Leapting secures USD 14.5m to advance solar robotic tech  Renewables Now
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India to require domestically produced solar cells for all projects from June 2026  energiesmedia.com
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PUBLISHED : 19 Mar 2026 at 05:48
NEWSPAPER SECTION: Business
WRITER: Yuthana Praiwan
Small businesses and households are being urged to reduce their reliance on the state electricity grid and adopt solar power solutions, as global energy price volatility threatens to drive up costs, despite Thailand’s capped power tariffs, according to solar firms.
Caretaker energy minister Auttapol Rerkpiboon recently announced a temporary ceiling of 3.88 baht per kilowatt-hour for the period from May to August.
But industry analysts warn that rising fuel prices, driven by the conflict in the Middle East, will eventually push electricity costs higher.
Oil and liquefied natural gas (LNG) shipments through the Strait of Hormuz have been disrupted by the conflict, tightening global supply and inflating prices.
New Energy Plus Solutions, a solar panel importer and installer, is calling on the incoming government to expand public access to solar technology.
The company said that self-generation is the most sustainable way for households and small and medium-sized enterprises (SMEs) to shield themselves from future energy shocks.
The appeal comes as parliament prepares to vote on a new prime minister on March 19, paving the way for a new cabinet.
Before the House was dissolved in December, the Anutin Charnvirakul administration had already announced incentives, including tax breaks for 90,000 households installing rooftop panels and plans for solar-powered water pumps across 700,000 rai of farmland.
Treerat Sirichantaropas, chief executive of New Energy Plus, proposed that the government introduce low-interest loans capped at 3% to help households and SMEs finance installations.
“This is a long-term solution for people to survive the energy crisis,” he said, noting that savings from reduced grid dependence could be reinvested into solar systems.
Meanwhile, Prime Road Power, a SET-listed solar farm operator, sees growing opportunities in residential projects. Chairman Somprasong Panjalak said that the crisis is accelerating lifestyle adjustments, with solar self-generation emerging as the most practical option.
Adding pressure to the market, Chinese solar panel prices are rising as Beijing plans to gradually scrap export value-added tax rebates from April 1, a move aimed at curbing oversupply and easing trade tensions.
In Thailand, electricity prices are expected to follow LNG costs. The government is likely to instruct the Electricity Generating Authority of Thailand and PTT Plc, the country’s main LNG importer, to subsidise the power tariff, analysts note.
The Energy Regulatory Commission is expected to release details soon regarding the financial burden these state enterprises will shoulder.
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India’s solar manufacturing surge gains pace ahead of June 2026 domestic content mandate  energiesmedia.com
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Number of rooftop solar PV systems installed in Spain 2016-2024, by sector  Statista
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Chinese solar module maker Risen Energy has introduced a 475 W bifacial solar module with a power conversion efficiency of 23.8% to the Australian market, targeting the rooftop market.
Image: Risen
Risen Energy has announced the official launch of its ​​n-type 475 W bifacial tunnel oxide passivated contact (TOPCon) solar modules​​ in the Australian market, saying the product is perfectly tailored to local requirements.
“Featuring a compact design, the product delivers optimised weight, performance, and reliability, making it an ideal solution for Australian rooftop solar applications,” the manufacturer said.
Risen said the RSM96-11-475BNDG module has a power output of 475 W and a power conversion efficiency of 23.8%. The open-circuit voltage is 36.42 V, the short-circuit current is 16.52 A, and maximum system voltage is 1,500 V. The operating ambient temperature ranges from -40 C to 85 C and the manufacturer said it has a low temperature coefficient of -0.29%/°C that minimises high-temperature power loss.
“With 23.8% high efficiency and outstanding weak-light performance, the module fully leverages Australia’s abundant sunlight to maximise energy yield per unit area,” Risen said.
The panel measures 1,722 mm × 1,134mm × 30 mm and weighs 21.5 kg. It features a black anodized aluminium alloy frame and 1.6 mm of heat strengthened glass with an anti-reflection coating. Its junction box has an IP 68 rating.
Risen said the compact and lightweight design, high power output, and long-term durability means the RSM96-11-475BNDG module is “perfectly suited for roof load and space constraints while reducing installation costs,” adding that its “modules meet Australia’s solar demands with proven performance, becoming a key enabler of the country’s energy transformation.”
Risen offers a 25-year product warranty and a 30-year power output guarantee. Annual linear degradation over 30 years is indicated at 0.40%. The degradation in the first year is purportedly 1% and 30-year end power output is guaranteed to be no less than 87.4% of the nominal output power.
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New data from UK-based energy supplier Octopus Energy has shown a 27% increase in British solar installation enquiries since the conflict in the Middle East began.
March 19, 2026
Octopus Energy’s data looked at the number of solar enquiries between 28 February to 7 March 2026 in comparison to average weekly enquiries.
Since the conflict escalated in late February, gas prices have increased by over 60%. As the conflict continues, households will likely look to invest in energy sources for their homes that are self-reliant and renewable.
This will let them decrease their reliance on gas, reducing the financial blow of the gas market’s current volatility. 
“We are seeing a fundamental shift in the national psyche when it comes to energy. With the second energy market shock in less than five years, homeowners are looking for security,” Rebecca Dibb-Simkin, Chief Product Officer at Octopus Energy, said.
Furthermore, the Microgeneration Certification Scheme (MCS)’s current industry data has demonstrated that the UK is experiencing a record year for solar. In 2025, over 260,000 homes installed solar, resulting in a total of 1.8 million UK households generating solar energy.
Related:Good Energy expands into Scotland by acquiring Low Energy Services
More data from MCS showed that UK battery installations have almost doubled year-on-year, enabling households to store their surplus energy for peak evening use.
Combined, Octopus Energy and MCS’s datasets seem to indicate a trend of UK households seeking to improve their energy security through renewable resources.
Dibb-Simkin added, “This surge in solar interest suggests people now see their rooftops as a frontline of their financial resilience. By generating their own power, they can help to insulate their bank accounts against global energy crises.”
In a release discussing its February- March findings, Octopus Energy cites UK-based Norwich homeowners Elizabeth and Keith Stork as a case study. The couple explained that they save £60 (US$79) a month on their energy bills due to their solar and battery installations.
A report from the Department for Energy Security and Net Zero (DESNZ) corroborated this sentiment, as it pointed out that home solar arrays reduce reliance on the national grid and provide a reduction in household bills. 
DESNZ’s June 2025 Solar Road Map specifically noted that, on average, a homeowner could reduce their energy bills by around £500 (US$665) by utilising rooftop solar PV.
Gas prices in the UK and Europe rose again on Thursday morning (19 March) following overnight attacks on energy infrastructure in the Middle East, putting further pressure on UK households to reduce their gas bills.
Read more about:
Catie Owen
Contributing writer
Since 2019, Catie has been writing news, interviews, client content and editing magazines. In recent years, her interest in sustainability has led her to pursue renewable energy as her primary beat. Having written primarily about solar energy and storage, Catie also enjoys covering the positive human impact of renewable technology.
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1/2 Pcs Small Solar Panel 1W 3V 100mA With Cable – Mini DIY Polysilicon Epoxy Cell Charger For LED Lights, Fans  ruhrkanal.news
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As of March 2023, Waree Energies was by far the largest manufacturer of solar photovoltaic modules in India, with an annual capacity of over **** gigawatts. Vikram Solar was another big player in module manufacturing. The company based in Kolkata had an annual manufacturing capacity of roughly *** gigawatts. As of January 2023, Gujarat was the leading state in India in terms of solar PV module manufacturing capacity.

