Litcius/Paper detail

Experimental visualization of sneezing and efficacy of face masks and shields

Venugopal Arumuru, Jangyadatta Pasa, Sidhartha Sankar Samantaray

2020Physics of Fluids80 citationsDOIOpen Access PDF

Abstract

In the present work, we propose and demonstrate a simple experimental visualization to simulate sneezing by maintaining dynamic similarity to actual sneezing. A pulsed jet with Reynolds number Re = 30 000 is created using compressed air and a solenoid valve. Tracer particles are introduced in the flow to capture the emulated turbulent jet formed due to a sneeze. The visualization is accomplished using a camera and laser illumination. It is observed that a typical sneeze can travel up to 25 ft in ∼22 s in a quiescent environment. This highlights that the present widely accepted safe distance of 6 ft is highly underestimated, especially under the act of a sneeze. Our study demonstrates that a three-layer homemade mask is just adequate to impede the penetration of fine-sized particles, which may cause the spreading of the infectious pathogen responsible for COVID-19. However, a surgical mask cannot block the sneeze, and the sneeze particle can travel up to 2.5 ft. We strongly recommend using at least a three-layer homemade mask with a social distancing of 6 ft to combat the transmission of COVID-19 virus. In offices, we recommend the use of face masks and shields to prevent the spreading of droplets carrying the infectious pathogen. Interestingly, an N-95 mask blocks the sneeze in the forward direction; however, the leakage from the sides and top spreads the sneeze in the backward direction up to 2 ft. We strongly recommend using the elbow or hands to prevent droplet leakage even after wearing a mask during sneezing and coughing.

Topics & Concepts

PhysicsVisualizationReynolds numberTurbulenceFace masksShieldsCoronavirus disease 2019 (COVID-19)SimulationComputer scienceElectromagnetic shieldingMedicineArtificial intelligenceMechanicsInfectious disease (medical specialty)PathologyDiseaseQuantum mechanicsInfection Control and VentilationCOVID-19 and healthcare impactsClimate Change and Health Impacts