Serrano symbolizes the enduring collaboration between First Solar, a solar manufacturer based in the United States, and Longroad. This project marks the fourth instance in Arizona where Longroad has provided financing for installations utilizing First Solar’s environmentally conscious modules within a span of four years. Notably, Serrano represents Longroad’s inaugural utilization of thin-film Series 7 modules, showcasing their commitment to embracing innovative solar technologies.

Georges Antoun, the Chief Commercial Officer at First Solar, expressed congratulations to Longroad for the advancement of the Arizona project. He emphasized that the project’s reliance on American-made solar technology will not only contribute to the growth of U.S. manufacturing but also generate employment opportunities. Antoun further highlighted the successful closure of financing by Longroad as a testament to the project’s bankability and the reliability of the <a href=”www.solarepoch.com“>solar module</a > technology driving its success.

The debt financing for the project was spearheaded by CIBC and Societe Generale, with participation from ANZ, PNC, Commerzbank AG, and U.S. Bancorp Impact Finance. In this process, CIBC took on multiple roles including Coordinating Lead Arranger, Administrative Agent, Collateral Agent, and Green Loan Coordinator, while Societe Generale acted as the Coordinating Lead Arranger. U.S. Bancorp Impact Finance played a key role as Joint Lead Arranger and Depositary Bank. Additionally, Athene Annuity and Life Insurance Company, an affiliate of Apollo Global Management, served as the project’s tax equity investor and received advisory support from Apterra Infrastructure Capital.

McCarthy Building Companies (McCarthy) has been appointed as the engineering, procurement, and construction (EPC) contractor for the Serrano project. This marks McCarthy’s fourth collaboration with Longroad in constructing large-scale solar facilities in Arizona. The project is anticipated to create employment opportunities for more than 300 individuals throughout the construction phase. McCarthy is committed to utilizing registered apprentices and ensuring that all workers on the project receive prevailing wages, in alignment with the Inflation Reduction Act (IRA).

The project will benefit from the expertise of Nextracker, who will be supplying the trackers, and Sungrow, who will be supplying the solar inverters. To ensure smooth operations, NovaSource Power Services and Longroad’s affiliate, Longroad Energy Services, have been entrusted with the responsibility of providing comprehensive operations and maintenance services for the project.

Amberside Energy and Copenhagen Infrastructure Partners (CIP), representing its Flagship Funds, have joined forces in a partnership aimed at the development of 2 GW of solar and battery storage projects in the United Kingdom. This collaboration signifies a significant commitment to expanding renewable energy infrastructure and underscores the growing importance of  solar module and battery storage technologies in the UK’s energy landscape.

Copenhagen Infrastructure Partners (CIP) holds the distinction of being the largest specialized fund manager globally, focusing on greenfield renewable energy investments. With an impressive track record, CIP has successfully raised around €19 billion dedicated to investments in energy and related infrastructure. This substantial capital enables CIP to play a pivotal role in driving the growth of renewable energy projects and supporting the development of sustainable infrastructure on a global scale.

As part of the collaboration, CIP’s Flagship Funds will supply the necessary capital for project development, aiming to establish a substantial portfolio encompassing various stages of development. Depending on investment decisions made during that period, CIP is committed to providing the required funding for the construction of projects within this portfolio. This strategic approach ensures the financial support needed to bring these projects to fruition and reinforces CIP’s dedication to advancing renewable energy initiatives.

The initiatives undertaken by these projects are in line with the UK’s ambitious goal of achieving “net-zero” greenhouse gas emissions by 2050. By significantly contributing to the nation’s energy independence, these projects will play a crucial role in delivering reliable and cost-effective clean power while simultaneously reducing carbon emissions from energy production. This aligns with the broader objective of transitioning to a sustainable and decarbonized energy sector in the UK.

Amberside Energy will take the lead in initiating and developing the solar and battery storage projects. Leveraging their proprietary grid model and expertise in auditing and asset management, they aim to optimize the efficiency of project development. This strategic approach, coupled with their experience, is expected to enhance the overall effectiveness of the development process and ensure the projects reach their full potential.

All cell production line equipped with SE laser instrument.

Advanced process to reduce extra degradation of PERC cell.

MBB and half-cut design to improve module reliability and reduces loss.

Higher power output effectively reduces BOS and LCOE.

Compatible with 1000V and 1500Vsystem voltage.