Solar energy is the largest renewable energy source in India in terms of installed capacity. In 2022, the Asian country had more than ** gigawatts of solar capacity installed. Although India failed to reach the 100 gigawatts targeted for 2022, the use of solar has grown considerably in the last few years. From 2020 to 2022, India’s solar installations increased by roughly ** percent. Furthermore, India has set ambitious targets for 2030, planning to quadruple the existing capacity by that year. India’s large land area and sunny weather make it ideal for the deployment of solar technologies.

Apart from solar, India generates a substantial amount of energy from wind and hydropower sources. In 2022, wind power production in the Asian country stood at roughly ** terawatt hours and the cumulative wind power capacity reached ** gigawatts. In comparison with the growth seen in the solar photovoltaic sector, India’s wind capacity has remained relatively stagnant. Nevertheless, India plans to invest in wind energy in the next years and has set a target of *** gigawatts of wind installed by 2030, over four times the current capacity.
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Home > Mains Article > Solar Sourcing Norm
Solar sourcing norms in India now include wafers and ingots to reduce Chinese imports and boost domestic manufacturing across the solar supply chain.
By Vajiram Mains Team – Mar 19, 2026, 10:21 IST
Source: IE | FE
Last updated on March, 2026
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Q1. What are solar sourcing norms in India?+
Ans. Solar sourcing norms in India mandate use of domestically manufactured components like modules, cells, wafers, and ingots to reduce import dependence and boost local solar manufacturing capacity.
Q2. Why is India expanding solar sourcing norms?+
Ans. India is expanding solar sourcing norms to reduce dependence on Chinese imports, strengthen domestic supply chains, and achieve self-reliance in renewable energy manufacturing.
Q3. What is the ALMM framework in solar sourcing norms India?+
Ans. The ALMM framework lists approved domestic manufacturers for modules, cells, and wafers, ensuring cascading sourcing requirements across the solar value chain under solar sourcing norms India.
Q4. What challenges exist in upstream solar manufacturing?+
Ans. Upstream segments like wafers and polysilicon face high capital costs, low capacity, and competition from cheaper Chinese imports, slowing progress despite policy support like the PLI scheme.
Q5. How will solar sourcing norms impact imports?+
Ans. Solar sourcing norms India will gradually reduce imports by mandating domestic production of key components, strengthening energy security and boosting local manufacturing ecosystems.
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Taylor Troeth, Property Journalist
First published 27 Oct 2025, 3:58pm
Environmentally-friendly homeowners now have the upper hand in the property market, new data reveals.
Aussie ecowarriors who are putting sustainability at the forefront of their homes are now adding an estimated $23,100 nationally onto the value of their homes simply by adding solar, according to a Commonwealth Bank supported report.
On top of that, more than four in five Australians are prepared to pay extra for homes featuring energy saving technologies, according to Green.com.au.
While many are deterred by the cost to install, a new analysis from iSelect revealed it can take less than three years to get the return on your solar investment, which in some cities can cost you less than $5000.
Solar panels can add upwards of $23,000 to the value of your home, while also slashing bills.
Aussies are also making huge savings, with homeowners in some major cities saving more than $2000 per year on their energy costs.
iSelect has revealed where in Australia you will see the fastest returns when adding solar to your home by reviewing solar panel prices, government rebates, local solar exposure data from the Bureau of Meteorology, average retail electricity and feed-in tariff rates.
The analysis has revealed Perth homeowners have the fastest return on investment for solar panels without a battery using 4kW per day, where systems pay for themselves in about four years and nine months.
The payback period shortens with higher consumption – Perth properties using 7kW per day can see a return in just three years and eight months, while those using 4kW per day in about four years and nine months.
Perth also has the lowest cost across most system sizes, making it one of the most affordable states to invest in solar, except for 10kW systems.
Adds an estimated $14,939 (2.1 per cent) to the property value in Perth and $22,594 (4 per cent) regionally.
For households using 10kW per day, Adelaide homes take the lead with solar paying itself off in just two years and three months.
Adelaide households with high-energy usage can save up to $3019 in a year once their solar-plus-battery system is paid off – the highest in Australia. This is followed by Darwin ($2611) and Sydney ($2596).
The payback period shortens with higher consumption – homes using 7kW per day can expect repayment in three years and eight months, while those consuming 10kW per day can see a return in just three years.
While solar with a battery takes longer to pay off upfront, the long-term rewards are greater. Adelaide also has the second best savings potential of more than $2050 per year.
Adds an estimated $14,093 (1.7 per cent) to the property value in Adelaide and $22,272 (4.7 per cent) regionally.
Perth and Adelaide are among the top best cities to invest in solar, according to iSelect.
In regional Northern Territory, solar added an estimated 6.9 per cent to the median house value, about $31,350, reflecting high energy demand for cooling and heating as well as abundant sunlight, according to a Commonwealth Bank and Cotality solar report.
Although Darwin had the largest upfront cost for a solar system and battery costing an estimated $21,392, it would add about $20,331 to the value of the house.
Even without a battery, Darwin households using 10kW of energy a day can save about $2143 in a year once their solar is paid off.
Based on Bureau of Meteorology data, the Northern Territory unsurprisingly tops the list for year-round solar exposure.
Sydney ranks second for both mid and high-range usage with the quickest pay back in just six years and 11 months for 7kw per day and six years and one month for 10kW per day.
Sydney and Adelaide lead for payback with batteries, due to high electricity prices, which they avoid paying by storing solar power for evenings.
Solar power systems add an estimated $19,179 (1.6 per cent) to the property value in Sydney and $23,568 (3.7 per cent) regionally.
In Brisbane, solar panel systems are estimated to add about $30,219 to the value of the house.
When it comes to the amount of how long it will take to pay off, Brisbane sits in the middle of the range.
Brisbane has one of the higher savings amounts for solar systems with a battery, just behind Adelaide, Darwin and Sydney.
During payback, the savings are between $1616 and $2645 depending on the size of the system.
For a higher range household without a battery, it will take about three years and nine months to pay off.
In regional Queensland, solar power systems add an estimated $28,100 (3.6 per cent) to the value of a property.
iSelect reveals whether it is worth installing solar.
Melbourne had the cheapest upfront cost across the country for just a solar system with no battery at $4870, according to iSelect. For the higher range 10kW per day it would take just over four years to pay off.
At the lower end of the rankings, Melbourne households still benefit although they see the smallest amount of total long term energy savings at a max of $1721 per year.
Lower solar exposure and cheaper retail electricity rates both contribute to the smaller long-term return in Victoria.
While that is smaller compared to sunnier states, it is still a significant return once systems are paid off.
Solar power systems add an estimated $24,369 (2.8 per cent) to the property value in Melbourne and $18,892 (3.1 per cent) regionally.
Hobart sees the slowest returns for mid- and high-range usage. At 7kW per day, it takes about six years and seven months to pay off, while 10kW per day takes five years and nine months.
This is because Hobart has a high cost for solar systems and despite a relatively high feed-in tariff rate, electricity prices and solar exposure are the lowest in the country.
Despite this, it is estimated to add about 5.4 per cent, or $30,500 to the value of the home.
Tasmania also has one of the highest and most consistent feed in tariffs, with standard rates at 8.78 per kWh.
In regional Tasmania, solar power systems add an estimated $18,232 (3.1 per cent) to the value of a house.
Canberra offers the lowest installation cost when it comes to a 10kW system at a rate of 75c per watt.
Canberra households can also make a decent saving of $1547 per year with a 10kW system without a battery, or $2157 with a battery.
Solar power systems add an estimated $23,285 (2.1 per cent) to the property value in the ACT.
iSelect analysis of payback periods. Picture: iSelect
iSelect analysis of payback periods. Picture: iSelect
Savings for solar without a battery. Picture: iSelect
Savings for solar with a battery. Picture: iSelect
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Stefany Payne is stuck paying for a system that has only raised her bills
Stefany Payne is stuck paying for a system that has only raised her bills
Stefany Payne is stuck paying for a system that has only raised her bills
It sounded like a solid deal to Stefany Payne.
Install 10 solar panels on her roof. Watch her electric bill go down.
But nearly a year and a half after the Kansas City, Kansas, teacher bought a $49,000 solar panel system from a front-door salesman along with tree trimming and energy upgrades for her home, she is trying to hire an attorney to get out of the 25-year contract.
Her solar system is not lowering her bills. No one has shown up to trim the trees to allow for better solar coverage. And the insulation, duct sealing and smart thermostat she paid for in her contract never arrived, either.
The total payments for her solar system, with interest? More than $77,000.
The lender could potentially put a lien on the system if she stops making payments.
“If I do not get this resolved in the next couple of years, I would not be able to sell my home,” she said.
Payne contacted KMBC 9 Investigates to warn others about door-to-door solar salesmen. She is the latest customer to reach out to KMBC with concerns about deceptive business practices of solar salesmen. She is now searching for an attorney to represent her in breach of contract claims, aiming for arbitration or a settlement with the lender since the company never delivered on its promise.
The “Solar Bro” industry has come under fire after scores of homeowners got duped into contracts with companies that have now gone bankrupt, closed up shop or will not respond.
The company that sold Payne her system, G3 Solar, has an F rating from the Better Business Bureau and is facing a lawsuit in Ohio and government fines and actions in Utah. KMBC emailed an address on file for the company but did not hear back.
Reputable solar sales workers and companies will never pressure consumers into contracts, according to Bob Solger, founder and emeritus board member of the Missouri Solar Energy Industries Association and managing partner of Solar Design Studio. Solger says you should always look to see if the company is part of the MSEIA in Missouri, or Clean Energy Business Council in Kansas, both organizations that abide by codes of ethics.
“These companies have been vetted and are reputable, similar to what the Better Business Bureau would do. But this is specific to solar,” Solger said.
Solger said if they do not have enough cash, consumers should always work with local banks to potentially take out a home improvement loan.
The Better Business Bureau does also have tips on solar scams.
If you are a victim of solar panel loan fraud or your solar panel system is not working as advertised, email investigative reporter Matt Flener at investigates@kmbc.com.
Hearst Television participates in various affiliate marketing programs, which means we may get paid commissions on editorially chosen products purchased through our links to retailer sites.

