ICCFD13: 13TH INTERNATIONAL CONFERENCE ON COMPUTATIONAL FLUID DYNAMICS
ICCFD13 at Politecnico di Milano

Submit your abstract & Mini-symposium proposal

Deadline for Minisymposium proposals: December 8, 2025  
Abstract submission deadline: January 26, 2026  

The International Conference on Computational Fluid Dynamics (ICCFD) is a leading biennial event dedicated to all innovative aspects of computational fluid dynamics, both fundamental and applied. It was established in 2000 through the merger of two major conferences: the International Conference on Numerical Methods in Fluid Dynamics (ICNMFD) and the International Symposium on Computational Fluid Dynamics (ISCFD). Since then, 12 editions have been held, rotating among the Americas, Asia-Oceania, and Europe—where the thirteenth edition will take place.

ICCFD13 will be held from July 6 to 10, 2026, at the Bovisa Campus of Politecnico di Milano, in Milan, Italy. The conference will bring together scientists, researchers, and engineers from around the world to exchange ideas and present cutting-edge research. The program will feature five high-profile plenary lectures, in addition to technical sessions covering the latest advances in CFD methods and applications.

Scientific secretary:   iccfd13-daer@polimi.it

 

Areas of interest

Innovative methods for fluid dynamics

  • High-order methods
  • Arbitrary Lagrangian-Eulerian schemes
  • Mesh generation, motion, and adaptation
  • Meshless methods
  • Immersed boundary methods
  • Level-set methods
  • Smooth Particle Hydrodynamics (SPH)
  • Lattice Boltzmann methods
  • Verification & Validation methods
  • Uncertainty Quantification
  • Design and optimisation
  • Machine learning

  

Advanced multidisciplinary applications

  • Fluid Structure Interaction
  • Turbomachinery flows
  • Wind turbines
  • Advanced Air Mobility
  • Icing of structures and aircraft
  • Aeroacoustics
  • Bio-medical/bio-fluid dynamics
  • Magneto-hydrodynamics flows
  • Environmental fluid mechanics
  • Chemically reacting flows
  • Combustion Sprays

  

Flow physics modeling

  • Incompressible flows
  • Multi-phase flows
  • Flow Control
  • Non-newtonian fluids
  • Flows in porous media
  • Turbulence and instabilities
  • Compressible flows
  • Hypersonic flows
  • Rarefied flows
  • Non-ideal Compressible Fluid Dynamics 

HPC: methods and architectures

  • Parallel algorithms
  • Large Scale Applications
  • Open source solvers and toolkit
  • GPU applications
  • Quantum computing  

 

  

 

Department of Aerospace Science and Technology, Politecnico di Milano