The analysis of infection outbreaks have shown that keeping 1,5 m distance to other people does not always protect from becoming infected. Interventions like wearing masks or costly structural measures like acryl glass barriers are not always necessary or effective.
Validated CFD-tools, like OpenFOAM, allow us to simulate and visualize the dispersion of aerosols under various conditions. In turn, digital simulation enables us to assess the effectiveness of interventions. The opensource nature of OpenFOAM provides the unique framework to generate knowledge about the containment of the spread of the virus in a broad community with increasing speed.
This mini-workshop is aimed at:
- Stating the “need for simulation” based on OpenFOAM® (CFD) for aerosols and air-movement
- Assessing the current status for quickly developing and validating useful measures in protecting people from being infected
- Identify end-users (stakeholder case studies) who will benefit from qualitative measure to make better inform choices for ventilation, placements and distancing in enclosed spaces
1.00 - 1.20 pm Dr. Gerhard Scheuch “Airborne transmission of SARS-CoV-2 virus and consequences for infection control”
1.20 - 1.40 pm Prof. Kevin Maki “Disease transmission through aerosol transport on an urban bus”
1.40 - 2.00 pm Fred Mendonca "CFD verification & validation of underlying physics regimes"
Discussion with Panelists
2.00 - 2.40 pm Moderated discussion and interaction with attendees and all keynote speakers. Audience is invited to bring in their challenges, problem cases & initiatives.
2.40 - 4.00 pm Hands-on to the environmental simulation with a prepared example ventilation (individual login to Cloud and remote applications)
Who should attend?
- Operations managers, operators, production planners, crisis managers
- Facilities managers of urban spaces (offices, assembly plants, restaurants, theatres, common waiting areas, stadiums, shopping centers, etc. …) who would benefit from simulation
- Simulation professionals who have an interest in ventilation management and containment of airborne aerosol virus transmission