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Avantus and Toyota Tsusho America have completed construction of a 159 MWdc solar project in Texas, adding another large-scale clean energy asset to the state’s fast-growing solar fleet.
The Norton Solar Project, in Runnels County southwest of Fort Worth, reached “substantial completion” in October 2025 and is now operational. The project’s full output is tied to a long-term virtual power purchase agreement (VPPA) between Toyota Tsusho America and Toyota Motor North America.
The VPPA means Toyota Motor North America will be able to match its electricity use with the output from the Norton solar plant, supporting its broader clean energy goals. Corporate buyers like Toyota have increasingly turned to VPPAs to secure renewable energy without directly owning generation assets.
Toyota Tsusho America, the Toyota Group’s trading and project development arm that structures energy deals, partnered with Avantus to lock in clean power for Toyota Motor North America.
The Norton project created nearly 250 jobs at peak construction and is expected to continue delivering economic benefits to Runnels County over its lifetime.
Avantus led development and project delivery, while renewable energy company RES handled engineering, procurement, and construction.
Norton is one piece of Avantus’s broader buildout across the western US. The company, which develops, owns, and operates utility-scale clean energy projects, says it has around 24 gigawatts of solar and 75 gigawatt-hours of energy storage in its portfolio across California and the Desert Southwest.
Read more: Google secures 1 GW solar deal as Texas data‑center load surges
If you’ve ever considered going solar, make it easy by finding a trusted, reliable solar installer near you that offers competitive pricing by checking out EnergySage. It has hundreds of pre-vetted solar installers competing for your business, ensuring you get high-quality solutions and save 20-30% compared to going it alone. Plus, it’s free to use, and you won’t get sales calls until you select an installer and share your phone number with them. 
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Michelle Lewis is a writer and editor on Electrek and an editor on DroneDJ, 9to5Mac, and 9to5Google. She lives in White River Junction, Vermont. She has previously worked for Fast Company, the Guardian, News Deeply, Time, and others. Message Michelle on Twitter or at michelle@9to5mac.com. Check out her personal blog.
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Tongwei Shines at All-Energy Australia 2025|Company News  Solarbe Global
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EMEBAY Solar Fountain Pump With Battery Backup – 10V Submersible, Lifts Water 100cm | For Bird Bath, Pond, Garden | Solar Panel Kit  ruhrkanal.news
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10AWG Solar Panel To O Ring Cable – 25cm, 4-Pack, For Charge Controllers & Power Stations  ruhrkanal.news
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Luke Bell had a nagging worry following his last year’s test flight with the first solar-powered drone. Could a drone truly run solely on solar power and stay aloft for far longer than anyone imagined possible on a clear day? He was previously familiar with how the basic components worked in a lesser scale. The initial version flew for about three minutes before the panels snapped and it crashed to the ground.


