Inverkan av munskydd vid luftburna pandemier from ett strömningsmekaniskt perspektiv
Forskningsprojekt, 2020 – 2021

In most countries in the world facemasks are used by the public during the COVID-19 pandemic. There are also scientific reports that suggest that this tactic will slow down the spread of virus. At the same time some governments, especially in the Nordic countries, hesitate and people do not generally wear facemasks. One reason for this large difference is that the mechanism behind the spread of fluid particles of different size, in different environments and when people are wearing facemasks or not, is not known to any large extent. Hence, by using modern numerical and experimental tools within the area of fluid mechanics we aim to gain insights on such multiphase flows and deliver guidelines of the use of facemasks to prevent spreading of virus including COVID-19. Researchers from four major academic institutions in Sweden (CTH, KTH, LTH and LTU) who already formed a network on the subject will work together with tools available at respective university, such as Computational Fluid Dynamics and Lattice Boltzmann codes and experimental set-ups with the Schlieren technique, Particle Image Velocimetry and Holographic methods. Results will be published in scientific journals and will also be spread through media such as Linkedin and Twitter. Towards the end of the project an open workshop will be arranged and finally guidelines will be formulated and published.


Srdjan Sasic (kontakt)

Chalmers, Mekanik och maritima vetenskaper, Strömningslära

Dario Maggiolo

Chalmers, Mekanik och maritima vetenskaper, Strömningslära


Kungliga Tekniska Högskolan (KTH)

Stockholm, Sweden

Luleå tekniska universitet

Luleå, Sweden

Lunds tekniska högskola

Lund, Sweden


Vetenskapsrådet (VR)

Projekt-id: 2020-05871
Finansierar Chalmers deltagande under 2020–2021

Relaterade styrkeområden och infrastruktur

C3SE (Chalmers Centre for Computational Science and Engineering)


Hälsa och teknik




Respiratory droplets interception in fibrous porous media

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