How to Recycle Waste Solar Panel

Efficient disassembly and increased production capacity: The new generation of equipment adopts modular design and fully automatic assembly line operation to achieve key steps such as non-destructive frame removal, glass separation, pyrolysis backplane stripping, and separation of battery cells and solder strips of photovoltaic modules. Compared with manual or semi-automatic methods, the processing efficiency is improved [specific figures, such as 300%], significantly reducing the unit recycling cost.

High-purity material recycling: Core processes (such as patented low-temperature pyrolysis technology, physical sorting technology, and electrostatic sorting technology) ensure that the purity of key materials such as separated silicon materials, precious metals (silver, copper), high-purity broken glass, and aluminum frames is as high as 99%, greatly improving the economic value of recycled materials, which can be directly reused in photovoltaic or other manufacturing industries.

Environmentally friendly and pollution-free: The entire processing process is carried out in a closed negative pressure environment, equipped with advanced exhaust gas treatment systems (such as activated carbon adsorption and catalytic combustion), effectively treating organic waste gas generated by pyrolysis, ensuring that emissions meet standards, and achieving green recycling. Wastewater recycling achieves near-zero emissions.

Intelligent and easy to maintain: Integrated PLC automatic control system and human-machine interactive interface, easy operation, real-time monitoring of operating status. Key components of the equipment are made of wear-resistant materials, designed for easy maintenance, to ensure continuous and stable operation of the equipment.

Flexible and adaptable: The equipment can handle a variety of mainstream types of photovoltaic modules such as monocrystalline silicon, polycrystalline silicon, and thin film, to meet the diverse recycling needs in the future