This time, he wanted to go even further, so he shortened the arm length on his quadcopter frame by 70 grams, resulting in a loss of around 4 watts of power right away. The solar panels themselves received a significant boost, with new stronger TPU sleeves wrapped around each one to withstand a little of wind without snapping. To further reduce mass, he rerouted the wiring to make it shorter and neater.

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Thirty two small solar panels were arranged in an eight by four grid and soldered together into a single unified array, capable of pushing out 110 watts in full daylight, more than enough to keep the drone airborne. Getting the balance right took some careful thinking. Bell mounted the entire panel platform lower on the carbon fiber frame to bring the center of gravity into the right place, which cleared up the stubborn wobble that had been showing up during early test flights. Computer simulations confirmed that the propellers kept spinning cleanly even with the panels sitting directly above them, which was one of the trickier design questions to answer.

Under the hood, a pair of T-Motor Antigravity MN4004 motors spin compact 18 by 6 inch propellers through a T-Motor F60A Mini speed controller, with a T-Motor H7 Mini flight controller and a GPS unit keeping everything stable once the settings were dialed in. Getting to that point took some patience though. Early flights revealed that the solar panels were interfering with the GPS signal, making it difficult to lock onto satellites reliably. Bell had to reposition the unit and recalibrate the compass several times before it was consistently picking up 20 or more signals and holding its position the way he needed it to.

Cape Town’s unpredictable winds created sudden power spikes that the solar panels couldn’t handle on their own, and passing clouds could cut the output in a matter of seconds. To smooth things out, Bell added a small five cell lithium ion pack connected through a set of diodes. It would only kick in when the solar array needed backup, feeding power to the motors just in time to keep things steady, and whenever the sun was generous enough it would quietly recharge at around 11 watts.

So, with the drone completely completed, he took it to the skies over Stellenbosch for a real test. A sunny morning meant he could start it and watch the voltage rise to 20.66 volts in the bright sunlight. The drone took off effortlessly and locked into position hold. Minutes passed, and with only a little manual correction here and there, he watched it sail along slowly. An hour passed, then two, then three and a half, and the machine kept buzzing away smoothly.

At the five hour mark the numbers told the story, 5 hours, 2 minutes, and 21 seconds in the air before Bell finally brought it in for a gentle landing. The entire flight ran on solar power alone, with a small backup battery there purely as a safety net for moments when the panels weren’t pulling in quite enough sunlight. No fuel, no heavy battery pack, just a handful of solar panels drinking in as much South African sunshine as they could manage.

That time shattered the previous flight record for a radio controlled quadcopter, and it will take something special to beat it. Bell is already thinking about what comes next, with plans to ditch the backup battery entirely and squeeze even more efficiency out of the design, likely with a few more tweaks to the frame along the way.
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WexfordLocal.com
News and Sport and Events that matter across County Wexford.
By Dan Walsh at Wexford County Council meeting and Gusserane
Gusserane Community Action Group protested outside County Hall, Wexford, before the December meeting of Wexford County Council and representatives of the group are present in the public gallery at every meeting since watching the contentious issue of solar farm applications.
The group protested a planning application and renewable energy project, describing it as “a very extensive and intrusive sized energy development”—specifically, solar farms in the district.
The group told WexfordLocal.com that the size of this development is not in any way sympathetic to the small tight knit rural community of Gusserane and neighbours in Cushinstown and Newbawn and this rural community was never designed for a high-impact industrial energy complex!
They also alleged that “prime agricultural land is being taken to solar farm – this is not allowed in many countries -and land in the same area sold for agriculture at record breaking prices last year, “The implications of this will have a devastating effect on local farmers who lease land to produce crops and vegetables and rear livestock. Farmers and the associated agri-industries will be adversely affected by the imposition of this industrial energy compound.”
There are other worries too, like the high risk of pollution and habitat damage to the environment and the Terrerath and Owenduff rivers that flow towards Bannow and the destruction of hedgerows and biodiversity corridors used by pollinators, birds, and wildlife.
Addressing the issue at the December meeting, Chief Executive Eddie Taaffe said it was a national issue and needs to be addressed nationally.
At the March meeting of Wexford County Council a motion in the names of Cllrs Michael Sheehan, John Dwyer, Marty Murphy, Bridín Murphy, John Fleming and Pat Barden was put forward, but it received an unfavourable response from the chamber and was put to the meeting by Cathaoirleach Cllr Joe Sullivan as an amendment that read; “The Council  calls on the Minister for Housing, Local Government and Heritage to immediately issue Solar Farm National Planning Guidelines as a matter of urgency.” The motion proposed by Cllr Oliver Walsh and seconded by Cllr Anthony Donohoe was carried 14 votes to 10.
Cllr Pat Barden argued strongly against the proposed solar farm activity in Gusserane and felt it was inappropriate to “use prime agricultural land for solar farms.”
“We are on a slippery slope here,” said Cllr Barden, who believed that if the solar farms go ahead, “the family farm is dead.”
Cllr John Dwyer drew attention to “the visual intrusion” it would cause.
Cllr Frank Staples said; “We can’t dictate to farmers what to do with their land” while Cllr Pip Breen pointed out that “tillage farmers are losing money” and need financial security.
Cllrs Anthony Donohoe and Robbie Staples supported “a business decision chosen by the local farmers.”
Meanwhile, anti-solar farm posts are common around the Gusserane district and the issue has some way to go, although a public consultation event will be part of the process.

