L
Lidia Morawska
Researcher at Queensland University of Technology
Publications - 777
Citations - 132997
Lidia Morawska is an academic researcher from Queensland University of Technology. The author has contributed to research in topics: Particle number & Ultrafine particle. The author has an hindex of 100, co-authored 746 publications receiving 95412 citations. Previous affiliations of Lidia Morawska include University of Surrey & Jinan University.
Papers
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Investigation into chemistry of new particle formation and growth in subtropical urban environment
Farhad Salimi,Leigh R. Crilley,Leigh R. Crilley,Svetlana Stevanovic,Zoran Ristovski,Mandana Mazaheri,Congrong He,Graham R. Johnson,Godwin A. Ayoko,Lidia Morawska +9 more
TL;DR: The role of different chemical compounds, particularly organics, involved in the new particle formation (NPF) and its consequent growth are not fully understood as discussed by the authors, however, this study was conducted to investigate the chemistry of aerosol particles during NPF events in an urban subtropical environment.
Could BFFB mode breath aerosol play a role in H5N1 transmission
TL;DR: The model of the resulting droplet size distribution is therefore called the Bronchial Laryngeal Oral (B.L.O.) tri-modal model of expired aerosol.
Dispersion of Corona Ions Downwind from a High-Voltage Power line
TL;DR: In this article, the effect of corona ions on air ions, aerosol particle charge concentration and dc e-filed was investigated as a function of normal downwind distance from a 275kV power line.
Posted ContentDOI
The Vaccination Threshold for SARS-CoV-2 Depends on the Indoor Setting and Room Ventilation
Alex Mikszewski,Alex Mikszewski,Luca Stabile,Giorgio Buonanno,Giorgio Buonanno,Lidia Morawska,Lidia Morawska +6 more
TL;DR: In this article, the authors estimate the vaccination threshold for SARS-CoV-2 to range from a low of 40% for a mechanically ventilation classroom to a high of 85% in a naturally ventilated restaurant.
Journal ArticleDOI
Size-dependent aerosol penetration through facemasks and respirators (FMRs) during simulated exhalation and cough
Tomasz R. Sosnowski,Lidia Morawska,Justyna Szczepańska,Ernest Szajna,A. I. Vilkotsky,Marcin Odziomek +5 more
TL;DR: In this paper , a silicone model of a standardized face for controlled flow patterns (steady flow, typical exhalation or flow pulses associated with coughing/sneezing) was used to push test aerosols (0.5-20 μm) through valved or non-valved respirators, surgical masks and cloth masks.