A New Electrification Model to End Energy Poverty: An example from a novel rural electrification approach in Madagascar

IF 2.5 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Electrification Magazine Pub Date : 2023-06-01 DOI:10.1109/MELE.2023.3264922
Lucas Richard, Nicolas Saincy, Nolwenn Le Saux, D. Frey, M. Alvarez‐Herault, B. Raison
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Abstract

Highlighted by the United Nations sustainable Development Goals to ensure universal access to clean, reliable, and modern energy services by 2030, the world is increasingly becoming concerned by energy poverty and its consequences on human development and the environment. Yet, even if numerous initiatives and a significant amount of money are directly addressed to tackle the energy-access challenges, a billion people are still denied access to basic and modern electricity services, especially in rural areas of sub-Saharan Africa and Southeast Asia. In the past two decades, the African continent has seen an encouraging improvement as the number of people gaining access to electricity rose from 9 million per year between 2000 and 2013 to 20 million per year between 2014 and 2019, outpacing population growth for the first time. However, most of those recent improvements are restricted mainly to urban and peri-urban areas of a small number of countries located in eastern or western Africa. Also, the population without access to electricity in Africa is expected to increase in the coming years following the health crisis and economic downturn caused by COVID-19. This definitely proves the fragility and poor resilience of the electrification solutions favored today. While grid extension and conventional microgrids suffer from low inclusivity and replicability, solar home systems are only a stopgap measure and fail to boost socioeconomic development. A third way must be proposed to combine quick and affordable access to basic electricity services and community uplift through socioeconomic development, answering the two greatest challenges that developing countries are struggling to cope with today. With this objective in mind, Nanoé, a French–Malagasy social company, is developing the lateral electrification model, based on the collaborative and progressing building of electric infrastructures, which is presented in this article, first from a general point of view and then through a focus on Nanoé’s experience in Madagascar.
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消除能源贫困的新电气化模式:以马达加斯加农村新型电气化方法为例
在确保到2030年人人享有清洁、可靠和现代能源服务的联合国可持续发展目标的强调下,世界越来越关注能源贫困及其对人类发展和环境的影响。然而,即使有许多倡议和大量资金直接用于解决能源获取挑战,仍有10亿人无法获得基本和现代电力服务,特别是在撒哈拉以南非洲和东南亚的农村地区。在过去二十年中,非洲大陆取得了令人鼓舞的进步,电力供应人数从2000年至2013年的每年900万人增加到2014年至2019年的每年2000万人,首次超过了人口增长速度。然而,这些最近的改善大多主要限于位于东部或西部非洲的少数国家的城市和城郊地区。此外,在2019冠状病毒病造成的健康危机和经济衰退之后,预计未来几年非洲无电人口将增加。这无疑证明了当今电气化解决方案的脆弱性和较差的弹性。虽然电网扩展和传统微电网的包容性和可复制性较低,但太阳能家庭系统只是一种权宜之计,无法促进社会经济发展。必须提出第三条道路,将快速和负担得起的基本电力服务与通过社会经济发展提升社区水平结合起来,解决发展中国家目前正在努力应对的两大挑战。考虑到这一目标,法国-马达加斯加社会公司nano正在开发横向电气化模式,该模式基于电力基础设施的协作和进展建设,本文首先从一般角度介绍,然后重点介绍nano在马达加斯加的经验。
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来源期刊
IEEE Electrification Magazine
IEEE Electrification Magazine ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
5.80
自引率
0.00%
发文量
57
期刊介绍: IEEE Electrification Magazine is dedicated to disseminating information on all matters related to microgrids onboard electric vehicles, ships, trains, planes, and off-grid applications. Microgrids refer to an electric network in a car, a ship, a plane or an electric train, which has a limited number of sources and multiple loads. Off-grid applications include small scale electricity supply in areas away from high voltage power networks. Feature articles focus on advanced concepts, technologies, and practices associated with all aspects of electrification in the transportation and off-grid sectors from a technical perspective in synergy with nontechnical areas such as business, environmental, and social concerns.
期刊最新文献
Implementing a Behind-the-Meter Commercial and Industrial Microgrid: Key lessons in grounding, protection, and control IEEE Smart Village Education in Electrification for Societal Sustainability: History and philosophy Open Access Journal of Power & Energy Trends in dc Microgrids: From the control and protection perspective
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