Against the backdrop of the global energy transition, leading Chinese photovoltaic (PV) enterprises are accelerating their expansion into overseas markets. Recently, JinkoSolar reached a framework supply agreement with Energy Time for approximately 100MW of Tiger Neo 3.0 modules. Meanwhile, a 220MW PV project in Algeria, exclusively supplied by Astronergy with its full capacity of modules, has successfully passed acceptance inspection and achieved grid-connected operation.
JinkoSolar Signs 100MW Tiger Neo 3.0 Module Supply Agreement
Recently, JinkoSolar held strategic talks with its partner Energy Time, and the two parties reached a framework cooperation agreement for the supply of approximately 100MW of Tiger Neo 3.0 modules spanning from 2026 to 2027.
This signing marks a brand-new stage in the cooperation between JinkoSolar and Energy Time. During the meeting, the two sides also engaged in in-depth discussions regarding the technical parameters, business models, and operational details required to support future project development, laying a solid foundation for the implementation of subsequent collaborations.
Astronergy Facilitates Successful Grid Connection of PV Project
Recently, the 220MW PV project in Biskra, Algeria, for which Astronergy supplied the entire capacity of PV modules, officially passed its pre-commissioning acceptance and obtained grid-connection permission. It has become the first project to achieve operation within Algeria's 3GW PV project cluster.
For this module procurement order, Astronergy specifically supplied its ASTRO N5 high-efficiency modules, tailored to withstand the harsh natural conditions of the Gobi Desert region in Biskra. Equipped with N-type TOPCon cell technology, this batch of modules effectively overcomes the local high-temperature challenges thanks to a temperature coefficient as low as -0.29%/°C, alongside excellent bifaciality and low-light performance. This ensures that the project can achieve long-term, stable power generation for 30 years even under extreme environments.
The project commenced construction in 2024 and was successfully connected to the grid in March 2026. Supported by Astronergy's full-capacity modules, the project is expected to output approximately 374 million kWh of clean electricity annually and reduce carbon dioxide emissions by 373,000 tons, directly alleviating power supply shortages in the local and surrounding areas.
Source:EnergyTrend