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In a breakthrough poised to reshape the future of photovoltaics, researchers have unveiled a novel solution addressing one of the most persistent challenges in perovskite solar cells (PSCs)—their vulnerability to reverse-bias conditions. These conditions, often encountered in real-world installations due to partial shading or series connections, have long threatened the stability and longevity of PSCs, despite the technology’s promising efficiency, affordability, and simplicity of manufacturing.
Perovskite solar cells have captivated the attention of scientists and engineers for their rapid evolution in power-conversion efficiencies, matching or even surpassing traditional silicon-based technologies. Their intrinsic advantages, including low-cost materials and scalable, energy-efficient fabrication methods, make them prime candidates for future widespread deployment. Yet, a critical roadblock has been their instability under reverse electrical bias, a state where the cell operates under voltage conditions opposite to their intended forward operation. This state can lead to performance degradation and even permanent damage, stalling PSCs’ path toward commercial viability.
Addressing reverse-bias stress traditionally relied on device architectural engineering aimed at boosting breakdown voltage or incorporating protective elements to withstand harsh electrical conditions. None, however, have fully eradicated the issue without adding complexity or cost. The new approach, introduced by Mohammadi, Ji, Sachsenweger, and colleagues, introduces a conceptually and fundamentally different strategy: integrating a memristor directly into the solar cell architecture, creating what they term a “Memsol.”
Memsol marries the photovoltaic function of PSCs with the dynamic electrical properties of a memristor—a device known for its memory resistance and ability to toggle between conductive and resistive states based on operating conditions. By selectively depositing an additional metal-insulator layer within the PSC’s structure, researchers engineered a memristor element sharing critical components with the solar cell itself. This integration is meticulous, ensuring the memristor operates synergistically without compromising light capture or electrical output.
The beauty of this technology lies in its self-regulating behavior. Under normal operation, the Memsol behaves as a standard high-efficiency solar cell. However, when exposed to adverse reverse-bias or shading conditions, the memristor component automatically switches to a low-resistance state, effectively bypassing the stressed cell and preventing damage. This built-in protective mechanism negates the need for external bypass diodes, which complicate module design and add costs.
Experimentation on a string of nine serially connected Memsol units revealed remarkable robustness under reverse-bias testing and illumination conditions that typically degrade conventional PSCs. The integrated memristor maintained the integrity and performance of the solar cells, seamlessly alternating between energy generation and protective bypass modes. Such adaptability under variable operational stress is an unprecedented advance in PSC technology.
Beyond testing, the implications of Memsol reach into the practical realm of photovoltaics deployment at scale. Conventional modules must integrate bulky external bypass diodes to prevent cell failure during shading or fault conditions, increasing complexity and limiting design possibilities. Memsol’s intrinsic bypass capability offers potential for simplified module architectures, improved reliability, and reduced manufacturing costs—factors critical to accelerating perovskite commercialization.
Technically, the realization of Memsol involves precision in materials engineering and understanding ion migration phenomena inherent in perovskites. The memristive switching relies on controllable filament formation within the metal-insulator interface, coupled electrically to the perovskite absorber. Researchers carefully optimized the layers to balance conductivity, switching thresholds, and durability, ensuring that the protective mechanism activates only under stress without affecting normal photovoltaic performance.
The research draws on interdisciplinary expertise, bridging photovoltaics, materials science, and electronic device engineering. Innovations include selective area material deposition, interface engineering, and electrical characterization that collectively harness memristor physics for solar energy applications—a marriage of memory devices and energy harvesting that marks a pioneering frontier.
With these developments, the scientists envision a new generation of perovskite-based solar modules that can withstand practical operational stresses previously deemed detrimental. Such technology promises to enhance lifetime, reduce maintenance, and ultimately foster trust in PSCs for commercial and industrial photovoltaic markets.
As the photovoltaic landscape seeks sustainable, efficient, and cost-effective energy solutions, overcoming stability challenges is paramount. The Memsol concept, demonstrated in laboratory conditions but with a clear roadmap for scale-up, offers an elegant, integrated pathway forward. Combined with the inherent merits of perovskite materials, this advance could significantly accelerate the commercialization timeline, opening avenues for photovoltage conversion technologies less reliant on silicon and more in tune with scalable, versatile manufacturing.
In summary, this novel integrated memristor approach signifies an extraordinary leap in the durability and practicality of perovskite solar cells. By embedding a smart, responsive bypass mechanism within the solar cell itself, researchers have unlocked the potential for PSCs to operate reliably under real-world complexities without external hardware additions. As this technology matures, it might well redefine expectations for next-generation solar energy systems, promising higher resilience, simpler designs, and lower costs that collectively can transform the renewable energy landscape.
Subject of Research: Perovskite solar cells with integrated memristor technology to mitigate reverse-bias instabilities.
Article Title: Integrated memristor for mitigating reverse-bias in perovskite solar cells.
Article References:
Mohammadi, M., Ji, F., Sachsenweger, T. et al. Integrated memristor for mitigating reverse-bias in perovskite solar cells. Nature (2026). https://doi.org/10.1038/s41586-026-10275-3
Image Credits: AI Generated
DOI: https://doi.org/10.1038/s41586-026-10275-3
Tags: breakdown voltage improvement techniquescombating reverse-bias degradation in PSCsenergy-efficient fabrication of PSCsenhancing commercial viability of PSCsimproving PSC durability under reverse biasmemristor integration in perovskite solar cellsmemristor-enhanced solar cell architecturesnovel solutions for PSC reverse-bias stressphotovoltaic device reliability innovationsreverse-bias protection in photovoltaicsscalable low-cost perovskite solar technologiesstability challenges in perovskite solar cells
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Marstek has unveiled a plug-in storage system with a two-kilowatt-hour capacity. The device plugs into a standard household socket and is designed to store solar power from balcony systems or draw in cheap electricity from dynamic pricing tariffs.
Image: Marstek

