Research project
PhD thesis: discrete closure models

Four years of the “discretize first, filter next” program in one document: treat the grid, the filter, and the numerical scheme as part of the physics before any closure modeling takes place. Covers divergence-consistent filters, exact unresolved-stress expressions, symmetry-preserving architectures, and the differentiable software that runs it all.
Paper

Data-driven discrete closure models for large-eddy simulation of incompressible turbulence
