Solar Energy
Solar mini-grids offer clean-power hope to rural Africa
Solar mini-grids offer clean-power hope to rural Africa
By Patrick MARKEY
Sabon Gida, Nigeria (AFP) Nov 2, 2023
Working as a nurse in her rural Nigerian village, Andat Datau faced more than her share of challenges. But delivering babies by torchlight was always hard.
Off-grid for years, her Sabon Gida village relied on diesel generators or lamps and, like millions of other Africans, Datau often got no light at all.
But a year ago, Datau’s village in north central Nasarawa State hooked up to a solar-powered mini-grid supplying half of her community’s households and most businesses with almost constant electricity.
Sabon Gida now has more light at times than Lagos, Nigeria’s economic capital, where many get by on around half a day’s power — at times much less — from the unstable network.
Mini-grids — small power stations usually supplying rural communities — are not new. But the drop in solar technology costs over a decade has prompted a growth in clean energy mini-grids, with rural Africa poised to benefit the most.
“It was stressful holding torchlights,” Datau told AFP at her clinic.
“Even giving injections without electric light would make it difficult for us.”
Nearly 600 million Africans live without electricity access, and in Nigeria alone that figure is 90 million — about 40 percent of the population in the continent’s most populous nation.
And while Africa may have the most potential to generate solar power, according to the International Energy Agency (IEA), the continent lags behind installed capacity.
Tripling renewable energy, including solar, will be on the agenda for COP28 climate talks next month in Dubai.
Africa is responsible for the smallest amount of greenhouse gas emissions, but is often impacted the most while also under pressure to avoid fossil-based development.
Solar mini-grids are not a low-scale solution: the World Bank and IEA see them as one of the most viable ways to get fossil-free access to electricity for rural sub-Saharan Africa.
In a report this year, the bank said solar mini-grid use expanded from only 500 installed in 2010 to more than 3,000 installed now. Another 9,000 are seen coming online in a few years.
Still, scaling up solar in Africa faces huge challenges, including securing investors wary of its viability, inflationary pressures on equipment, better state financing and clear policies to promote its use.
To meet the sustainable development goals of bringing power to 380 million in Africa by 2030, 160,000 mini-grids are needed. The current pace sees only 12,000 new grids by then, according to the World Bank’s Energy Sector Management Assistance Program.
Already though for Sabon Gida — a rice-farming community an hour from Nasarawa state capital Lafia — a year of solar power has brought changes beyond light to Datau’s small clinic.
Sabon Gida is one community in a private-public initiative involving the World Bank and US-based mini-grid maker Husk Power Systems with the country’s Rural Electrification Agency.
“Light… it was only for the rich before, they were the ones using power generators in their homes,” Dauda Yakubu, a traditional Sabon Gida community chief, said.
– Viable solution? –
Solar is now the cheapest source of energy for utility-scale power — an attractive proposition for Africa where poor investment and badly maintained power networks often mean limited energy.
The World Bank says Nigeria’s “market-driven” approach to solar mini-grids already helped bring more than 100 projects online, while Ethiopia and Zambia have passed new regulations to attract private investment.
Kenya also introduced favourable regulations for a public-private initiative for 150 mini-grids, the bank said.
“Solar mini-grids are integral to Nigeria’s energy transition plan,” Abba Aliya at Nigeria’s Rural Electrification Agency said.
“The government views this model as the most effective means to rapidly increase electricity access.”
Solar in Africa still needs more work, especially financing and creating profitable models. States often lack funds for large-scale projects while small-scale projects aren’t viable for the private sector, said Abel Gaiya, a researcher for Abuja-based think tank Clean Technology Hub.
Still, combining new technology such as electric transport and green hydrogen with solar mini-grids could make projects more attractive as well as efforts to “bundle” mini-grid investments together, he said.
“If you remove mini-grids from the equation, you remain with the problem of extension of national grids not being available to so many communities. So mini-grids are essential,” he said.
– Bikes and more –
Husk, which also works in India and other African nations, operates 12 grids in Nigeria, but plans 60 more by the end of next year.
An hour from Lafia along an unpaved earth road, Igbabo village in Nasarawa joined the scheme two years ago. Now around 350 households and businesses access Husk Power’s 172-panel solar plant.
His diesel generator sitting quiet in his roadside workshop, welder Jesse Eneh couples his tools to the solar grid.
