A Territorial Construction System for a Circular Low-Carbon Built Environment

HORIZON.2.6HORIZON-IAID: 101082265
EC Contribution
โ‚ฌ59,846
Consortium Size
17 orgs
โ–ถSummary

Globally, the Construction industry is responsible for over 30% of the extraction of natural resources, 25% of solid waste generated and 40% of Greenhouse Gases (GHG) emissions. Around a third of these emissions come from embodied carbon in construction. Cement and Steel are responsible for most of the embodied GHGs, representing >80% of the total. With recycling of cement and steel having a limited potential for further improving material efficiency, the focus is on replacing them with low-carbon alternatives and/or embedding them in reusable construction components. RECONSTRUCT will (i) develop low-carbon alternatives to Ordinary Portland Cement (OPC), to be used in both renovations and new buildings, and incorporate Construction & Demolition Waste (CDW) and other waste as much as possible, (ii) manufacture construction components that use such materials and are designed for modularity and dismantling so they can either be reused or easily disassembled and recycled, (iii) embed deconstruction in building design and construct circular low-carbon buildings that produce near-zero CDW across their lifecycle. These objectives will become possible through (i) the digitization of construction materials, products and buildings, (ii) the extensive use of digital tools to support the design, construction and deconstruction phases of the circular building and (iii) the regionalization of the construction value chain through the creation of regional ecosystems of stakeholders covering all the aspects of circular construction. The RECONSTRUCT concept will be demonstrated by setting up to Territorial Circular Clusters, in Brussels and Barcelona, and using RECONSTRUCT's materials, components and innovative tools to design and construct two real-scale demonstrator buildings. By doing so, RECONSTRUCT aims to demonstrate its high impact potential (including a GHG reduction potential of 137,12 Mt CO2 per year, avoidance of 85 million tonnes of CDW per year and substitution of 197 Mt of OPC concrete per year) and its economic feasibility.

Consortium (17)

Project Results (15)

Source: CORDIS, the EU research results database.

โ–ถPublications (7)
Construction and demolition waste material library based on vision systems data
Data in Briefยท 2025DOI
Maria Teresa Calcagni, Giovanni Salerno, Gloria Cosoli, Giuseppe Pandarese, Gian Marco Revel
Uncertainty analysis in the estimation of construction and demolition wastes emissivity through infrared thermography
Acta IMEKOยท 2025DOI
Giovanni Salerno, Gloria Cosoli, Maria Teresa Calcagni, Giuseppe Pandarese, Gian Marco Revel
How to Quickly Characterize Construction and Demolition Wastes? Traditional and Advanced Portable Solutions in Comparison
2024 IEEE International Workshop on Metrology for Living Environment (MetroLivEnv)ยท 2024DOI
Alessandra Mobili, Maria Teresa Calcagni, Gian Marco Revel, Jacopo Donnini, Gloria Cosoli, Simona Sabbatini, Francesca Tittarelli, Giovanni Salerno, Elena Leoni, Valeria Corinaldesi
How to Valorize Construction and Demolition Wastes? Beyond the State of the art Through Vision Systems and Artificial Intelligence Tools
2024 IEEE International Workshop on Metrology for Living Environment (MetroLivEnv)ยท 2024DOI
Gloria Cosoli, Giovanni Salerno, Maria Teresa Calcagni, Giuseppe Pandarese, Luca Violini, Evelyne El Masri, Henrique De Melo Ribeiro, Mohmmad Ali Asgar Abbas, Gian Marco Revel
Caratterizzazione di rifiuti da costruzione e demolizione mediante analisi termografica (Characterization of construction and demolition wastes via thermographic analysis)
Francesca Maria Zucchi; Advisor: Gian Marco Revel; Co-advisor: Giuseppe Pandarese
Caratterizzazione di rifiuti di costruzione e demolizione tramite analisi iperspettrale (Construction and demolition waste characterization through hyperspectral analysis)
Enrico Magi Galluzzi; Advisor: Gian Marco Revel; Co-advisor: Gloria Cosoli, Maria Teresa Calcagni
Utilizzo di sottoprodotti industriali come precursori alternativi per malte ad attivazione alcalina (Use of industrial by-products as alternative precursor for alkali-activated mortars)
Francesca Maria Zucchi; Advisor: Gian Marco Revel; Co-advisor: Giuseppe Pandarese
โ–ถDeliverables (7)
Demonstrators, pilots, prototypes
Documents, reports
Documents, reports
Documents, reports
Websites, patent fillings, videos etc.
โ–ถOther Results (1)
Periodic Reporting for period 1 - RECONSTRUCT (A Territorial Construction System for a Circular Low-Carbon Built Environment)