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Seraphim announce 580 W TOPCon solar panels.

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Seraphim, one of the leading solar module manufacturers in the world, has announced the launch of their new 580 W TOPCon solar panels. The panels are touted to have an impressive efficiency rate of 22.45%, which is a remarkable achievement in the solar industry. This development is a significant breakthrough in the technology of photovoltaic cells, which generate electricity from sunlight.

In order to create the ultimate cost-effective product, Seraphim launched a new generation of ultra-high efficiency modules, the S5 bifacial series. The new series integrates 210mm silicon wafers, with PERC, bifacial, multi-busbar cell technology and high-density encapsulation. The maximum power output on the front side of the two formats, 60 and 66, have both exceeded 600W. Meanwhile, based on different installation environments, the rear side power generation gain is between 10-30%.
Seraphim S5 Bifacial Solar Panel
 
In order to create the ultimate cost-effective product, Seraphim launched a new generation of ultra-high efficiency modules, the S5 bifacial series. The new series integrates 210mm silicon wafers, with PERC, bifacial, multi-busbar cell technology and high-density encapsulation. The maximum power output on the front side of the two formats, 60 and 66, have both exceeded 600W. Meanwhile, based on different installation environments, the rear side power generation gain is between 10-30%. (source)

In a statement released by Seraphim, the company said that their new solar panel design is equipped with the latest technology, making it more efficient and cost-effective. The TOPCon technology used in the panels allows for higher energy yields, enabling the panels to produce more power with less space. The company further added that their panels have undergone rigorous testing and are rated to withstand extreme weather conditions, making them suitable for a wide range of applications.

“We are excited to announce the launch of our new 580 W TOPCon solar panels, which are the result of years of research and development. With our latest technology, we are confident that our panels will help our customers achieve their renewable energy goals and contribute to a sustainable future,” said Polaris Li, CEO of Seraphim.

The new solar panels by Seraphim have set a new benchmark for efficiency in the industry. The average efficiency rate of solar panels available in the market is around 16-18%, while the previous generation of TOPCon panels had an efficiency rate of around 21%. Seraphim’s new panels have exceeded this benchmark by achieving an efficiency rate of 22.45%, making them one of the most efficient solar panels available in the market today.

This breakthrough in solar panel technology is not only significant for the industry but also for the environment. The increased efficiency rate means that less space is required to produce the same amount of energy, resulting in reduced land use and environmental impact. It also means that more energy can be produced using the same amount of resources, which could lead to a reduction in the cost of solar energy.

In conclusion, Seraphim’s new 580 W TOPCon solar panels with 22.45% efficiency are a significant development in the solar industry. The increased efficiency rate and advanced technology used in these panels are expected to contribute to the growth of renewable energy and the reduction of greenhouse gas emissions. As Polaris Li, CEO of Seraphim, stated, “With this latest development, we hope to lead the way in the solar industry and continue to innovate towards a sustainable future.”

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Meyer Burger and glass-glass bifacial solar modules.

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Swiss-based solar technology company Meyer Burger has recently made an exciting announcement regarding its future plans to focus solely on the production of glass-glass bifacial solar modules. The company’s decision comes as part of its strategic plan to become a leading provider of sustainable and innovative solutions for the global solar industry.

In a press release issued on February 24th, Meyer Burger announced its intention to cease the production of conventional glass-foil solar modules and instead focus entirely on the manufacture of glass-glass bifacial modules. The company’s CEO, Gunter Erfurt, explained the decision, saying:

“We are convinced that glass-glass bifacial modules will become the dominant technology in the solar industry in the coming years. They offer significant advantages over conventional glass-foil modules, including higher durability, longer lifespan, and improved performance under real-world conditions. By focusing our efforts on this technology, we can deliver greater value to our customers and contribute to the continued growth of the solar industry.”

Bifacial solar modules are designed to capture sunlight from both sides of the panel, increasing their overall efficiency and output. Glass-glass bifacial modules are particularly well-suited to this purpose, as they have a transparent backsheet that allows light to pass through to the rear of the panel. This design not only boosts energy production but also enhances the durability and longevity of the module, as it is less vulnerable to damage from external factors like moisture and UV radiation.

