Research
My work focuses on computational hemodynamics in the pulmonary circulation: coupling 3D computational fluid dynamics with 0D/1D LPN models, structured-tree microvascular boundary conditions, and microvascular adaptation models for predictive surgery planning.
Interests
- Pulmonary artery CFD and reduced-order modeling
- Structured-tree outflow boundary conditions and impedance tuning
- Adaptive radius/thickness models under shear and transmural stress
Methods
- Patient-specific 3D CFD with svMultiPhysics coupled to LPN
- Boundary condition tuning with Nelder-Mead optimization of structured tree parameters
- Informing + validating mechanobiological models of pulmonary microvascular adaptation
Tools
- svZeroDTrees
- svZeroDSolver
- svMultiPhysics
- SimVascular
- ParaView
- Sherlock HPC cluster
- Python, C++