Jiangxi Mingxin demonstrates significant synergistic technological advantages in the field of waste solar photovoltaic panel crushing and recycling. Leveraging its mature experience in environmental protection equipment manufacturing and lithium battery recycling, the company has transferred core technologies such as physical separation and precision sorting to the photovoltaic panel recycling scenario. Drawing on the technical logic of thermal conduction separation and multi-stage screening from its lithium battery recycling patents, it has developed an automated processing system adapted to the "glass-silicon wafer-metal" composite structure of photovoltaic panels. This effectively addresses industry-wide challenges such as low disassembly efficiency and high material loss. Compared with simple crushing methods used by small workshops, this technology transfer enables large-scale processing capabilities, achieving a material separation efficiency of over 95% (in line with advanced industry standards) and laying a solid technological foundation for the efficient recycling of photovoltaic resources.

In terms of environmental performance, Jiangxi Mingxin has established a full-process green treatment closed loop. Its experience in equipment manufacturing ensures that pollution control concepts are integrated into the design phase of recycling lines. By adopting the technical route of physical crushing and dry separation, it avoids waste liquid discharge and harmful gas emissions that may occur with chemical treatment methods. Through optimizing crushing parameters and air separation processes, it achieves clean separation of components such as glass, silicon, and aluminum, significantly reducing the leakage risk of heavy metals like lead and cadmium. This "zero-pollution" treatment model not only complies with the environmental requirements of the Action Plan for Innovative Development of the Intelligent Photovoltaic Industry but also reduces the exploitation of primary minerals through resource recycling, indirectly lowering carbon emissions in the industrial chain and aligning with the policy orientation of promoting the full-life-cycle greenization of the photovoltaic industry.

This recycling model holds great demonstration significance for the sustainable development of the industry. Against the backdrop of China's impending peak in photovoltaic module decommissioning, Jiangxi Mingxin's technological reserves provide a feasible solution for the construction of regional recycling systems. Its equipment, with an annual processing capacity of 10,000-ton level, can effectively alleviate the recycling pressure in major photovoltaic-producing provinces. Through material regeneration, it realizes the recycling of strategic resources such as silicon and silver, which not only enhances industrial economic benefits but also provides a practical example for solving the "dilemma of decommissioned module landfilling". This dual-drive model of "environmental protection equipment + recycling utilization" not only conforms to the national "dual carbon" strategy but also promotes the evolution of the photovoltaic industry towards a closed-loop ecology of "manufacturing-use-recycling", setting a new benchmark for circular economy in the industry.