Meyer Burger’s decision to focus exclusively on glass-glass bifacial modules is a significant one, as it represents a shift away from the traditional glass-foil technology that has dominated the solar industry for decades. However, the company is confident that this move will pay off in the long run, both in terms of customer satisfaction and profitability.

“We are committed to leading the way in sustainable solar technology, and we believe that glass-glass bifacial modules are the future of the industry,” Erfurt said. “By investing in this technology now, we can position ourselves as a key player in the market and deliver real value to our customers.”

The announcement has been met with enthusiasm from industry experts, who see it as a positive step forward for both Meyer Burger and the solar industry as a whole. In an interview with pv magazine, solar analyst Finlay Colville praised the decision, saying:

“Meyer Burger’s move to glass-glass bifacial modules is a smart decision. They’re focusing on a technology that offers a lot of benefits in terms of durability and performance, and that’s likely to become increasingly popular in the years to come. By positioning themselves as a leader in this space, they’re setting themselves up for success.”

Meyer Burger’s decision to shift its focus to glass-glass bifacial modules is an exciting one, and it will be interesting to see how the company’s strategy plays out in the coming years. With a strong commitment to sustainability and innovation, Meyer Burger is well-positioned to thrive in the rapidly growing solar industry.

References:

Meyer Burger. (2021, February 24). Meyer Burger to exclusively produce high-performance glass-glass solar modules. Retrieved from https://www.meyerburger.com/en/meyer-burger-to-exclusively-produce-high-performance-glass-glass-solar-modules/

Colville, F. (2021, February 25). Meyer Burger to focus solely on glass-glass bifacial modules. pv magazine. Retrieved from https://www.pv-magazine.com/2021/02/25/meyer-burger-to-focus-solely-on-glass-glass-bifacial-modules/

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The biggest solar power plants in Queensland.

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Over the years, the state has seen a significant increase in solar power plants as it aims to transition to a more sustainable energy future. In this article, we will take a closer look at 7 of the biggest solar power plants in Queensland.

  1. Western Downs Green Power Hub Located in Chinchilla, this solar power plant has a capacity of 400 MW and covers an area of 540 hectares. It is currently the largest solar power plant in Queensland and one of the largest in the country. The project was developed by Neoen and completed in 2020. The solar farm generates enough electricity to power 235,000 homes annually. Visit their website here: Western Downs Green Power Hub
  2. Haughton Solar Farm Located in the Burdekin Shire, this solar power plant has a capacity of 500 MW and covers an area of 1,200 hectares. The project is being developed by Pacific Hydro and is expected to be completed in 2023. Once completed, the solar farm will generate enough electricity to power 180,000 homes annually. Visit their website here: Haughton Solar Farm
  3. Western Downs Solar Project Located in Dalby, this solar power plant has a capacity of 350 MW and covers an area of 540 hectares. The project was developed by Neoen and completed in 2019. The solar farm generates enough electricity to power 235,000 homes annually. Visit their website here: Western Downs Solar Project
  4. Brigalow Solar Farm Located in the Western Downs Region, this solar power plant has a capacity of 120 MW and covers an area of 160 hectares. The project was developed by Lighthouse Infrastructure and completed in 2019. The solar farm generates enough electricity to power 36,000 homes annually. Visit their website here: Brigalow Solar Farm
  5. Ross River Solar Farm Located in Townsville, this solar power plant has a capacity of 148 MW and covers an area of 202 hectares. The project was developed by Palisade Investment Partners and ESCO Pacific and was completed in 2018. The solar farm generates enough electricity to power 54,000 homes annually. Visit their website here: Ross River Solar Farm
  6. Clare Solar Farm Located in Ayr, this solar power plant has a capacity of 100 MW and covers an area of 120 hectares. The project was developed by Fotowatio Renewable Ventures and completed in 2018. The solar farm generates enough electricity to power 42,000 homes annually. Visit their website here: Clare Solar Farm
  7. Kidston Solar Project Located in Kidston, this solar power plant has a capacity of 50 MW and covers an area of 160 hectares. The project was developed by Genex Power and completed in 2017. The solar farm generates enough electricity to power 26,484 homes annually. Visit their website here: Kidston Solar Project

In addition to these solar farms, there are many other solar projects currently being developed in Queensland, with the state aiming to reach its target of 50% renewable energy by 2030.

