Research Fellows
- Jan Hückelheim (ESR 1 at QMUL)
Application of AD for unsteady flows - Mateusz Gugala (ESR 2 at QMUL)
Multi-fidelity unsteady optimisation - Siamak Akbarzadeh Lalkami (ESR 3 at QMUL)
Discrete Adjoint solver based on OpenFOAM - Giorgos Karpouzas (ESR 4 at ENGYS)
Topology Optimisation based in OPENFOAM Continuous Adjoint Solver - George Eleftheriou (ESR 5 at ESI)
Discrete Adjoint Solvers and Parallelisation - Mattia Oriani (ESR 6 at ESI)
Discrete unsteady adjoint solver - Ala Taftaf (ESR 7 at INRIA)
Source transformation AD tools - Christos Vezyris (ESR 8 at NTUA)
OpenFOAM-based continuous adjoint method for aerodynamic optimization of unsteady turbulent flows - Mehdi Ghavami Nejad (ESR 9 at NTUA)
Discrete and continuous adjoint methods: GPU-enabled and one-shot adjoints, for unsteady flow optimisation - Georgios Ntanakas (ESR 10 at RR)
Regularisation of turbo-machinery flows with unsteady flow separations - Zahrasadat Dastouri (ESR 11 at RWTH)
Operator-overloading AD tools, application to ACE+ - Arindam Sen (ESR 12 at RWTH)
Operator-overloading OpenFOAM - Nikolaos Magoulas (ESR 13 at VW)
Application of continuous and discrete adjoint OpenFOAM to unsteady car aerodynamics, Adjoint-based optimisation workflows - Sheikh Razibul Islam (ESR 14 at WUT)
Adaptation for unsteady adjoint optimisation