Risen Energy has secured a total of 1.2 GW in heterojunction (HJT) solar module orders from CHINA HUANENG, marking a significant milestone in the large-scale commercial deployment of HJT technology.

To date, approximately 600 MW of modules have already been delivered and deployed across multiple utility-scale solar projects under CHINA HUANENG, with the systems now entering operational phases.

The deal highlights growing market acceptance of HJT technology at gigawatt scale, as developers increasingly prioritize high-efficiency solutions to improve project returns and long-term performance.

For the projects, Risen Energy is supplying its HJT-based Hyper-ion module series, designed to enhance energy yield while reducing overall system costs. The modules incorporate advanced technologies such as zero busbar (0BB) design and stress-free interconnection, alongside ultra-thin wafer processes, enabling lower silver consumption and improved manufacturing sustainability.

In terms of performance, the modules offer power output exceeding 740 Wp, combined with high conversion efficiency. With a bifaciality factor of around 90% and a low temperature coefficient of approximately -0.24%/°C, the modules are well-suited for high-irradiation and high-temperature environments, supporting stable generation and reduced degradation over time.

These characteristics are expected to contribute to higher lifetime energy yield and lower levelized cost of electricity (LCOE), aligning with CHINA HUANENG’s focus on maximizing project efficiency and long-term returns.

Beyond product performance, the cooperation also reflects strong execution capabilities. Risen Energy’s manufacturing capacity, quality assurance, and delivery performance have supported the timely construction and commissioning of multiple solar projects.

The partnership between Risen Energy and CHINA HUANENG underscores a broader trend of collaboration between leading PV manufacturers and major energy groups to accelerate the transition toward low-carbon power systems.

As HJT technology continues to scale, it is expected to play an increasingly important role in improving solar project economics and supporting global decarbonization goals.