CMG Granulators at GCPRS 2026

In the plastics recycling industry, attention is often focused on productivity, the quality of recovered material and waste valorisation. Far less attention is paid to a factor that directly affects all these aspects: the quality of the regrind. Starting from this premise, and driven by the conviction that not all regrind delivers the same value, CMG Granulators will attend GCPRS 2026, the third Global Conclave on Plastic Recycling and Sustainability, taking place in New Delhi from 3 to 5 July, with a clear message: “Not all regrind is the same”.

As the market increasingly embraces recycled materials while striving to maximise plant performance, regrind quality has become a strategic factor. Particle size consistency, dust-free material and material stability have a direct impact on: the efficiency of downstream processing operations; production continuity; the quality of the finished product; the economic value of the recovered material. Higher-quality regrind translates into lower scrap rates, more stable production processes and greater material value.

The centrepiece of the company's presence at the Indian event will be the EV 92-220 granulator from the Evolution Series. Designed for high-capacity recycling applications, this model represents the evolution of the industrial granulation concept, with an approach focused not merely on size reduction but on the quality of the final output. Its key benefits include: high throughput; uniform, dust-free regrind; reduced energy consumption; maximum accessibility for maintenance; operational continuity and long-term reliability. The Evolution Series embodies CMG's vision that granulation is not simply one stage of the recycling process, but a tangible means of enhancing the overall performance of the entire plant.

Alongside the EV 92-220, CMG will also showcase its technologies for complete recycling systems, including TRM shredders and regrind conveying and dedusting systems. These technologies are designed to operate in synergy, maximising the overall efficiency of recycling plants.