Data to Enable Transformation and Optimisation for Concrete Sustainability

MSCA (Marie Skłodowska-Curie)HORIZON-TMA-MSCA-DN-IDID: 101119929
EC Contribution
€31,957
Consortium Size
18 orgs
Start Year
2023
Summary

Cement production is responsible for 8% of global CO2 emissions, mainly from limestone processing to produce clinker. Clinker can be replaced by other raw materials, such as clay, ashes, slags or recycled concrete fines. These materials can be processed into Supplementary Cementitious Materials (SCM), which have a lower CO2 footprint than Portland Cement. DETOCS proposes a new approach to rapidly increase the use of SCMs on existing production facilities: by exploiting the latest innovations in digital tools to predict and control the quality of cement and concrete blends with high amounts of SCMs compared to today’s standards. Our network aims to lay the scientific foundations to create knowledge and new models to study the production of high quality SCMs and their impact on low-carbon cement and concrete mixes. The goal is to reduce clinker factor from ca. 70% today to 40% by 2030 and 25% by 2035, targeting a CO2 emissions of 0.2 t.CO2/t.cement (compared to today’s global average of 0.65 t.CO2/t.cement). At DETOCS, the partners combine top-notch scientific expertise, interdisciplinary know-how, engineering solutions and real-world process data into an industry-driven network. The structured approach combines complementary research for each individual project in the academic and industry sectors. The top-level research work is accompanied by a balanced mix of the newest scientific courses and transferable skills training delivered by each partner locally and in dedicated training schools, seminars, and workshops at the network level. This way, each doctoral candidate builds up deep scientific expertise and interdisciplinary knowledge to deliver game-changing cleantech innovations during and after the project. DETOCS is impact-driven and strives for a portfolio of high-class joint publications, patents, and innovations along the value chain. The project will lay the foundations for first-of-its-kind engineering solutions to decarbonize cement and concrete products.

Consortium (18)

Project Results (16)

Source: CORDIS, the EU research results database.

Publications (11)
Adaptive soft sensor to predict alite fraction clinker production through quasi-ensemble PLS modelling
Challenging Chemical Engineering (GRICU 2025)· 2025DOI
Stefan, Mihnea; FACCO, Pierantonio; Bezzo, Fabrizio; Leal da Silva, Wilson Ricardo
Adaptive soft sensor to predict alite fraction clinker production through quasi-ensemble PLS modelling
Challenging Chemical Engineering (GRICU 2025)· 2025DOI
Stefan, Mihnea; FACCO, Pierantonio; Bezzo, Fabrizio; Leal da Silva, Wilson Ricardo
An Energy-based Characterization on Kaolinitic Clay Calcination: Drop Calorimetry and Standard Heat of Reaction
Shaping the Fate of Low Carbon Cement Science 2025 (LCCS 2025)· 2025DOI
WANG, QUN; Leal da Silva, Wilson Ricardo; Bannerman, Marcus; Pisch, Alexander
Batch-querying Strategies in Bayesian Active Learning Isolation Forests
IFAC-PapersOnLine· 2025DOI
Kalb, Thorsten; Sartor, Davide; Baz Radwan, Fairouz; Zaccaria, Valentina; Masiero, Chiara; SUSTO, GIAN ANTONIO
CALPHAD thermodynamics for OPC clinker mineralogy prediction
Shaping the Fate of Low Carbon Cement Science 2025 (LCCS 2025)· 2025DOI
Bandak, Ramón; Leal da Silva, Wilson Ricardo; Pisch, Alexander
Evaluating the Performance of Passive UHF RFID tags for Traceability of Recycled Concrete Aggregates
The 4th International Conference on Sustainable Building Materials (ICSBM)· 2025DOI
Waris, Muhammad Imran; Di Maio, Francesco; Gebremariam, Abraham Teklay; Hendriks, Max
Evaluating the Performance of Passive UHF RFID tags for Traceability of Recycled Concrete Aggregates
The 4th International Conference on Sustainable Building Materials (ICSBM)· 2025DOI
Waris, Muhammad Imran; Di Maio, Francesco; Gebremariam, Abraham Teklay; Hendriks, Max
Quantifying chloride resistance of concrete from cement paste-scale tests
Shaping the fate of low-carbon cement science 2025 (LCCS 2025)· 2025DOI
Dhanush S Bejjarapu, Beatrice Malchiodi, Karen Scrivener
Reactivity of industrial clays subjected to mechanical activation
Shaping the Fate of Low Carbon Cement Science 2025 (LCCS 2025)· 2025DOI
Pires de Sousa Ramos Cipriano, Marcelly; Pol Segura, Isabel; Georget, Fabien; Matschei, Thomas; Leal da Silva, Wilson Ricardo
To Carbonate or not to Carbonate? An experimental Study on Synthetic and Industrial Recycled Cement Paste
Shaping the fate of low-carbon cement science (LCCS 2025)· 2025DOI
Sruthi Sreeram, Claudia Rodriguez,Isabel Pol Segura, Timothy Wangler, Wilson Ricardo Leal da Silva
Evaluating the applicability of R3-reactivity test (ASTM C1897) to blended systems
American Concrete Institute (ACI) Concrete Convention Fall 2024· 2024DOI
Dhanush S Bejjarapu, Beatrice Malchiodi and Karen Scrivener
Deliverables (4)
Websites, patent fillings, videos etc.
Websites, patent fillings, videos etc.
Other Results (1)
Periodic Reporting for period 1 - DETOCS (Data to Enable Transformation and Optimisation for Concrete Sustainability)