Battery Science & Technology connects its photovoltaic project to the grid for power generation, promoting green and low-carbon development

As Tianjin Battery Science & Technology Co., Ltd. (Tianjin Battery Science & Technology) successfully connected its 1.1MW distributed photovoltaic power generation project to the grid recently, Battery Science & Technology Co., Ltd. (Battery Science & Technology) is establishing a development pattern underpinned by two pillars, namely the photovoltaics and power battery disassembly and recycling. These two entities in collaboration are comprehensively contributing to the development of a “green factory” and ESG practices.

Leveraging Tianjin Battery Science & Technology’s demonstration and pilot factory for new energy vehicle recycling in the Beijing-Tianjin-Hebei region, the photovoltaic project utilized existing factory rooftops at the Tianjin facility to install a distributed photovoltaic power generation system with a total installed capacity of 1.1 megawatts. It operates in a self-consumption mode with surplus electricity fed back to the grid. This project generates 1.13 million kilowatt-hours of green electricity annually, leading to a reduction in coal consumption of 349 tons, a decrease in CO₂ emissions by 947 tons, and a reduction in SO₂ and NOx emissions by 0.46 tons.

As a high-tech new energy company under Luen Mei Group, Battery Science & Technology specializes in the green recycling of power battery resources. It has been committed to establishing a closed-loop industry chain for the recycling of power batteries throughout the entire lifecycle. The focus is on various aspects, including the cascade utilization and recycling of power batteries, aiming to build a battery financial service and recycling ecosystem and develop a unique and innovative development model.

The grid-connected photovoltaic project, utilizing corporate rooftop resources, operates under a green energy principle, which means serving the company’s green operation with solar power. It will further enhance the overall competitiveness of Battery Science & Technology, and create greater value for energy conservation and environmental protection.