The SSECOID project, has achieved a significant milestone in its research dissemination efforts. As part of its commitment to advancing scientific knowledge and fostering collaboration, the project has successfully produced 9 peer-reviewed publications, all of which are fully aligned with Horizon 2020 policy, ensuring they are available through open access at no cost to readers. This achievement reflects the project’s dedication to making its findings accessible to the wider scientific community, promoting transparency, and enabling further innovation.
In addition to these 10 published works, the fellows are currently preparing at least 7 more peer-reviewed publications, which are either in revision or nearing completion. These publications, like the previous ones, will be made available through open access platforms, ensuring that the valuable insights generated by the project are freely accessible to researchers, practitioners, and policymakers across the globe.
The open-access approach aligns with Horizon 2020’s strategic priorities, which emphasize the importance of making research outputs publicly available to maximize the impact of EU-funded projects. By removing barriers to access, these publications will contribute to the acceleration of scientific discovery and the exchange of knowledge within the European research community and beyond.
This progress is a testament to the project’s commitment to excellence in research and dissemination, and it underscores the importance of collaboration in achieving the goals set out by Horizon 2020. With the continued publication of high-quality, open-access research, the SSECOID project is contributing to a more inclusive and accessible scientific environment, paving the way for further advancements in aeronautics.
Below is a list of the peer-revied publications generated by the project to date, all of which are available in Open Access for the entire scientific community:
Linear stability analysis of turbulent mean flows based on a data-consistent Reynolds-averaged Navier–Stokes model: prediction of three-dimensional stall cells around an airfoil
Journal of Fluid Mechanics | DOI:10.1017/jfm.2024.1009
A multigrid immersed boundary method for the CFD solver Horses3D
A multigrid immersed boundary method for the CFD solver Horses3D – Colombo et al 2022d – Scipedia
HORSES3D: A high-order discontinuous Galerkin solver for flow simulations and multi-physics applications
HORSES3D: A high-order discontinuous Galerkin solver for flow simulations and multi-physics applications – ScienceDirect
Impact of harmonic inflow variations on the size and dynamics of the separated flow over a bump
Impact of harmonic inflow variations on the size and dynamics of the separated flow over a bump | Phys. Rev. Fluids
A flux-differencing formulation with Gauss nodes
A flux-differencing formulation with Gauss nodes – ScienceDirect
NekMesh: An open-source high-order mesh generation framework
NekMesh: An open-source high-order mesh generation framework – ScienceDirect
High-Order Curvilinear Mesh Generation From Third-Party Meshes
Proceedings of the 2024 International Meshing Roundtable (IMR) | High-Order Curvilinear Mesh Generation From Third-Party Meshes
A high-order immersed boundary method to approximate flow problems in domains with curved boundaries
A high-order immersed boundary method to approximate flow problems in domains with curved boundaries – ScienceDirect
Curvilinear Mesh Generation for the High-Order Virtual Element Method (VEM)
Curvilinear Mesh Generation for the High-Order Virtual Element Method (VEM) | SpringerLink
A high-order local correlation based transition model for transonic airfoil flows
A high-order local correlation based transition model for transonic airfoil flows – ScienceDirect