Where he spent almost 30,000 naira ($30) a week on diesel, he now pays the same price a month as a business for access to the solar grid.
Private households pay an average of 2,500 naira a month for power. Businesses pay an average of 10,000 naira a month though more energy-consuming operations like the welder rack up more.
Nearby, Husk Power has a pilot project for electric motorbikes, part of its integrated approach offering power and equipment to rural communities.
John Buhari still offers the same price at his phone-charging business, but now makes more profit because he no longer pays to fuel his generator.
In Sabon Gida, no one could be happier with solar than Shagari Abari, owner of a viewing salon, where locals gather on concrete benches to watch football and movies.
“Most times with my generator, there are failures and breakdowns during the matches, and the crowds would start screaming at me,” he said.
“But with solar it’s steady and it’s cheaper.”
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Solar investment outstrips all other power forms: IEA
by AFP Staff Writers
Paris (AFP) June 6, 2024
More money is pouring into solar power than all other electricity sources combined, with investments set to reach half a trillion dollars this year, the world’s top energy research body said Thursday.
The International Energy Agency (IEA) forecast in a report that global investment in clean energy this year will hit $2 trillion, twice the amount going to fossil fuels.
It said combined investment in renewable power and grids overtook the amount spent on fossil fuels for the first time in 2023.
“Clean energy investment is setting new records even in challenging economic conditions, highlighting the momentum behind the new global energy economy,” IEA executive director Fatih Birol said in a statement accompanying the agency’s annual World Energy Investment report.
Companies and governments worldwide are raising spending on clean energy production to reduce the carbon emissions from burning fossil fuels that are driving deadly climate change.
The report said improving supply chains and lower costs were driving up investment in forms of so-called clean energy, which include solar panels, wind turbines, electric cars and heat pumps, as well as nuclear power generation.
Combined investment in renewables and nuclear for electricity generation is now set to reach 10 times the amount going to fossil-fuel power, led by solar, with China investing the biggest share.
“More money is now going into solar PV (photovoltaic panels) than all other electricity generation technologies combined,” the report said.
Solar panel costs have decreased by 30 percent over the past two years and in 2024 “investment in solar PV is set to grow to $500 billion as falling module prices spur new investments.”
By comparison, global upstream oil and gas investment is expected to increase by seven percent in 2024 to reach $570 billion, following a similar rise in 2023.
The IEA warned however of “major imbalances and shortfalls in energy investment flows in many parts of the world” where clean energy projects remain prohibitively expensive.
Excluding renewable energy giant China, the $300 billion invested by emerging and developing economies remained “far below what is required to meet growing energy demand in many of these countries”.
“More must be done to ensure that investment reaches the places where it is needed most,” Birol said.
The IEA said that meeting medium-term global goals to reduce harmful carbon emissions would require investment in renewable power to be doubled worldwide by 2030.
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Atlas reveals solar energy potential in Germany
by Robert Schreiber
Berlin, Germany (SPX) Jun 06, 2024
Which roofs are suitable for solar panel installations? Where are photovoltaic systems already in place? How much output could be achieved with solar panel arrays at specific locations? A map developed by the German Aerospace Center (Deutsches Zentrum fur Luft- und Raumfahrt; DLR) provides the answers. DLR’s researchers used machine learning methods to process current aerial photographs and geodata, enabling them to determine solar energy potential for the entire stock in Germany of around 20 million buildings. Results for the whole country are publicly available at eosolar.dlr.de.
The Solar Atlas is being presented at ILA in Berlin, where DLR is showcasing its research and development work in aeronautics, space, energy, transport, digitalisation and security.
“Policy makers need precise information on the current inventory and growth potential in order to devise and implement effective strategies for expanding photovoltaic systems on roofs,” explains Anke Kaysser-Pyzalla, Chair of the DLR Executive Board.
“The satellite-derived information provided by DLR supports the energy transition and drives forward innovative products and business models. The DLR Solar Atlas shows how Earth observation can be used successfully for climate protection and the sustainable expansion of energy generation.”
Multiple terabytes of data evaluated
Within the framework of the EO Solar project, researchers from the DLR Earth Observation Center (EOC) are evaluating and combining several terabytes of data from various sources to outline the current situation in Germany. These include digital, distortion-free aerial photographs with a resolution of 20 centimetres and high-quality surface models with a resolution of one metre, provided by the Federal Agency for Cartography and Geodesy.