From ESS News
Chinese battery manufacturer Marstek has introduced the Venus B, a plug-in energy storage device that can be connected via a standard Schuko socket. The system is designed for use with small photovoltaic systems and for optimizing energy costs with dynamic electricity tariffs.
The storage unit has a usable capacity of 2 kWh and is equipped with an integrated inverter. The maximum charging power from the grid is 1.5 kW. According to the manufacturer, the device can output either 800 W or up to 1.5 kW of power.
The device plugs into a wall socket and can thus absorb excess solar power from a plug-in solar system on the same circuit. Alternatively, the battery can also be charged with cheaper electricity from dynamic tariffs and discharged again when prices are higher. As is often noted, a profit may depend on round-trip efficiency.
According to Marstek, the storage system can be installed without any modifications to the existing plug-in solar system and is compatible with various photovoltaic systems.
The Venus B uses lithium iron phosphate (LFP) cells, which are said to have a lifespan of 6,000 charge cycles and a specified residual capacity of 80 percent. The battery operates with a depth of discharge of 90 percent.
To continue reading, please visit our ESS News website.
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MONTGOMERY, Ala. (WSFA) – A temporary ban on solar power facilities and solar farms could be in Alabama’s near future.
There are a number of bills, some of which would take effect with Gov. Kay Ivey’s signature, that would put a one-year pause on the construction and operation of new solar power facilities in the state.
House Bill 617 and Senate Bill 354 were heard in committee earlier this week. The House version of the bill is still waiting for a final committee vote. The Senate version of the bill passed out of committee on Tuesday.
However, both bills had amendments added to them that exclude the ban from being applied to areas of the state that are served by the Tennessee Valley Authority.
“This is not a matter of trying to shut down an industry,” said Sen. Greg Albritton (R-Range), the sponsor of SB 354. “This is simply a matter of being able to grasp what’s happening in our state and in our communities.”
If the bill were to get Gov. Ivey’s signature, they would take effect immediately.
Senate Bill 372 was carried over by a committee Thursday morning. Carrying a bill over means that lawmakers want to wait to conduct a final vote on the bill, allowing the bill’s sponsor and other lawmakers to add amendments or discuss the bill further.
The bill also looks to ban the construction or operation of new solar power facilities for one year and would only apply to the unincorporated area of any county served by the Tennessee Valley Authority. Huntsville, for example, would be exempt.
“The fact is, without the federal subsidies, the solar energy cannot stand on its own, it can’t compete in the open market,” said Sen. Larry Stutts (R-Tuscumbia), the sponsor of SB 372.
However, lawmakers in both parties expressed concerns about a potential pause.
“It seems to me that this is limiting individual property owners — farmers — the right to use their property,” said Sen. Linda Coleman-Madison (D-Birmingham).
Lawmakers in the committee voted to carry over SB 372, which means they want to work more on the bill’s language before conducting a final committee vote.
“While I’m not a huge proponent of [solar], and I see the negatives of it, it is a part of the energy equation that we have to take into consideration,” said Sen. Sam Givhan (R-Huntsville).
If SB 372 were to get Gov. Ivey’s signature, it would take effect immediately.
House Bill 618 and Senate Bill 358 are companion bills that would give the county commissions of Baldwin and Mobile counties the ability to regulate solar farms.
The bill says that the county commission can regulate the permission, construction, place or operation of solar farms in the county to protect the coastline and watershed.
Regulations would include ‘establishing standards, specifications, criteria, and conditions relating to permitting, construction, place or operation of solar farms in the unincorporated areas of the county.’
If signed into law, both bills would take effect Oct. 1.
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Solar Panel Coatings Market Outlook 2031
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Material Innovations Improving Solar Module Performance: The Alishan Approach  SolarQuarter
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Company looks to install 17-acre solar farm in Hamburg  wivb.com
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Sustainable living can be a lot more attainable than you think.
Photo Credit: iStock
Sustainable living means different things to different people, and there’s no right or wrong way to do it as long as sustainability is at the core of your actions. These five situations are all very different and also very cool.
A couple in New Zealand converted a little church and the surrounding grounds into a beautiful garden compound featuring native plants, helping them to feel like they’re living with nature.
The old church features solar panels on the roof, and they have a vegetable garden that provides most of the veggies they eat year-round, saving a lot of money. On top of that, the fact that they surrounded themselves with plants native to the area offers support to wildlife as well.
Read more →
Malissa and Chris Tack of Washington state turned an empty lot into a small community featuring three tiny homes and shared amenities like a fire pit and BBQ area, as well as a vegetable garden, allowing residents to grow their own veggies.
When the lot was first purchased, it had to be hooked up with water and power, but the couple has since turned to solar panels and rainwater collection to supplement the utilities. One of the homes is available for rent on Airbnb, so anyone can experience this lifestyle.

Read more →
An off-grid couple in Hawai’i stumbled upon an incredible find while clearing part of their property. The couple found loads of vanilla vines that could be worth a lot of money, which they called a “gold mine.” But rather than taking that vanilla vine and trying to make a buck, they traded it for a truckload of other plants they’d plant on their property.
The video narrator goes on to explain that trading has become one of her favorite parts of off-grid life, allowing her to exchange plants, stories, and energy instead of money.

Read more →
This TikToker traded big city living for a yurt in the country in a close-knit rural community, and couldn’t be happier. She has an outdoor kitchen where she cooks and heats water for dishes, and she spends most of her time outside with her dog.
She and the others pay rent to live on the land — much less than she ever paid in the city — and she gets to experience the peace and tranquility of nature every day.

Read more →
💡These best-sellers from Quince deliver affordable, sustainable luxury for all
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A Vermont cabin owner’s solar setup is proof of solar power’s resilience, even in climates that experience harsh, snowy winters. The owner shared a picture on Reddit showing their solar setup and explained that they built the cabin in 1987, when they paid just $400 for their first solar panel and added a second panel a year later.
Those solar panels have powered the off-grid getaway ever since and still produce energy today.

