Enbridge, a Canadian oil and gas company, has formed a joint venture with EDF Renewables North America to develop and operate the Fox Squirrel solar farm in Ohio. With a capacity of 577MW, this solar plant is being constructed in three phases.

Enbridge has acquired a 50% stake in the joint venture, solidifying its commitment to renewable energy projects. The project is supported by 20-year fixed-price power purchase agreements, ensuring stable revenue streams.

The Fox Squirrel solar farm is located in Madison County, Ohio, and is being developed in partnership with Geenex Solar. The first phase, with a capacity of 150MW, is expected to be operational by the end of 2023. This project marks EDF Renewables’ entry into utility-scale solar facilities in Ohio.

Ryan Pfaff, Executive Vice President of Grid-Scale Power at EDF Renewables, expressed excitement about the partnership with Enbridge and the development of the Fox Squirrel Solar Project. This collaboration signifies a successful continuation of their joint efforts in the renewable energy sector.

By investing in renewable energy and partnering with EDF Renewables, Enbridge is taking significant steps towards diversifying its portfolio and reducing its carbon footprint. The construction and operation of the Fox Squirrel solar farm will contribute to Ohio’s renewable energy goals, creating a more sustainable future for the state.

This joint venture between Enbridge and EDF Renewables demonstrates the increasing interest and investment in solar energy projects, as countries worldwide strive to transition to cleaner sources of energy. The Fox Squirrel solar plant is set to make a substantial contribution to Ohio’s renewable energy capacity, supporting the state’s efforts to reduce greenhouse gas emissions and combat climate change.

The completion of the Fox Squirrel solar farm will mark a significant milestone in Ohio’s renewable energy sector, providing clean and reliable energy to thousands of households and businesses. Enbridge and EDF Renewables’ partnership showcases the power of collaboration in driving the development of large-scale renewable energy projects.

With this venture, Enbridge is not only making strides in the renewable energy sector but also solidifying its commitment to sustainability and environmental stewardship. It sets a positive example for other companies looking to transition to cleaner energy sources and play a crucial role in combating climate change.

As the world continues to recognize the importance of renewable energy, projects like the Fox Squirrel solar farm are instrumental in shaping a greener future. Enbridge’s collaboration with EDF Renewables represents a significant milestone for the Ohio solar industry, and it paves the way for further investments in renewable energy across

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Researchers in Australia have achieved a groundbreaking feat, training artificial intelligence (AI) to produce solar cells made from the mineral perovskite in a remarkably short period of time. This cutting-edge approach has allowed them to bypass years of human labor and potential errors, leading to the optimization of these cells in just a matter of weeks.

Dr. Nastaran Meftahi, the lead author of the study and a researcher at RMIT University’s School of Science, highlighted that international teams have been in a race to develop perovskite solar cells that are not only cost-effective but also stable enough for long-term commercial use. Thanks to recent advancements, these cells have reached a level of stability where they can be considered for widespread deployment.

Perovskite solar cells are particularly promising due to their potential to outperform traditional silicon-based solar cells in terms of efficiency and cost-effectiveness. However, the challenge lies in finding the optimal combination of materials and fabrication processes to maximize their performance.

To address this challenge, the researchers turned to AI. By training machine learning algorithms on vast amounts of data and simultaneously carrying out experimental work, they were able to rapidly identify the most efficient compositions and fabrication methods for perovskite solar cells. This process significantly accelerated the research and development cycle, which traditionally took years to achieve similar results.

The use of AI has enabled scientists to overcome human limitations and biases that often arise during optimization processes. It can quickly analyze and interpret vast amounts of data, identifying patterns and optimizing parameters that human researchers might overlook. As a result, the AI-generated solar cells exhibited improved efficiency and stability.

The team’s successful AI-driven approach demonstrates the enormous potential of this technology in accelerating scientific discoveries and technological advancements. It may also pave the way for further breakthroughs in other areas of research that require extensive optimization processes.

These findings bring us closer to the widespread adoption of perovskite solar cells in renewable energy systems, offering a viable alternative to traditional silicon-based technology. By streamlining the development process, AI could play a pivotal role in driving the transition towards cleaner and more sustainable energy sources.

As researchers worldwide continue to push the boundaries of AI-driven optimization, the potential for innovation in the field of solar cell technology is boundless. The next step will be to further refine the AI models and methods to continuously improve the performance and stability of perovskite solar cells, ultimately making them a commercially viable and scalable solution

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EU Funds €40 Million to Aid Renewable Energy Sector: 8 Solar PV Projects Awarded

In a significant move to consolidate its renewable energy sector, the European Union has recently granted a whopping €40 million to eight Solar Photovoltaic (PV) projects. The projects collectively boast a total capacity of 282.77 MW. The funding was accorded under the EU’s renewable energy financing mechanism, which was revealed on 27th September 2023.

The Directorate-General for Energy meticulously evaluated all applications which had passed the preliminary eligibility check and conformed to the minimum quality requirements. Following the stringent process, the projects were then ranked on the basis of the price of their bid to the tender. The list commenced from the ones that quoted the lowest price, continuing until the entire tender budget was absorbed.

The selected project bodies are now being summoned by the directorate to devise a grant agreement. They have been given a timeline of 24 months following the grant signature to kick-start their respective solar PV projects.

Participating countries Luxembourg and Finland will in due course circulate the statistics of the renewable electricity generated by these projects. This data would be instrumental in determining and meeting their national targets for renewables.

This funding marks the successful termination of the first round of the relentless renewable energy financing mechanism as regulated by the Commission in the year 2020. The program was conceived with the primary objective of providing superior support to renewable energy projects and instigating an escalated uptake of renewables across EU member countries.

