Thank you for your choice of ZNSHINE branded solar PV modules.Recently, the RE+exhibition in the United States opened as scheduled In view of some customersquestions about our brand authorizing partners, We hereby state that
Recently, 136 PV modules from ZNSHINE SOLAR successfully passed rigorous testing by Italy's renowned testing institute, Istituto Giordano S.p.A., earning the highest fire safety rating, Class 1 (uno/one), according to Italian standard UNI 9177. This top-tier certification demonstrates the modules' exceptional fire resistance and minimal combustion risk, positing our modules as a benchmark for fire safety in the Italian market. Following a recent fire incident involving an agrivoltaic project in Italy, concerns have been raised regarding the fire safety of PV systems in high-risk environments. ZNSHINE SOLAR's modules stand out for their outstanding fire performance, providing enhanced safety and reliability to effectively mitigate fire risks and offer peace of mind to users.
Recently, the international consulting firm Wood Mackenzie released its 2024 ranking of global solar photovoltaic module manufacturers. ZNSHINE SOLAR has achieved the 15th position due to its outstanding comprehensive strength. This ranking not only focuses on module shipment volumes but also comprehensively evaluates nine criteria: manufacturing experience, manufacturing capability, vertical integration, capacity utilization, technological maturity, R&D investment, financial condition, Environmental, Social, and Governance (ESG), and Corporate Social Responsibility (CSR), as well as third-party certifications.
ZNSHINE Solar, in collaboration with Jiangsu Guofu Hydrogen Energy Equipment Co., Ltd, recently began constructing the largest domestic distributed PV hydrogen production project in China, leading the further development of the clean energy industry. This project uses abundant solar energy by utilizing rooftop PV power generation to provide clean energy for hydrogen production equipment. Its primary off-grid operation is supplemented by grid connection, significantly reducing energy consumption and carbon emissions. Furthermore, by leveraging hydrogen-electric coupling technology, the project reduces dependence on the grid and develops new use cases for renewable energy, opening new avenues for sustainable development.