icnmmf5

International Conference on Numerical Methods in Multiphase Flows – 4

September 28-30, 2022, Venice, Italy

The complete conference program and book of abstracts has been posted here

ICNMMF-4 will be held in-person. Accordingly, we are carefully monitoring the evolution of the COVID-19 pandemic. All prevention and sanitation measures required to guarantee a safe environment will be taken. We have established convenient and secure cancellation and reimbursement planning for registration and lodging. Further Covid-19 details

Scope
Considering the vast importance of multiphase flows in many applications ranging from medicine to aeronautics, and the growing importance of Computational Fluid Dynamics in multiphase flows, we are hosting the 4th International Conference on Numerical Methods in Multiphase Flows (ICNMMF-4), to be held in Venice, Italy, from September 28-30, 2022.

The idea behind this conference series is to have an international high-level meeting, focused on numerical aspects with respect to the latest developments and needs in CFD for multiphase flows. Our intent is to bring together, for the fourth time, the international community in a focused technical exchange environment.

ICNMMF-4 will comprise plenary, keynote, oral and poster presentations; plenary and keynote talks of selected outstanding contributions addressing numerical aspects in advanced methods, and oral and poster presentations on progress in numerical methods for Multiphase-CFD. There will be no manuscripts.

As in the previous conferences, we seek to put special emphasis on research needs and future actions from a methodological perspective. Thus, contributions should be concerned with recent developments in CFD technology, new research ideas, techniques, and directions.

We are looking forward to welcoming you all at ICNMMF-4.

Topics

Methods & Models

Progress in Multiphase-CFD approaches, e.g. in Direct Numerical Simulation (sharp vs. diffuse interface models), two-/multi-fluid models, particle-based methods, meshless methods, hybrid methods;
Advanced explicit/implicit/adaptively implicit collocated/staggered discretization techniques, enhanced numerical schemes, e.g. high-order schemes;
Rigorous models and numerical methods for multiphysics at interfaces;
Advanced algorithms and solution techniques for coupled multiphase systems;
Modern (object oriented, generic and meta) programming techniques;
Adaptive, dynamic and multiscale techniques;
Numerical benchmarks (Verification & Validation) for method development;
High Performance Computing (HPC) and Parallel computing methods, Techniques for large-scale simulations of multiphase systems;
Optimization, Controllability, Uncertainty Quantification
Machine-Learning and Data-driven Techniques for Multiphase Flow Simulations

Applications

Segregated multiphase flows, e.g., two-phase/free-surface flows;
Dispersed multiphase flows, e.g., bubble/droplet flow, sprays, fluidized beds, particulate flow/multi-particle systems, polydispersity;
Turbulence in two- and multiphase flows;
Interfacial Heat and Mass Transfer, Phase change, Cavitation;
All speed multiphase flow: High Mach-number flows, Compressibility;
Multicomponent & Reacting multiphase systems;
Electrochemistry applications, transport of charged species in multiphase systems (hydrogen production, batteries);
Interfacial flows & Interfacial multiphysics

Sponsors