Advanced production process

Optimized MBB design Cell efficiency >22.5%

Superior quality control

Full automatic production line

MES and ERP digitizing logistics management100% three times EL and appearance inspection

Excellent power generation performance

0~+5W positive power tolerance

Improved low light irradiance performance and low degradation

Stable mechanical performance

Passed rigorous hail test

Withstands 5400Pa snow and 2400Pa wind loads

Long weather resistance

Excellent anti-PID performance

Certified in fireproofing for safety

All cell production line equipped with SE laser instrument.

Advanced process to reduce extra degradation of PERC cell.

MBB and half-cut design to improve module reliability and reduces loss.

Higher power output effectively reduces BOS and LCOE.

Compatible with 1000V and 1500Vsystem voltage.

Advanced production process

Optimized MBB design Cell efficiency >22.5%

Superior quality control

Full automatic production line

MES and ERP digitizing logistics management100% three times EL and appearance inspection

Excellent power generation performance

0~+5W positive power tolerance

Improved low light irradiance performance and low degradation

Stable mechanical performance

Passed rigorous hail test

Withstands 5400Pa snow and 2400Pa wind loads

Long weather resistance

Excellent anti-PID performance

Certified in fireproofing for safety

All cell production line equipped with SE laser instrument.

Advanced process to reduce extra degradation of Topcon cell.

MBB and half-cut design to improve module reliability and reduces loss.

Higher power output effectively reduces BOS and LCOE.

Compatible with 1000V and 1500Vsystem voltage.

Advanced production process

Optimized MBB design Cell efficiency >22.5%

Superior quality control

Full automatic production line

MES and ERP digitizing logistics management100% three times EL and appearance inspection

Excellent power generation performance

0~+5W positive power tolerance

Improved low light irradiance performance and low degradation

Stable mechanical performance

Passed rigorous hail test

Withstands 5400Pa snow and 2400Pa wind loads

Long weather resistance

Excellent anti-PID performance

Certified in fireproofing for safety

All cell production line equipped with SE laser instrument.

Advanced process to reduce extra degradation of PERC cell.

MBB and half-cut design to improve module reliability and reduces loss.

Higher power output effectively reduces BOS and LCOE.

Compatible with 1000V and 1500Vsystem voltage.

Advanced production process

Optimized MBB design Cell efficiency >22.5%

Superior quality control

Full automatic production line

MES and ERP digitizing logistics management100% three times EL and appearance inspection

Excellent power generation performance

0~+5W positive power tolerance

Improved low light irradiance performance and low degradation

Stable mechanical performance

Passed rigorous hail test

Withstands 5400Pa snow and 2400Pa wind loads

Long weather resistance

Excellent anti-PID performance

Certified in fireproofing for safety

Astronergy, a renowned manufacturer of solar PV modules, has successfully supplied 154.4 MWdc of solar module s to the Döllen PV plant located in Brandenburg, Germany. This remarkable project, supported by the CEE Group and developed by Antlike Solar, now stands as the largest TOPCon PV plant in Europe. Once connected to the grid later this year, the plant is projected to generate an impressive annual output of over 150,000 MWh of clean, green electricity.

Astronergy, a leading innovator in n-type TOPCon PV module research and manufacturing, has successfully provided its high-efficiency ASTRO N series modules to the Döllen PV plant. This significant milestone marks another stride in the company’s global introduction of its n-type TOPCon technology, following a recent 355-MWdc deal signed in Australia. Astronergy continues to demonstrate its commitment to advancing and promoting the adoption of n-type TOPCon technology in the global market.

Detlef Schreiber, CEO of the CEE Group, expressed his admiration for the newly established solar park at the Döllen site, which boasts an impressive nominal output of 154.4 MWp. He emphasized that this solar park serves as a remarkable example of the immense potential of renewable energies, solidifying their pivotal role in driving the energy transition.

Through a power purchase agreement (PPA), the Döllen PV plant will actively contribute to the fight against climate change while simultaneously lowering energy costs and promoting energy self-sufficiency. This strategic approach positions the plant as a trailblazer, paving the way for a sustainable future and emphasizing the importance of renewable energy sources.

N-type TOPCon (tunnel oxide passivated contact) PV modules are a cutting-edge solar technology that utilizes n-doped crystalline silicon wafers with passivated contacts. These modules incorporate a thin tunnel oxide layer, enabling them to achieve impressive conversion efficiencies ranging from 22% to 24%. This remarkable advancement in solar module design showcases the potential for significantly higher energy conversion rates, further enhancing the efficiency and effectiveness of photovoltaic systems.