Rural microgrids bamako

This first phase of the project will promote rural electrification through isolated solar photovoltaic (PV) green mini-grid systems as a low-carbon and resilient solution to the effects of climate change in the energy sector of Mali.
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This first phase of the project will promote rural electrification through isolated solar photovoltaic (PV) green mini-grid systems as a low-carbon and resilient solution to the effects of climate change in the energy sector of Mali.

With funding from AECF, SEECO Mali SARL is building new solar micro grids while replacing diesel-powered ones with solar power to serve the rapidly expanding municipality of Ténéni.

Africa GreenTec Électrification Rurale Sarl (AGT-ER SARL) is a micro grid developer and currently operates microgrid sites of between 50kW and 100kW in Mali.

With funding from AECF, ACCESS SA is scaling up the distribution of quality solar home systems and productive solar systems to rural communities that are not served by its microgrid networks.

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To achieve universal electricity access by 2030 as envisaged in the SDGs, 110 million connections are needed each year. Robust decentralised and off-grid solutions could play a pivotal role in bridging the electricity access gap, especially in areas of low density where grid expansion would be uneconomically expensive.

Microgrids offer several advantages over traditional main-grid technology. Traditional grid expansion cost up to £17,500 per km for transmission presenting significant financial costs in areas of low density. To recover these costs, utilities often need to implement high tariffs, most of which are typically unaffordable for most rural households.

Off-grid microgrids are less capital intensive than grid expansion. They not only reduce the capital investment required but also mitigate the transmission and distribution costs associated with centralised grid systems. As a result, microgrids are a practical solution for approximately 45 per cent of Africa''s rural communities. In Ghana for example, decentralised minigrids have become the least cost option for extending electricity access to remote communities. Microgrids provide opportunities for growth in remote areas where traditional grid connections are uneconomical and unfeasible.

Power supply in developing countries is riddled with intermittency challenges either as a result of fuel supplies shortages, inefficient grid systems or over-demand of energy. When combined with energy storage systems, microgrids can help reduce intermittency by storing excess energy during periods of high generation and releasing it during periods of low/no generation or by acting as backup systems during periods of disruption on the main grid. This combination enhances overall reliability, ensures smoother power access and reduces intermittency challenges. This has been in observed in Tanzania where hybrid minigrid technologies that combine renewables and storage have been shown to improve reliability of electricity.

Microgrids provide an easier way of integrating renewable and cleaner energy sources into the energy landscape. Globally, fossil fuels still account for 80 per cent of the energy supply. Africa possesses a lot of potential from renewable energy sources. Solar power potential for example is estimated to provide the continent with 660,000 TWh of electricity a year. Microgrids can help harness some of this potential more easily and at a faster pace.

To achieve net-zero energy supply by 2050, renewable energy sources must constitute 60 per cent of the power generation by 2030. Microgrids based on renewables can play a substantial role in advancing this goal. However, increasing the share of decentralised renewable energy requires deliberate policy action. In Tanzania, the development of a licensing framework for small power producers has seen a rise in minigrid investment and activity above all other countries in Africa. Similarly, in Sierra Leone in 2016, setting an energy access goal with a focus on decentralised renewable energy coupled with awareness campaigns and using fiscal policy tools, saw the doubling of decentralised renewable energy market.

Reliability of microgrids, especially those based on renewable energy sources require investments in energy storage systems. However, despite costs relating to storage systems having gone down over time, they still present substantial initial and maintenance costs.

In addition, microgrids face challenges in attracting finance and investment due to their relative novelty and therefore limited examples of effective business models and higher perceived risk. As such, scaling of microgrids is challenging. Since microgrids tend to be geared at remote and underserved communities, ensuring sustainability requires a balanced mix between household users and productive users as well as access to infrastructure and financing for productive users to enable their sustainability.

The disposal of energy storage devices and other components has raised environmental concerns. Challenges associated with recycling devices like batteries can have adverse impacts on the environment. For instance, solar panels waste is projected to be 78 million tonnes by 2050 and can lead to the leaching of dangerous chemicals into the ground. Furthermore, land use for microgrid infrastructure such as wind turbines or solar panels can adversely impact local ecosystems and habitats.

Developing and implementing microgrid projects that are responsive and environmentally friendly will require tackling these challenges. Governments need to establish an enabling environment that de-risks investments, supports innovation, and accelerates clean energy transition. Legislation that clearly spells out microgrid ownership rules can facilitate access to finance for private developers. Removing restrictions on collection of electricity tariffs and leveraging public investment to crowd in private investment can effectively reduce the initial upfront investment costs for developers. This approach not only mitigates investment risks but also paves the way for scaling up.

Environmental regulations and standards that prioritise environmental concerns are key to development of environment-friendly microgrids. One way of incentivising safe disposal of solar panels is to place a fee on their purchase which would internalise the cost of safe removal and disposal. Channelling the disposal fee into a disposal fund managed by state or local government for recycling or removal of waste has been shown to be an economical solution in some contexts.

Addressing knowledge gaps through research can play a pivotal role in facilitating the expansion and scaling of sustainable microgrids but they offer a huge potential to meet Africa''s energy needs in a sustainable way.

This blog was originally published by the International Growth Centre at LSE. 

Photo credit: California Energy Commission used with permission CC BY 2.0 DEED

Mphatso Kumwenda is a Country Economist for IGC Rwanda. Mphatso''s research interests include: poverty, inequality, human capital development, and state effectiveness.

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About Rural microgrids bamako

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