solar power news, articles and features | żěè¶ĚĘÓƵ /topic/solar-power/ Science news and science articles from żěè¶ĚĘÓƵ Thu, 18 Jun 2026 15:09:34 +0000 en-US hourly 1 https://wordpress.org/?v=7.0.1 242057827 Wildlife thrives in solar farm built on restored peatland /article/2529590-wildlife-thrives-in-solar-farm-built-on-restored-peatland/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Mon, 08 Jun 2026 17:00:11 +0000 /?post_type=article&p=2529590 2529590 Solar farm on the ocean outperforms land-based solar in Taiwan /article/2527155-solar-farm-on-the-ocean-outperforms-land-based-solar-in-taiwan/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Tue, 19 May 2026 15:00:37 +0000 /?post_type=article&p=2527155 Aerial view of solar panel. Taiwan
A floating photovoltaic project by Chenya Energy
shih-wei/Getty Images

The ocean could be the next frontier for the world’s rapidly expanding solar energy industry. That’s the finding of a study showing a floating solar farm off the coast of Taiwan produces more electricity and more profit than a nearby solar farm on land.

Taiwan is roughly the same size as the Netherlands, but it is mostly mountainous and has 5 million more people, meaning open space is scarce. As a potential solution, built a 181-megawatt offshore floating photovoltaic (OFPV) project – sometimes called a “floatovoltaic” – on 1.8 square kilometres of water in the protected bay of an industrial park in western Taiwan in 2020-21.

The year before, the Taiwan Power Company had constructed a 100-megawatt land-based photovoltaic (LPV) project on 1.4 square kilometres near the bay, providing an ideal comparison once researchers excluded the additional 81 megawatts of capacity at the floating solar installation.

Pound-for-pound, the floating solar produces 12 per cent more electricity than the land-based solar, they found. Even though it has slightly higher operations and maintenance costs, it generates 11 per cent net profit, as opposed to 8 per cent for the land-based solar.

“Installing the PV system on the sea, on water, is more difficult than installing the PV system on the ground,” says team member Ching-Feng Chen at the National Taipei University of Technology. But “for the carbon reduction, emissions reduction, OFPV is much better than LPV”.

More than 1100 floating solar systems have been on lakes and reservoirs, mostly in China and other densely populated Asian countries.

While the main attraction is that they don’t take land away from farming or development, they can also up to 20 per cent more electricity than land-based systems, although that number varies widely from site to site. The improved performance comes from the fact that solar panel efficiency declines as temperatures rise, and because conditions are typically 2-3°C cooler over water than over land. The stronger winds experienced over large bodies of water also contribute to this cooling effect.

“The principal enemy is the heat,” says Chen.

Floating solar on the ocean, where temperatures are even lower than on lakes and reservoirs, can more electricity still. But it’s also more challenging to build, and only a handful of projects have been deployed. The largest is in China, a 1-gigawatt system in shallow waters off the coast of Shandong province.

A framework of solar panels is attached to buoys and anchored to the ocean bottom. The floating solar in Taiwan rests directly on the seabed when the tide is out.

Installation costs in general are expected to be about 30 per cent higher on sea than on land because the systems have to resist humidity, rust, salt and waves, says Chen.

Salt and bird droppings also build up. Employees of the Taiwan project have to the panels from walkways and for driftwood and debris on jet skis. But the higher electricity output will more than compensate for these costs over a project’s lifetime.

Chen’s study did not consider the long-term wear and tear of waves and storms. That could become a bigger factor as offshore wind farms consider using floating solar to generate power when the wind isn’t blowing. Combined wind and solar covering 1 per cent of suitable ocean surface could provide almost 30 per cent of global electricity demand in 2050, a published last year found.

German and Dutch companies have been two solar projects about 12 kilometres off the coast of the Netherlands, one of which has waves of up to 10 metres since 2019. But last year, Shell and Eneco another floating solar system off the Netherlands’s coast – this one installed at the Hollandse Kust Noord offshore wind farm – after a defective electrical connector led to overheating.

Another concern is that floating PV shadows the water column and reduces wind mixing, which can oxygen and light available for aquatic life like phytoplankton and seaweed.

“If you do it further offshore, then maybe the waves and weather conditions and so on will become more problematic, but the closer to the shore the less favourable for biodiversity,” says at HZ University of Applied Sciences in the Netherlands.

