Highly efficient multi-zone drying for plastics recycling and industrial material processing
Drying is one of the most cost-intensive steps in plastics recycling. Conventional systems usually combine several external units – with high space requirements, high energy consumption and a lot of interface loss.
By specifically dividing the drying process into three coordinated zones, energy is shifted internally, used intelligently and thermally recycled. The result: maximum efficiency with high throughput.
Entwässerung: mechanische Grobabscheidung
Zentrifugal-Trocknung mit hoher Drehzahl
Thermomechanische Endtrocknung – unterstützt durch Wärmepumpe
Kompakte Bauweise: geringerer Platz- und Leitungsbedarf
The clear functional separation within the system and the recovery of thermal energy ensure unprecedented drying efficiency – and at the same time reduce mechanical effort and maintenance.
Bis zu 80 % weniger Energieverbrauch
30 % geringerer mechanischer Aufbau
Minimaler Förderweg, geringere Reibungsverluste
Minimaler Förderweg, geringere Reibungsverluste
ESG-konform durch CO₂-Reduktion
| Key figure | Value |
|---|---|
| Energy saving | up to 80 % |
| CO₂ reduction | up to 30 % |
| Mechanical reduction | approx. 30 % |
| Amortization period | < 3 years |
The TMT can be flexibly integrated and scaled – and covers a wide range of materials in the recycling and production environment. It is also possible to retrofit existing systems.
Plastic recycling (PET, PE, films, mixed plastics)
Food processing (e.g. biopolymers)
Chemistry & industrial granulates
Cooling stages in metal and surface technology
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