By Manish Pant
Published 11-28-24
Submitted by Schneider Electric
Schneider Electric's Access to the Future
Today, over 1.5 billion people are unable to access reliable energy, mostly in developing countries. It demands immediate action: expanding access to reliable and affordable clean electricity everywhere. A swift energy transition, packed with initiatives to address energy poverty, will transform the lives of millions while mitigating climate change.
Here, renewable energy systems — like minigrids, stand-alone, and off-grid systems — play a key role. They generate and distribute energy independently, making them a great option for areas with little to no access to traditional power grids.
Studies show that by 2030, Distributed Renewable Energy (DRE) could bring power to around 500 million people. Not only can it replace ‘dirty’ diesel generators, but does so while making power more reliable and affordable for homes and businesses. Its installation and maintenance can also create high-quality, local jobs. The International Energy Agency suggests that off-grid solutions are the most cost-effective way to electrify nearly half of the world's unconnected population by 2030.
Minigrid vs microgrid
A minigrid is a small, independent power network that usually integrates with the main grid, but can also work alone when needed. It provides power to different users like homes, businesses, and industries in a specific area. Minigrids are especially useful in rural or semi-urban areas where it's too expensive or difficult to expand the main grid.
A microgrid is a smaller version of a minigrid, with less power and fewer users. The main difference is that microgrids serve a smaller area or just one place, like a hospital, university, or military base.
Both minigrids and microgrids decentralize energy generation and provide reliable, affordable power to underserved populations. This makes them essential for achieving global energy access goals. But despite their promise, the adoption of minigrids in developing countries has been stunted.
The challenges facing minigrids
A report published by BloombergNEF and SEforALL noted three critical challenges: the need for regulation to protect cash flows, affordability, and the limitations of smaller-scale projects. Other barriers include:
Overcoming these challenges requires a broad approach that reduces costs, creates financing mechanisms, and enhances social engineering while ensuring affordability for local communities.
Key drivers
The World Bank's Energy Sector Management Assistance Program highlights five drivers to help the minigrid market achieve its full potential:
Innovative solutions to payment barriers
In India, the 'Climate Smart Village Solution' pilot lets farmers use solar power for various needs, boosting income while cutting costs with inverter-less and battery-less solutions. This makes renewable energy more affordable and better suited for rural economies.
Scaling to achieve SDG 7
To achieve Sustainable Development Goal 7 (SDG 7), an estimated 100,000 minigrids are needed annually in Africa alone. This ambitious scale means standardizing designs and products, to allow for quick plug-and-play installations without complex engineering and design processes. In India, we’ve seen promising outcomes from solar installations ranging from 50 kW to 3 MW. These projects have an average payback period of 3 to 3.5 years, with lifetime savings typically 8 to 10 times the initial investment.
How does a minigrid enhance living conditions?
By supplying reliable power where it’s needed most, mini grids can often mean the literal difference between life and death. For example, we set up an 8.7KW solar and storage minigrid at a birthing hospital in Kisii, Kenya, alongside local partner PowerPoint Systems. This meant the facility could open 24/7, increasing average monthly deliveries from 5 to 20 — 60% of which occur at night. And while operational hours expanded, monthly energy costs sank.
Over on Kenti Island, Myanmar, our solar minigrid project with Techno-Hill Engineering brought 24/7 renewable energy to 300 households, a clinic, a high school, and two primary schools, along with streetlights and enhanced equipment for local businesses. The project has allowed the local economy to thrive. In particular, this has benefitted women, who have started home-based businesses such as sewing shops or freezer leasing.
Benefits of standardized minigrid systems
Standardizing minigrid designs and producing them at scale have multiple benefits, including:
Standardization represents a long stride toward our energy access goals, both on a global and community level. It allows us to clear heavy roadblocks for widespread minigrid adoption. By standardizing, we can greatly accelerate the expansion of minigrids, promoting energy access, economic development, and living standards on a massive scale.
Schneider Electric is a European multinational company providing energy and automation digital solutions for efficiency and sustainability.
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