Read more →
Which of these savings plans for rooftop solar panels would be most appealing for you?
Save $1,000 this year 💸
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Hamilton Locke’s Matt Baumgurtel warns of a seismic shift as distributed energy resources with “zero marginal cost” reshape grid dynamics and push developers toward 6+ hour battery storage and hybrid strategies.
The Australian energy storage market stands at a critical inflexion point, where the explosive growth of rooftop solar and home batteries threatens to fundamentally undermine the business case for utility-scale generation, forcing developers to radically rethink project economics, duration strategies, and who they’re selling power to.
Matt Baumgurtel, partner and new energy lead at law firm Hamilton Locke, paints a stark picture of the challenge facing utility-scale developers: they’re now competing against distributed energy resources (DER) whose owners assign zero value to exported electricity, creating what he describes as an existential pricing threat.
“The brutally scary thing is that people who put solar on their roof and a battery storage system in their basement don’t build those assets to export electricity to the network. They do it to produce and consume their own energy,” Baumgurtel explains.
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“The marginal value, therefore, of that energy spilt onto the grid, or that available capacity to the person who owns that asset, is zero.”
This dynamic creates a perverse competitive landscape. When aggregated through virtual power plants (VPPs), these residential systems become “the single largest generator” in the market – one that will bid electricity prices down aggressively because homeowners view any payment for exported power as pure profit on energy they weren’t planning to sell anyway.
“Any dollar an owner of rooftop generation or home battery storage gets from the grid for that generation, or use of that storage capacity, is a bonus, i.e., these assets were not acquired in order to generate revenue, and hence any revenue has a perceived marginal cost of AU$0”, Baumgurtel says.
“It’s great, unless I own utility-scale assets, because now I’m competing with assets which will be traded as if they have a zero marginal cost.”
This competitive pressure feeds into what Baumgurtel identifies as the single most important question facing the Australian energy market: at what price level will the supply-demand curve eventually flatten once sufficient storage enters the system?
Several industry stakeholders have coined this “the flat duck” question, a reference to the famous duck curve that shows the gap between solar generation and evening demand. While everyone agrees the curve will eventually flatten as storage proliferates, enormous uncertainty surrounds the price point where equilibrium occurs.
“The question that everyone is trying to solve for when everyone has an opinion, and no one will be right, is: at what height or price will the flat duck fly?” Baumgurtel says.
“If you go back in time, back to when coal was the only source of electricity, coal ran 24/7 at about AU$64 (US$45.61). The question is, if you accept we’re going to get back to a flat price curve, at what price is that market going to settle? If the LCOES of your project exceeds the market-clearing price, you have a problem.
“This uncertainty stymies investment, particularly with continued reductions in BESS CapEx and substantial reductions in PV CapEx being forecast. So, investors wait, but if they wait too long, they will miss the window and will struggle to deploy capital.”
Whether that price settles at AU$45/MWh or AU$85/MWh represents “an enormous question” that will determine project viability across the sector. Baumgurtel notes that current market forecasts have a statistical probability of correctness around 64%, meaning the actual outcome could fall anywhere within a massive range.
Against this backdrop of uncertainty, Baumgurtel identifies three major trends reshaping the Australian energy storage landscape. The first and most significant: “duration is king”.
“The game of 2-hour battery storage is done. That was two years ago. Last year was the year of the 4-hour battery storage system. This year is the year of 6-hours+ of storage,” Baumgurtel says.
“Unless your project is 6-hours+ of storage, then you’re not going to get away.”
This shift reflects the evolution of the storage value proposition. Early batteries were built primarily for frequency control ancillary services (FCAS) – grid stability services that commanded premium prices.
Baumgurtel recounts how developers would install 2-hour lithium batteries at substations specifically to avoid FCAS charges, with some projects paying AU$3-5 million per quarter in penalties.
But that market has been saturated. “FCAS has been dead for two years,” Baumgurtel says bluntly. “People are now publishing articles about who killed FCAS. FCAS was six feet under the ground a year ago.”
Today’s storage market is about energy arbitrage – shifting solar generation from the midday glut to the evening peak.
“That’s shifting generation from typically 10:00 till 14:00, moving to 18:00 till 22:00,” Baumgurtel explains. “And your ability to arbitrage requires you to have a much bigger energy ‘bucket’ to fill up and empty each day.”
Longer duration also opens the door to alternative storage technologies beyond lithium-ion.
“You don’t need lithium anymore. Lithium becomes quite expensive on a MWh basis because the balance of plant cost is linear,” Baumgurtel says. “You can go to different forms of energy storage: sodium, flow [batteries], liquid air, even modular/small-scale pumped hydro.”
The second major trend Baumgurtel identifies is what Hamilton Locke has coined “battery-led hybrid” – a development strategy that flips the traditional solar-plus-storage model on its head.
“Build the battery now for 4-6 hours, have approvals, or at least the land available to put PV on later, like [in] five years,” Baumgurtel explains.
Developers sign five-year tolling agreements with trading houses, which provide stable revenue to support project finance, while securing land rights and approvals for future solar development.
“You build a battery, you sign your tolling agreement, you can finance off the back of the tolling agreement, and in five years, you’ve got an asset which is probably 50-60% repaid, and then add solar PV,” he says.
The strategy hedges against current market uncertainty while positioning developers to capitalise on expected improvements in solar economics. Baumgurtel notes that Bloomberg forecasts the levelised cost of energy (LCOE) for ground-mount solar will decline 30% by 2030, driven by automation and robotics. However, he believes the actual reduction will exceed 40%.
“The LCOE on solar is going down substantially, driven by economies of scale, AI-enabled automation/robotics, including remote piling and panel installation. Construction becomes automated and runs 24/7 with onsite labour only required for repairs and troubleshooting,” Baumgurtel says.
In five years, developers can either sell the battery-plus-land package as ‘PV ready’ or build out the solar themselves and refinance under a hybrid power purchase agreement (PPA).
“Most people say that energy prices will pick up over the next 10 years,” Baumgurtel notes. “So, they’re saying that the flat duck is going to fly at closer to AU$80 than AU$40.”
If that forecast proves correct, developers building solar at an LCOE of AU$38/MWh, combined with long-duration storage at AU$20/MWh, could profitably sign PPAs at around AU$90/MWh.
“Now, is it going to be AU$90? Is it going to be AU$80? There’s the game, right?” Baumgurtel says.
“If it’s AU$40, game over. But it probably will not be, and it will not be because there will not be enough energy generation built in that time period. After all, everything is delayed for the grid and planning.”
The third trend – continued penetration of distributed energy resources – has been “supercharged” by the federal government’s Cheaper Home Batteries Program, which Baumgurtel says will drive the installation of 100,000 home batteries starting in January, with month-on-month growth expected.
Hamilton Locke recently advised on the Aware Super-Birdwood transaction, which saw AU$2 billion of pension fund capital flow into DER assets, which Baumgurtel claims is “the single largest DER investment in the world”.
However, he warns of potential safety and quality concerns reminiscent of Australia’s ill-fated home insulation scheme.
“There’s always a risk in deploying huge amounts of small projects, because you rely on a workforce which is probably not that experienced, if not qualified to do it,” Baumgurtel says.
Despite these concerns, the DER rollout will continue, facilitated by regulatory changes and VPP aggregation platforms that are making residential resources increasingly grid-interactive.
Beyond these three primary trends, Baumgurtel identifies significant consolidation occurring among independent power producers (IPPs), driven by the reality that “cost of capital is king in this game now”.
“You need to get big, or you need to find someone who’s big to buy you,” Baumgurtel says. Low-return institutional capital, pension funds, sovereign wealth funds, and insurance companies are increasingly dominating the sector, seeking steady returns and taking long-term views with less project gearing.
Meanwhile, traditional energy retailers are moving in the opposite direction.
“Look at what AGL and Origin are doing. They are becoming asset-light. They do not want to own generation. They want to be retailers, not manufacturers of electricity because the margins are made way, way, way bigger and better,” Baumgurtel explains.
“They’re signing PPAs. They’re not owning assets.”
This consolidation creates a regulatory challenge, as concentrated ownership of generation assets raises competition concerns, even as the sector requires exactly the kind of patient, low-cost capital that only large institutional investors can provide.
The picture Baumgurtel paints is of a market in profound transition – one where the old rules no longer apply and the new equilibrium remains uncertain. Utility-scale generators must now accept that they primarily serve commercial and industrial loads rather than residential customers, who are increasingly energy self-sufficient.
With 65% of Australia’s current generation capacity coming from coal, which will likely disappear within 15 years, there will be room for utility-scale renewables. But exactly how much room – and at what price – remains the multi-billion-dollar question keeping developers awake at night.
For now, the smart money is betting on battery storage first, solar later, and duration above all else.
The Energy Storage Summit Australia 2026 will be returning to Sydney on 18-19 March. It features keynote speeches and panel discussions on topics such as the Capacity Investment Scheme, long-duration energy storage, and BESS revenue streams. ESN Premium subscribers receive an exclusive discount on ticket prices. 
To secure your tickets and learn more about the event, please visit the official website.

