Summary
CEBREWA (Construction & Environmental Biocementation in REal World Applications) tackles the emerging ground stabilisation problems which are becoming increasingly pressing in construction and environmental engineering. Ground stabilization mitigates stability risks associated with geohazards, such as earthquakes, soil erosion, and landslides. Such problems are expected to be further intensified by extreme weather and aging infrastructure. Traditionally, ground stabilization is applied to roads, railroads, airfields, embankments, reservoirs, bank protection, canals, dams, and coastal engineering. Rapid urbanization, particularly in developing regions, is fuelling the ground stabilization market growth. This is primarily due to: (i) the scarcity of suitable land for development and (ii) the need to extend existing infrastructure (typically by building more floors, and therefore increasing the loads sustained by foundations) to support increasing populations in urban zones. The mineral additives & stabilizing agents segment currently accounts for the largest share in the ground stabilization market. Mineral & stabilizing agents include, amongst others, cement, lime, fly ash, and polyurethane resins. This market has not been disrupted for decades, with current solutions complex and expensive, mainly due to the heavy equipment required for their application, and often hazardous to the environment, as they rely on the extensive use of industrial fluids or microplastics. The ERC-funded project BIOGEOS (grant agreement 788587) focuses on bio-mediated, nature-inspired ground reinforcement (bio-cementation). The goal is to develop and master the complete, industrial-scale system which will allow fast and reproducible ground bio-cementation applications. The PoC is expected to result in IP consolidation, scaling-up of production through outsourcing and demonstration of value created for end-users.
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More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/963913 |
| Start date: | 01-02-2021 |
| End date: | 31-07-2022 |
| Total budget - Public funding: | - 150 000,00 Euro |
Cordis data
Original description
CEBREWA (Construction & Environmental Biocementation in REal World Applications) tackles the emerging ground stabilisation problems which are becoming increasingly pressing in construction and environmental engineering. Ground stabilization mitigates stability risks associated with geohazards, such as earthquakes, soil erosion, and landslides. Such problems are expected to be further intensified by extreme weather and aging infrastructure. Traditionally, ground stabilization is applied to roads, railroads, airfields, embankments, reservoirs, bank protection, canals, dams, and coastal engineering. Rapid urbanization, particularly in developing regions, is fuelling the ground stabilization market growth. This is primarily due to: (i) the scarcity of suitable land for development and (ii) the need to extend existing infrastructure (typically by building more floors, and therefore increasing the loads sustained by foundations) to support increasing populations in urban zones. The mineral additives & stabilizing agents segment currently accounts for the largest share in the ground stabilization market. Mineral & stabilizing agents include, amongst others, cement, lime, fly ash, and polyurethane resins. This market has not been disrupted for decades, with current solutions complex and expensive, mainly due to the heavy equipment required for their application, and often hazardous to the environment, as they rely on the extensive use of industrial fluids or microplastics. The ERC-funded project BIOGEOS (grant agreement 788587) focuses on bio-mediated, nature-inspired ground reinforcement (bio-cementation). The goal is to develop and master the complete, industrial-scale system which will allow fast and reproducible ground bio-cementation applications. The PoC is expected to result in IP consolidation, scaling-up of production through outsourcing and demonstration of value created for end-users.Status
CLOSEDCall topic
ERC-2020-POCUpdate Date
27-04-2024
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