It is safe to contemplate that this €40 Million investment is one more step towards the collective goal which is to champion the cause of sustainable and clean energy.

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Armor Group, a renowned conglomerate, has made a landmark entry into the solar panel industry by acquiring a 20% stake in the French solar panel maker, HoloSolis. The acquisition is a significant move, marking the company’s foray into perovskite-silicon tandem panel production. This venture came about only a week after the Armor Group ceased operation in the organic solar module production sector.

HoloSolis is well-regarded for its innovative work in developing the next generation of solar panels, particularly in the area of perovskite-silicon tandem cells.

According to Hubert de Boisredon, the CEO and Chairman of Armor Group, this strategic acquisition aligns with the company’s long-term sustainability objectives. HoloSolis’ project not only creates local jobs that cannot be outsourced, it also contributes to restoring energy sovereignty – both principles underpinning Armor Group’s corporate philosophy for years.

HoloSolis Plans for Expansion Gets a Boost

This partnership comes at a fortunate time as HoloSolis gears up to set up a projected manufacturing unit, with backing from Fraunhofer Institute for Solar Energy Systems (ISE) of Germany.

HoloSolis is a persuasive force in the solar panel industry, founded by three robust European entities: EIT Innoenergy – a clean-tech investor financed by the EU and based in Eindhoven, the Netherlands; IDEC Group – a French real estate developer; and TSE, a prominent solar energy producer in France and a leader in agrivoltaics.

Armor Group’s decision to invest in HoloSolis signifies a promising synergy that brings together the financial capabilities, technological innovation, and sustainability objectives of both companies. This strategic partnership is anticipated to make groundbreaking contributions in the area of solar energy.

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What is a Solar Energy “Tree” and How Does it Actually Work?

A Solar Energy “Tree” is a device that converts the sun’s rays into electricity. It is made up of photovoltaic cells, which are placed on a metal structure to form a tree-like structure.

The cells convert the sun’s light into electrical energy, which can be used to power homes or businesses.

The solar energy tree is called so because the shape of the branches and leaves make it look like an actual tree.

The tree’s branches and leaves are designed to collect sunlight and convert it into energy, with the energy stored in batteries.

This concept of solar trees is a response to the need for renewable energy sources that are less damaging to the environment than traditional power plants or coal-fired power plants.

How Solar Energy “Trees” Can Help with 5 Amazing Use Cases

Solar cells are not the only way to create renewable energy. Trees and other plants can also be used to generate power.

The idea of using trees to produce solar energy is not new. It was first proposed back in the 1950s, but it wasn’t until recently that the technology has been available to make it happen.

Today, there are five amazing use cases for solar trees that show just how much potential they have:

1. They can be used as a source of renewable energy in rural areas.
2. They can be used in urban areas with less space.
3. They can provide shade and help reduce air conditioning costs.
4. They can help with CO2 emissions by absorbing carbon dioxide from the atmosphere and converting it into oxygen.
5. They could potentially provide a new source.

Solar Energy “Trees”, a Renewable Energy Source’s Best Friend to Save Time & Money

Solar energy is a renewable energy source that has been around for years. It has become increasingly popular over the last few years, and the future of solar power looks promising.

One of the problems with solar power is that it’s not always sunny outside, which means that it can’t be used at night or on rainy days. Solar panels are expensive to install and take up a lot of space.

However, there are some new developments in solar technology that could solve these problems in the future.

One such development is called “solar trees,” which are large arrays of mirrors that can be placed on buildings to collect sunlight throughout the day and store it as energy for use at night or on cloudy days.

This would allow people to use their air conditioners during hot summer days without using any electricity from the grid.”I think it’s a great idea,” said Maria Czaja, who lives in North Baltimore.

“It’s a viable solution that doesn’t cost as much money and can be used to charge cars in a very efficient way.”Czaja has participated in the greening of Baltimore.

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The reports say that the constructions of a 25MW largest solar PV project in Nepal has begun. The foundation stone was laid last week at Devighat in Nuwakot by Minister for Energy, Water Resources and Irrigation, Barsha Man Pun.

The government plans to finish the construction of the project in a year.

As stated by Pankaj Kumar, national capacity building expert, this is the first large-scale solar project in Nepal.

The fantasy of having the capacity to drive to work in a solar-powered car is at last turning into a reality. Sono Motors simply uncovered the SION solar-powered electric car gives you the ability to travel up to 18 miles utilizing only energy from the sun. Best of all, the SION isn’t only for the whealthy, since it just costs 16,000 Euros (around $18,600) in addition to the cost of the battery, and it is pressed with unbelievable components like built-in moss filtration, bi-directional charging and integrated solar panels.

Sono Motors Sion Solar Powered Car

A year ago, Sono Motors, a German startup raised over $200,000 create the SION. Utilizing 300 photovoltaic panels, the SION can store enough energy from the sun to give you the ability to travel up to 18 miles, however in the event that you have to travel further, the SION can likewise be energized utilizing a standard outlet, similar to a regular electric auto. Depending on the amount you want to spend, you can rent the battery month to month, or buy outright.

Joining South Florida’s lush, green canopy of real trees are a new crop of solar trees. These “trees” have blue trunks and bear no fruit, but supply clean energy to whoever needs it.

If you’re at the beach and your phone starts to die, you can charge it right here using Solar Power.

Here’s how the solar trees work: Each solar tree comes with 2 solar powered panels up top. Some of that energy collected is powering the grid of the community, and to a nearby box that send electricity to plugs where phones or compuers can be charged.