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Rising need to reduce carbon emissions, declining solar technology costs, and Vision 2030's ambitious renewable energy targets are driving solar energy adoption in Saudi Arabia, supported by favorable government initiatives, increasing energy security focus, and massive infrastructure investments in photovoltaic and concentrated solar power projects. According to IMARC Group's latest data, the Saudi Arabia solar energy market size was valued at USD 8.3 Billion in 2025. Looking forward, IMARC Group estimates the market to reach USD 145.4 Billion by 2034, exhibiting a CAGR of 37.39% from 2026-2034.
Solar energy now represents a cornerstone of Saudi Arabia's economic diversification strategy, transforming the Kingdom from one of the world's largest oil exporters into an emerging renewable energy powerhouse. The market benefits from exceptional solar irradiance levels among the highest globally, strategic government backing through Vision 2030, and record-breaking low electricity prices from competitive project auctions. Major technologies include solar photovoltaic systems for utility-scale farms and rooftop installations, and concentrated solar power plants with thermal storage capabilities, with developers prioritizing cost efficiency, energy storage integration, and grid stability to support the Kingdom's goal of generating 50% of electricity from renewables while creating new export industries in green hydrogen and sustainable energy.

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Saudi Arabia Solar Energy Market Growth Drivers:
Saudi Arabia's Vision 2030 framework drives unprecedented solar energy expansion through strategic investments and ambitious capacity targets. The Kingdom aims to generate 50% of electricity from renewables by 2030, requiring approximately 130 GW of renewable capacity with 58.7 GW expected from solar installations. A USD 32 Billion investment pipeline for renewable projects through 2030 demonstrates government commitment. In July 2024, the Public Investment Fund signed 3 agreements to localize manufacturing and assembly of solar generating equipment through the Renewable Energy Localization subsidiary. In June 2024, the Ministry of Energy launched a geographic survey installing 1,200 measurement stations across 850,000 square kilometers to identify optimal locations for solar development. These initiatives position Saudi Arabia as a regional renewable energy hub while reducing dependence on fossil fuels and diversifying economic revenues.
Saudi Arabia achieves some of the world's lowest solar electricity prices through competitive auction mechanisms managed by the Saudi Power Procurement Company. The Shuaiba solar PV project set a world record for the lowest cost of electricity produced by solar energy. A flood of low-cost Chinese photovoltaic panels combined with a 40% drop in battery prices in 2024 dramatically improved project economics. In September 2024, ACWA Power secured USD 2.58 Billion in financing for 3 large-scale solar projects in Haden, Muwyah, and Al-Khushaybi totaling 5,500 MW capacity. In July 2024, SPPC completed power purchase agreements worth USD 3.3 Billion for 3 photovoltaic projects with 25-year contract terms. These competitive tariffs and long-term revenue guarantees attract substantial international investment while ensuring affordable electricity for domestic consumers and industries.
The Kingdom strategically deploys solar energy to reduce domestic oil consumption, freeing petroleum for higher-value export markets and industrial applications. Solar power provides energy security through diversified sources independent of fuel supply chains and geopolitical disruptions. The technology offers long-term stability with zero fuel costs and minimal operational expenses once infrastructure is commissioned. Saudi Arabia's exceptional solar irradiance enables year-round generation with capacity factors significantly exceeding global averages. By replacing oil-fired power stations with renewable generation, the Kingdom maximizes petroleum utilization for chemicals, plastics, and export revenues. Energy storage systems and grid infrastructure investments ensure reliable electricity supply while solar capacity scales. This dual strategy optimizes economic returns from hydrocarbon resources while building sustainable energy infrastructure aligned with global decarbonization trends and Paris Agreement commitments.
Saudi Arabia Solar Energy Market Trends:
Saudi Arabia leads the Gulf Cooperation Council with 2.1 GW operational photovoltaic capacity and 5.3 GW under construction anticipated for commissioning. The 1.5 GW Sudair Solar Plant ranks among the world's largest operational facilities, while multiple gigawatt-scale projects advance through development phases. According to Rystad Energy projections, the Kingdom targets installing over 70 GW of solar capacity by 2030, representing nearly six times current output. In November 2023, Saudi Power Procurement Company released a request for qualification for the fourth round of solar projects totaling 3,700 MW capacity. Major developments span Northern and Central regions around Riyadh, Western regions near Jeddah, Eastern provinces, and Southern territories. These utility-scale installations leverage abundant land availability, exceptional irradiance levels, and economies of scale delivering globally competitive electricity pricing while supporting industrial electrification and economic diversification objectives.
Grid-scale battery storage deployment accelerates alongside solar projects to manage intermittency and ensure reliable electricity supply as renewable penetration increases. Saudi Electricity Company and national utilities invest substantially in digitalization, automation applications, and smart network infrastructure. Storage requirements will grow significantly as the Kingdom approaches its 50% renewable electricity target, creating opportunities for lithium-ion batteries and emerging storage technologies. The Gulf Cooperation Council Interconnection Authority oversees regional transmission networks, enabling power trading, balancing mechanisms, and enhanced energy security across member states. Advanced forecasting systems, demand response capabilities, and flexible grid operations support solar integration while maintaining system stability. These technological advancements enable higher renewable energy shares without compromising electricity reliability, supporting Saudi Arabia's transformation into a clean energy leader while ensuring uninterrupted power for industrial operations and urban centers.
Saudi Arabia positions itself as a first-mover in the global green hydrogen economy through massive renewable energy-powered production facilities. The NEOM Green Hydrogen Company, a joint venture between NEOM, ACWA Power, and Air Products, develops a facility powered by 4 GW of dedicated solar and wind capacity producing green ammonia for export markets. The Yanbu Hydrogen Hub represents another strategic initiative establishing the Kingdom as a clean hydrogen production and export center. These projects leverage low-cost renewable electricity, abundant land, and strategic geographic location for shipping to European and Asian markets. Green hydrogen production creates new revenue streams beyond traditional petroleum exports while supporting global decarbonization efforts in hard-to-abate sectors including steel, chemicals, and heavy transportation. Additional hydrogen facilities advance through development stages, positioning Saudi Arabia to capture significant market share in the emerging hydrogen economy valued at hundreds of billions annually.
Recent News and Developments in Saudi Arabia Solar Energy Market
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