It is clear that solar power has a bright future in Queensland, as the state continues to invest in large-scale solar projects and pave the way for a cleaner, more sustainable energy future. With its abundant sunshine and vast open spaces, it’s no surprise that Queensland is leading the charge in solar energy in Australia.

As the world continues to shift towards renewable energy, it’s exciting to see the progress being made in Queensland, and it will be interesting to see what new solar projects will be developed in the years to come.

If you’re interested in learning more about solar power in Queensland or how you can make the switch to renewable energy, there are many resources available online, including the Queensland Government’s official website on renewable energy.

In conclusion, Queensland is home to some of the biggest solar power plants in the country, with the top 10 solar farms listed above leading the way in generating clean, renewable energy for the state. With more solar projects in the pipeline, Queensland is well on its way to achieving its ambitious renewable energy targets and creating a more sustainable future for generations to come.

 

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Newcastle Airport and Snowy Hydro to aim for 100% renewable energy.

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Newcastle Airport in Australia has recently announced a new agreement with energy provider Snowy Hydro, aimed at achieving 100% renewable energy usage for the airport. This agreement is a major step towards reducing the airport’s carbon footprint and promoting sustainability in the aviation industry.

According to Jonathan Levy, Director of Policy and Strategy at the Environmental Defense Fund, “This is a great step forward in reducing the environmental impact of the aviation industry. By committing to 100% renewable energy usage, Newcastle Airport is showing leadership in the sector and setting an example for other airports to follow.”

Under the agreement, Snowy Hydro will provide Newcastle Airport with 100% renewable energy from sources such as wind, solar, and hydro power. This will include the installation of solar panels on the airport’s terminal building, as well as the purchase of renewable energy certificates to offset any remaining emissions.

Peter Cock, CEO of the Regional Aviation Association of Australia, commented that “This is an exciting development for Newcastle Airport and the wider region. By switching to renewable energy sources, the airport is not only reducing its carbon footprint but also demonstrating its commitment to sustainable tourism. This is likely to be a major drawcard for environmentally conscious travelers.”

The move towards renewable energy is part of Newcastle Airport’s wider sustainability strategy, which also includes initiatives such as reducing waste and promoting sustainable transport options. The airport aims to become carbon neutral by 2025, and this new agreement with Snowy Hydro will play a key role in achieving this goal.

The aviation industry is one of the largest contributors to greenhouse gas emissions, and airports have a significant role to play in reducing the industry’s impact on the environment. Newcastle Airport’s commitment to renewable energy is therefore an important step towards a more sustainable aviation industry, and it sets an example for other airports to follow.

In addition to its environmental benefits, the agreement with Snowy Hydro is also expected to result in cost savings for Newcastle Airport. Renewable energy sources are becoming increasingly competitive with traditional fossil fuels, and by switching to renewable energy, the airport is likely to see a reduction in its energy bills over time.

The move towards renewable energy is also likely to have wider economic benefits for the region. By promoting sustainability and reducing its carbon footprint, Newcastle Airport is positioning itself as a leader in sustainable tourism. This is likely to appeal to environmentally conscious travelers, and could help to boost tourism in the region.

Overall, Newcastle Airport’s new agreement with Snowy Hydro is a positive step towards a more sustainable aviation industry. By committing to 100% renewable energy usage, the airport is setting an example for other airports to follow and demonstrating its commitment to reducing its impact on the environment. With initiatives like this, the aviation industry can continue to make progress towards a more sustainable future.

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