Professional Summary

I am a researcher with 20+ years in high-fidelity fluid–structure interaction (FSI), porous-media flow, and computational mechanics for civil/offshore and environmental systems. My current work integrates isogeometric and immersogeometric analysis (IGA/IMGA)—including divergence-conforming B-splines and space–time formulations—to model flexible plates, membranes, and shell–fluid systems under waves, currents, aeration, and ice impact. I develop and compare partitioned vs. monolithic coupling (Aitken/IQN-ILS), enforce interfaces via Nitsche/augmented-Lagrangian methods with VMS/LES stabilization, and use level-set two-phase models for air–water interfaces. In subsurface/environmental hydraulics, I study multiphase and non-Newtonian flow, DNAPL/NAPL transport, and fully coupled THMC behavior in heterogeneous, deformable porous media, linking stochastic KLE random fields with PINN-accelerated reduced-order models (incl. GP-PINNs) for uncertainty-aware, rapid design. I bridge simulation and experiment (PIV, LIF, 3D-printed models) and maintain an HPC toolchain—custom C++/Fortran/Python solvers with MPI/OpenMP—alongside COMSOL, OpenFOAM, and ANSYS Fluent. Applications include floating-solar platforms, wave-energy flaps/foils, spillway/aerator components, dam–reservoir cavitation/impact, vortex-induced vibration, wave/ice–structure interaction, and groundwater contamination remediation. Currently a Visiting Associate Professor (University of Warwick) and Associate Professor (University of Tabriz), I have supervised 30+ MSc/PhD theses and published extensively. I am open to postdoc/joint research and industry collaborations to advance open, reproducible IGA-FSI and porous-media benchmarks and tools.

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