Abstract
The objective of this review is to present the characteristics and trends of hybrid renewable energy systems for remote off-grid communities. Traditionally, remote off-grid communities have used diesel oil-based systems to generate electricity. Increased technological options and lower costs have resulted in the adoption of hybrid renewable energy-based systems. The evaluated 168 studies from the period 2002–2019 considered energy developments in Asia, northern Europe, Africa and South America, with the great majority in the northern hemisphere (n = 152, 90.5%). Many of the studied systems were located in tropical (44.1%) and subtropical areas (31.0%). Our review shows that most of the studied approaches combined photovoltaic (PV) and wind energy and that diesel generators are the preferred backup system (61.3%), while batteries are the preferred method of energy storage (80.4%). Communities far from coasts have more options for renewable energy sources, such as biogas. Although half the studies were related to communities with access to marine-based renewable energy resources, their use was only referred to in fifteen studies. In terms of trends, the studies show a mature development of PV and wind-power technology for off-grid hybrid systems independent of the latitude, which is preferred as they are proven and accessible methods. The preferred storage method is batteries, and diesel is the preferred backup system given the low efficiency of PV and the intermittent character of wind power.
Highlights
The development of communities is closely related to uninterrupted access to electrical energy
HRES-OFF have been implemented and evaluated around the world to meet the need to generate electricity in areas isolated from conventional electrical networks (Figure 1)
The evaluated HRES-OFF studies were concentrated in the northern hemisphere (90%), with only 10% of the studies dealing with HRES-OFF applications in the southern hemisphere
Summary
The development of communities is closely related to uninterrupted access to electrical energy. The isolation of communities in remote rural areas hinders the provision of electrical energy by traditional electrical power generation and transmission methods. The. World Bank reported in 2018 that around 724 million people did not have a regular and reliable supply of electrical energy, with 84.2% of these people living in rural areas isolated from power grids, and the remaining 15.8% living in urban areas [1]. Electrical energy is a fundamental pillar of economic and social development, because of which it is common that the highest indices of poverty and the lowest levels of technological development are found in rural communities [2]. The families that make up these populations are widely scattered, making it difficult to meet energy demands and making electrical transmission networks expensive
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