The challenge
Retired wind blades need a new end-of-life pathway.
Thousands of wind turbine blades are reaching end of life across Europe and require scalable alternatives to landfill.
Blade recycling hub · Moldova
ALTIM RE transforms retired wind turbine blades into new industrial material streams through on-site preparation, controlled logistics and advanced material recovery.
Recovery journey
ALTIM RE manages the full transition from blade decommissioning to controlled transport, mechanical processing, material separation and industrial reuse pathways.
Blade sections are prepared where they rest, reducing handling complexity before transport.
Material flows are directed to a dedicated Moldovan hub designed for scalable blade recycling.
Recovered streams are prepared for construction, cement, composites, insulation and filler markets.
ALTIM RE manages panel collection and automated dismantling, separating glass, aluminium, silicon and metals for high-yield industrial reuse.
Junction boxes, glass and aluminium frames are removed by dedicated automated stations.
Crushing and sorting equipment recovers metal, silicon, glass and plastic at recovery rates above 95%.
Recovered streams are prepared for construction, electronics and manufacturing supply chains.
The challenge
Thousands of wind turbine blades are reaching end of life across Europe and require scalable alternatives to landfill.
On-site cutting
Trained workers segment the blade on site using manual laser cutting systems.
Transport
Flatbed logistics move blade sections along a controlled route toward the ALTIM RE recycling hub.
Facility arrival
Incoming material is unloaded, inspected, weighed and prepared for the recycling line.
Primary shredding
Primary shredding reduces blade sections into smaller, uniform pieces for downstream recovery.
Material separation
Advanced separation technology recovers dedicated material streams for industrial reuse.
New life
Recovered streams can support cement, composites, insulation and industrial filler applications.
Regional hub
ALTIM RE is positioned to serve wind operators and industrial partners across Eastern Europe.
The challenge
Global PV panel waste is projected to reach around 8 million tonnes by 2030, and existing waste systems are not built for large-scale panel recovery.
Collection
Panels reaching end of life or damaged in service are gathered from installations and staged for transport to the recycling facility.
Facility arrival
Incoming panels are unloaded, inspected and queued for the automated dismantling line.
Junction box removal
A dedicated J-box removing machine detaches one or more junction boxes from each panel before further processing.
Glass removal
A glass removing machine lifts most of the surface glass away from the laminate, handling panels up to about 1,250 mm wide.
Frame removal
An aluminium frame removing machine detaches the frame from around the panel edge for separate recovery.
Crushing & sorting
Crushing and sorting equipment breaks down the remaining layers to recover metal powder, silicon, copper, silver and plastic, at recovery rates above 95%.
New life
Recovered glass, aluminium, silicon and metals are prepared for reuse in construction, electronics and manufacturing supply chains.
Industrial impact
ALTIM RE connects renewable-energy decommissioning with construction, cement and industrial material markets.
Partnerships
We are preparing a regional recycling hub for wind operators, industrial partners, cement producers and investors across Eastern Europe.
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