Given that it impacts human activities less than land-based solar, however, “there’s definitely potential for this technology”, he says.

Because offshore PV is technically challenging, Chen thinks it will expand mainly in sunny islands that don’t have much offshore wind power, like Taiwan, Japan, Indonesia and Caribbean nations.

“Location is very important,” he says.

Journal reference

Journal of Renewable and Sustainable Energy

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How I pay almost nothing to power my house and electric car /article/2524387-how-i-pay-almost-nothing-to-power-my-house-and-electric-car/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Tue, 28 Apr 2026 09:00:25 +0000 /?post_type=article&p=2524387 2524387 Plug-in solar is coming – how dangerous is it and is it worth it? /article/2520742-plug-in-solar-is-coming-how-dangerous-is-it-and-is-it-worth-it/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Wed, 01 Apr 2026 11:00:28 +0000 /?post_type=article&p=2520742 2520742 This state’s power prices are plummeting as it nears 100% renewables /article/2514985-this-states-power-prices-are-plummeting-as-it-nears-100-renewables/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Wed, 11 Feb 2026 12:13:49 +0000 /?post_type=article&p=2514985 2514985 Australia is getting free electricity – will other countries follow? /article/2503532-australia-is-getting-free-electricity-will-other-countries-follow/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Fri, 07 Nov 2025 17:00:10 +0000 /?post_type=article&p=2503532 2503532 Solar energy is going to power the world much sooner than you think /article/2500013-solar-energy-is-going-to-power-the-world-much-sooner-than-you-think/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Thu, 23 Oct 2025 11:00:27 +0000 /?post_type=article&p=2500013 2500013 What made solar power the most desirable energy source on the planet? /article/2497266-what-made-solar-power-the-most-desirable-energy-source-on-the-planet/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Wed, 24 Sep 2025 18:00:00 +0000 http://mg26735622.800 2497266 Sun-powered device extracts lithium without wrecking the environment /article/2495240-sun-powered-device-extracts-lithium-without-wrecking-the-environment/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Fri, 05 Sep 2025 14:19:22 +0000 /?post_type=article&p=2495240
Lithium-rich brine in an evaporation pond in the Atacama desert, Chile
John Moore/Getty Images
The mining of lithium for batteries – the key to the electric vehicle revolution and levelling out the power supplied by renewables – is environmentally damaging. But an experimental sun-powered method that produces fresh water as well as lithium could make it more sustainable. Today, most lithium is obtained from underground brine reservoirs in the Andes. The brine is concentrated by letting it evaporate in open-air ponds for months, and the subsequent extraction of lithium carbonate from the concentrated brine requires large quantities of fresh water. What’s more, as the brine is pumped out of the reservoirs, fresh water in the rocks above may flow down to replace it, causing the water table to fall. In other words, mining has a major impact on the water supply. Many groups are working on that don’t require open-air evaporation. One such approach, developed by at Lanzhou University in China and her colleagues, would also produce freshwater that could be used or to be pumped back underground. The team based their technique on a form of manganese oxide that has two key properties. Firstly, it converts a lot of the sunlight falling on it into heat. Secondly, it can selectively bind to lithium ions. In their design, a thin layer of brine or seawater flows down a sun-facing layer of manganese oxide. As the sun warms the material, the water evaporates and the lithium ions bind to the oxide. Once the layer is saturated, the ions can be removed using an acidic solution, and the material can be reused. Because the process takes place inside a sealed system, the water that evaporates condenses out and can be harvested. The team has tested a small prototype over five cycles of lithium adsorption and release, and the harvested water met the drinking standards of the World Health Organization.
“It is very clever,” says at the University of Florence in Italy. In principle, it could provide a more sustainable source of lithium, he says. “The paper looks credible,” says Bardi. “The potential problem I can see is the stability of the material: for how many cycles can it be used in real-world conditions?”
Journal reference:

Advanced Functional Materials

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Why solar power is the only viable power source in the long run /article/2495031-why-solar-power-is-the-only-viable-power-source-in-the-long-run/?utm_campaign=RSS|NSNS&utm_content=solar-power&utm_medium=RSS&utm_source=NSNS Wed, 03 Sep 2025 19:19:01 +0000 /?post_type=article&p=2495031 2495031