This project has received funding from the European Union's Horizon H2020 research and innovation programme under grant agreement No 955986
As one of the oldest building materials, lime still plays an essential role in constructions, and its global market is on the rise.
The EU-funded SUBLime project will develop the most advanced technology in lime-based materials modelling and description for industrial use that will surpass existing solutions in the new construction and conservation sectors.
The project will train 15 PhD students in multiple scientific and engineering fields. It will assist them to better understand sustainable innovations in both added functionalities and sustainability features in lime mortars and plaster, firmly based on innovative biomimetic and closed-loop recycling methods.
The cross-disciplinary method applied by SUBLime will improve the scientific knowledge of the academic and industrial members of the EU's lime sector.
Lime is one of the earliest industrial commodities known to man and it continues to be one of the essential building blocks of modern Society.
The global lime market is anticipated to approach the value of 44 Billion Euros by the end of 2026 and resulting in various growth opportunities for key players.
The SUBLime network aims to develop the most advanced technology in lime-based materials modelling and characterization for industrial use that will go beyond the limitations of existing solutions in new construction and conservation in the built heritage.
It is firstly dedicated to recruit and train fifteen PhD students in multiple scientific and engineering fields towards a better understanding and development of sustainable innovations in both added functionalities and sustainability aspects in lime mortars and plasters, strongly based on novel biomimetic and closed-loop recycling approaches.
The project covers the main features of lime-based applications analysis, including material characterization, numerical non-linear modelling of multiphysics behaviour, functionality and sustainability in lime use and performance-based design.
These new developments include capacities such as: self-cleaning, (super-) hydrophobicity, self-healing, enhanced (catalysed) CO2 capture capabilities, and considers closed-loop recycling.
The crossdisciplinary approach throughout the SUBLime value chain, leveraging the knowledge of the academic (6) and industrial members (11), such as lime producers, mortar/plaster/block producers, and end-users for the prioritization of industrial needs, will dramatically increase the transfer of scientific knowledge to the lime-consuming industries in the EU, ensuring their progress on social, environmental and economic aspects, and product understanding.
- UNIVERSIDAD DE GRANADA
- TECHNISCHE UNIVERSITEIT DELFT
- UNIVERSITEIT GENT
- POLITECHNIKA SLASKA
- TECHNISCHE UNIVERSITAT DARMSTADT
Start date: 1 February 2021 - End date: 31 January 2025