“To evaluate the current expansion potential for solar energy, we calculate the possible electrical output based on the hours of sunshine, radiation intensity, orientation of roof surfaces and shading from neighbouring buildings or vegetation,” says Annekatrin Metz-Marconcini, who heads the EO Solar project.
“DLR has also developed a process using artificial intelligence that enables us to identify roofs with existing solar panels anywhere in the world based on high-resolution remote sensing data. In Germany, we have included the Core Energy Market Data Register in the information that we use.” The Core Energy Market Data Register lists all registered German solar panel installations and is updated on a daily basis.
Rather than building models, EO Solar uses digital terrain models, including those generated with the help of aircraft and satellites. These models automatically take account of shading from trees and the surrounding area, and the process can be extended to countries that do not have building models. Other than the roofs of buildings, the solar energy potential of open spaces can also be calculated using the same methodology and then taken into account for planning purposes.
Solar potential identified for municipalities, districts and federal states
Existing solar panel registers for federal states, districts or municipalities often differ in the level of information included, may lack detail or be limited to certain areas. By contrast, the DLR Solar Atlas provides an up-to-date, systematic mapping of the whole of Germany and as such offers policy makers and planners alike a basis for promoting the targeted expansion of photovoltaic systems.
DLR researchers have already created a similar map for Austria as part of an ESA project. For data protection reasons, it is not possible to map solar expansion potential for individual buildings on a publicly available website in Germany, so the expansion potential is shown at municipal, district or federal state level. The publicly accessible website eosolar.dlr.de has recently been set up for this purpose.
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Some countries could meet electricity needs with floating solar panels, research shows
by Sophie Jenkins
London, UK (SPX) Jun 05, 2024
Floating solar photovoltaic (FPV) panels could supply all the electricity needs of some countries, according to new research. The study by Bangor and Lancaster Universities and the UK Centre for Ecology and Hydrology evaluated the global potential for low-carbon floating solar arrays. Researchers calculated daily electrical output from FPV on nearly 68,000 lakes and reservoirs worldwide, using climate data for each location.
The study focused on lakes and reservoirs likely to support floating solar technology, which are within 10 km of a population center, not in protected areas, and don’t dry up or freeze for more than six months each year. Researchers based their calculations on FPV covering 10% of surface areas, up to 30 km.
Potential annual electricity generation from FPV on these lakes is 1302 terawatt hours (TWh), about four times the UK’s total annual electricity demand. The findings are published in Nature Water.
FPV systems offer several advantages over land-based solar installations, including freeing up land for other uses and keeping panels cooler for better efficiency. There is also evidence for additional environmental benefits, such as reducing water evaporation and limiting algal blooms. However, further research is needed on FPV’s overall environmental impact, and deployment decisions should consider the intended function of water bodies and potential ecological impacts.
Lead author Dr. Iestyn Woolway of Bangor University said, “We still don’t know exactly how floating panels might affect the ecosystem within a natural lake, in different conditions and locations. But the potential gain in energy generation from FPV is clear, so we need to put that research in place so this technology can be safely adopted. We chose 10% of a lake’s surface area as a likely safe level of deployment, but that might need to be reduced in some situations, or could be higher in others.”
The research shows five nations, including Papua New Guinea, Ethiopia, and Rwanda, could meet their entire electricity needs from FPV. Others, such as Bolivia and Tonga, could meet 87% and 92% of their demand. Many countries, particularly in Africa, the Caribbean, South America, and Central Asia, could meet 40% to 70% of their electricity needs through FPV. In Europe, Finland could meet 17% and Denmark 7% of their demand.
The UK could generate 2.7 TWh annually from FPV, enough to power around one million homes. The UK’s largest FPV installation is a 6.3 MW floating solar farm on the Queen Elizabeth II reservoir near London.
Dr. Woolway added, “Even with the criteria we set to create a realistic scenario for deployment of FPV, there are benefits across the board, mainly in lower income countries with high levels of sunshine, but also in Northern European countries as well. The criteria we chose were based on obvious exclusions, such as lakes in protected areas, but also on what might reduce the cost and risks of deployment.”
Co-author Professor Alona Armstrong of Lancaster University said, “Our work shows there is much potential for FPV around the world. But deployments need to be strategic, considering the consequences for energy security, nature and society, as well as Net Zero.”
The research is funded by the Natural Environment Research Council, part of UK Research and Innovation.
Research Report:Decarbonisation potential of floating solar photovoltaics on lakes worldwide
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