Summary
ICEBERG will make significant advances in the uptake of the circular economy in the building industry through the development of innovative circular reverse logistics’ tools and high-value secondary raw materials production technologies to establish market confidence and acceptability of recycled End-of-Life building materials (EBM).
ICEBERG aims to design, develop, demonstrate and validate advanced technologies for the production of high-purity secondary raw materials (>92%w) through 6 circular case studies (CCS) across Europe, covering circularity of wood, concrete, mixed aggregate, plasterboard, glass, polymeric insulating foams and inorganic superinsulation materials. ICEBERG will generate cross-cutting integrated smart solutions that encompass three innovative circular reverse logistics’ strategies: an upgraded BIM-aided-Smart Demolition tool; a novel digital EBM traceability platform; and Radio Frequency and QR based identification system. ICEBERG will develop novel technologies for the recovery of EBM, which include: hyperspectral imaging (HSI), machine-learning software and robotic manipulators to increase sorting efficiency of mixed aggregates; an integrated crushing, sorting and cleaning optimized system and fast pyrolysis and purification processes for wood fractions; thermal attrition mobile unit integrated with LIBS and carbonation for concrete; hydrocyclone combined with HSI sorting and acid purification to increase the purity of recycled plasterboard; a combined process of purification and solvolysis for polymeric insulating foams; advanced hydrothermal and supercritical based processing of glass and silica containing waste. Circular design solutions for greater circularity of EBM and production of innovative circular building products with high purity and recycled content (30% - 100%) will be also implemented. ICEBERG will generate in the mid-term an economic benefit of 1758 M€ and 6265 new jobs by 2030.
ICEBERG aims to design, develop, demonstrate and validate advanced technologies for the production of high-purity secondary raw materials (>92%w) through 6 circular case studies (CCS) across Europe, covering circularity of wood, concrete, mixed aggregate, plasterboard, glass, polymeric insulating foams and inorganic superinsulation materials. ICEBERG will generate cross-cutting integrated smart solutions that encompass three innovative circular reverse logistics’ strategies: an upgraded BIM-aided-Smart Demolition tool; a novel digital EBM traceability platform; and Radio Frequency and QR based identification system. ICEBERG will develop novel technologies for the recovery of EBM, which include: hyperspectral imaging (HSI), machine-learning software and robotic manipulators to increase sorting efficiency of mixed aggregates; an integrated crushing, sorting and cleaning optimized system and fast pyrolysis and purification processes for wood fractions; thermal attrition mobile unit integrated with LIBS and carbonation for concrete; hydrocyclone combined with HSI sorting and acid purification to increase the purity of recycled plasterboard; a combined process of purification and solvolysis for polymeric insulating foams; advanced hydrothermal and supercritical based processing of glass and silica containing waste. Circular design solutions for greater circularity of EBM and production of innovative circular building products with high purity and recycled content (30% - 100%) will be also implemented. ICEBERG will generate in the mid-term an economic benefit of 1758 M€ and 6265 new jobs by 2030.
Unfold all
/
Fold all
More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/869336 |
Start date: | 01-05-2020 |
End date: | 30-04-2024 |
Total budget - Public funding: | 15 667 498,00 Euro - 12 997 935,00 Euro |
Cordis data
Original description
ICEBERG will make significant advances in the uptake of the circular economy in the building industry through the development of innovative circular reverse logistics’ tools and high-value secondary raw materials production technologies to establish market confidence and acceptability of recycled End-of-Life building materials (EBM).ICEBERG aims to design, develop, demonstrate and validate advanced technologies for the production of high-purity secondary raw materials (>92%w) through 6 circular case studies (CCS) across Europe, covering circularity of wood, concrete, mixed aggregate, plasterboard, glass, polymeric insulating foams and inorganic superinsulation materials. ICEBERG will generate cross-cutting integrated smart solutions that encompass three innovative circular reverse logistics’ strategies: an upgraded BIM-aided-Smart Demolition tool; a novel digital EBM traceability platform; and Radio Frequency and QR based identification system. ICEBERG will develop novel technologies for the recovery of EBM, which include: hyperspectral imaging (HSI), machine-learning software and robotic manipulators to increase sorting efficiency of mixed aggregates; an integrated crushing, sorting and cleaning optimized system and fast pyrolysis and purification processes for wood fractions; thermal attrition mobile unit integrated with LIBS and carbonation for concrete; hydrocyclone combined with HSI sorting and acid purification to increase the purity of recycled plasterboard; a combined process of purification and solvolysis for polymeric insulating foams; advanced hydrothermal and supercritical based processing of glass and silica containing waste. Circular design solutions for greater circularity of EBM and production of innovative circular building products with high purity and recycled content (30% - 100%) will be also implemented. ICEBERG will generate in the mid-term an economic benefit of 1758 M€ and 6265 new jobs by 2030.
Status
SIGNEDCall topic
CE-SC5-07-2018-2019-2020Update Date
27-10-2022
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
H2020-EU.3.5. SOCIETAL CHALLENGES - Climate action, Environment, Resource Efficiency and Raw Materials