CORDIS provides links to public deliverables and publications of HORIZON projects.
Links to deliverables and publications from FP7 projects, as well as links to some specific result types such as dataset and software, are dynamically retrieved from OpenAIRE .
Deliverables
A finite-element model updating approach capable of estimating the mass and damping influence of soil in large-strain dynamic soil-structure interaction, verified against centrifuge model data - preliminary (skeleton) version
Optimised scour design and protection for GBS - preliminary (opens in new window)Optimised design method for scour evaluation around GBS and scour protection design method optimised to the requirements of the likely scour condition, validation against computational fluid dynamic analyses and scaled tests - preliminary version
SSI model - preliminary (opens in new window)A set of curves describing the evolution of irreversible settlements and capacity with the number of cycles that depend on foundation and soil improvement geometry - preliminary version
CPT cyclic model - preliminary (opens in new window)A numerical modelling framework for cyclic soil-pile interaction of large-diameter monopiles using CPT data under scour - preliminary
Create Dissemination Channels (e-Flyers, e-Brochures, Press Releases, e-Book) (opens in new window)Report outlining the creation of the various Dissemination Channels (e-Flyers, e-Brochures, Press Releases, and e-Book)
Fatigue model for spatial/temporal soil behaviour - preliminary (opens in new window)A methodology for fatigue design for offshore wind foundations incorporating spatial and temporal uncertainty of soil stratigraphy (initial or along the wind turbine lifetime) - preliminary version
Capacity model incorporating soil layer variability - preliminary (opens in new window)A new design methodology to quantify the impact of local soil conditions at the pile base on the axial resistance and stiffness of open-ended piles used as monopiles, jacket piles or anchors for floating wind projects - preliminary
Cyclic model - preliminary (opens in new window)A data-informed analytical model to predict the cyclic response of foundations under 1000s of load cycles incorporating installation effects and cyclic load ratio - preliminary version
Aging curves - preliminary (opens in new window)Design curves for aging that relate the aging (capacity) to the pile geometry - preliminary version
Deformation model - preliminary (opens in new window)Data-informed analytical model to estimate 3D rotation accumulation from multi-directional loads - preliminary version
Uncertainty model - preliminary (opens in new window)A new model quantifying the uncertainty surrounding soil variability in various directions with a view to better understanding the potential variation in resistance and stiffness parameters with resulting impact on foundation serviceability - preliminary version
Driveability model - preliminary (opens in new window)Validated modelling platform to predict monopile driveability. Quantitative understanding of installation effects. Improved design procedures for offshore foundations. Preliminary version of the model.
FRONTIErS Website to be created in M2
Animated Film (opens in new window)Consortium will jointly produce a short animated film, “FRONTIErS Energy”, exploring key issues faced by the industry and the reasons for the careful development of each IRP, in the context of solving issues surrounding the rapid development of turbine sizesoffshore. It will highlight main findings, proposed outputs (Design Guidelines), expected benefits for industry deployment, and the potential future cost savings to society. This video will be posted on YouTube and embedded on the FRONTIErS website.
Publications
Author(s):
K. Dalili Khanghah, C. Altomare, X. Gironella, I. D’Angiuro, R. G. García, J. Sarmiento
Published in:
5th International Symposium on Frontiers in Offshore Geotechnics (ISFOG), 2025
Publisher:
International Society for Soil Mechanics and Geotechnical Engineering
DOI:
10.53243/ISFOG2025-88
Author(s):
M. A. Toma; A. M. Marshall; C. Heron; L. J. Prendergast; V. Zania
Published in:
Offshore Technology Conference, 2025
Publisher:
Society of Petroleum Engineers
DOI:
10.4043/35845-MS
Author(s):
M. Montserrat, M. Arroyo, L. J. Prendergast, C. Reale, T. Miras, E. Fekhari
Published in:
5th International Symposium on Frontiers in Offshore Geotechnics (ISFOG), 2025
Publisher:
International Society for Soil Mechanics and Geotechnical Engineering
DOI:
10.53243/ISFOG2025-439
Author(s):
A. M. Zerihun, Y. Pan, G. Eiksund
Published in:
5TH INTERNATIONAL SYMPOSIUM ON FRONTIERS IN OFFSHORE GEOTECHNICS, 2025
Publisher:
International Society for Soil Mechanics and Geotechnical Engineering
DOI:
10.53243/ISFOG2025-97
Author(s):
J. Tott-Buswell, S. Delgado-Trujillo, L. J. Prendergast, S. Jalbi, J. Hilton, S. Berberic
Published in:
5th International Conferences on Soil Mechanics and Geotechnical Engineering, 2025
Publisher:
International Society for Soil Mechanics and Geotechnical Engineering
DOI:
10.53243/ISFOG2025-62
Author(s):
S. Reidy, R.T. Klinkvort, E. Anderson, H.P. Jostad, K. Gavin
Published in:
5th International Symposium on Frontiers in Offshore Geotechnics (ISFOG), 2025
Publisher:
International Society for Soil Mechanics and Geotechnical Engineering
DOI:
10.53243/ISFOG2025-203
Author(s):
D. León-Vanegas, L.Monforte, M. Arroyo, A. Gens
Published in:
5th International Symposium on Frontiers in Offshore Geotechnics (ISFOG), 2025
Publisher:
International Society for Soil Mechanics and Geotechnical Engineering
DOI:
10.53243/ISFOG2025-136
Author(s):
S. Banaei Moghadam, K. Duffy, L. Flessati, K. Gavin, C.J. Stokman, J.M van Wijk
Published in:
ISFOG 2025 5TH INTERNATIONAL SYMPOSIUM ON FRONTIERS IN OFFSHORE GEOTECHNICS, 2025
Publisher:
International Society for Soil Mechanics and Geotechnical Engineering
DOI:
10.53243/ISFOG2025-111
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