越高，LCOE 也越高。可再生能源（RE）的渗透率也随着利率的降低而增加。高达 75% 的补贴（仅针对资本成本）并不能使电价与电网持平。该文件随后提出了上网电价作为补充政策的理由，以增加对微型电网的投资并提高可再生能源的渗透率。与基本情况相比，锚定负荷和商业负荷使负荷率从 0.4 提高到 0.86，并降低了 LCOE。这表明，加强对农村地区中小型企业举措的支持对于微型电网的发展至关重要。

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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The International Journal of Science & Technoledge

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