https://orcid.org/0000-0002-8982-5871
References
- Bazant, M. Z., and J. W. M. Bush. 2020. “Beyond Six Feet: A Guideline to Limit Indoor Airborne Transmission of Covid-19,” medRxiv. https://doi.org/https://doi.org/10.1101/2020.08.26.20182824.
- Bourouiba, L. 2020. “Turbulent Gas Clouds and Respiratory Pathogen Emissions: Potential Implications for Reducing Transmission of COVID-19.” JAMA 323 (18): 1837–1838. https://doi.org/https://doi.org/10.1001/jama.2020.4756
- Bourouiba, L., E. Dehandschoewercker, and J. Bush. 2014. “Violent Expiratory Events: on Coughing and Sneezing.” Journal of Fluid Mechanics 745: 537–563.
- Dbouk, T., and D. Drikakis. 2020. “On Coughing and Airborne Droplet Transmission to Humans.” Phys Fluids 32 (5): 053310. https://doi.org/https://doi.org/10.1063/5.0011960
- Diwan, S., S. Ravichandran, R. Govindarajan, and R. Narasimha. 2020. “Understanding Transmission Dynamics of Covid-19-type Infections by Direct Numerical Simulations of Cough/sneeze Flows.” Transactions of the Indian National Academy of Engineering 5: 255–261.
- Domino, S. 2006. “Toward Verification of Formal Time Accuracy for a Family of Approximate Projection Methods Using the Method of Manufactured Solutions.” In Studying Turbulence Using Numerical Simulation Databases -- XI, edited by P. Moin, N. Mansour, 163–177. Stanford Center for Turbulence Research.
- Domino, S. 2014. Sierra Low-Mach Module Nalu: Theory Manual, Tech. Rep. SAND2015-3107W, Sandia National Laboratories SAND Series, Albuquerque, NM.
- Domino, S. 2018. “Design-order, Non-conformal Low-Mach Fluid Algorithms Using a Hybrid CVFEM/DG Approach.” Journal of Computational Physics 359: 331–351.
- Domino, S., F. Pierce, and J. Hubbard. 2020. “A Multi-Physics Computational Investigation of Droplet Pathogen Transport Emanating From Synthetic Coughs and Breathing,” Atom. and Sprays (accepted).
- Domino, S., P. Sakievich, and M. Barone. 2019. “An Assessment of Atypical Mesh Topologies for Low-Mach Large-eddy Simulation.” Computers & Fluids 179: 655–669.
- Domino, S., G. Wagner, A. Luketa-Hanlin, A. Black, and J. Sutherland. 2007. “Verification for Multi-Mechanics Applications, no. 2007-1933.” In 48th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Honolulu, HI, April 23–26, 2007, AIAA, AIAA, Washington, DC.
- Duguid, J. P. 1946. “The Size and the Duration of Air-cariage of Respitory Droplets and Droplet Nuclei.” The Journal of Hygiene 44 (6): 471–479.
- Feng, Y., T. Marchal, T. Sperry, and Y. Hang. 2020. “Influence of Wind and Relative Humidity on the Social Distancing Effectiveness to Prevent Covid-19 Airborne Transmission: A Numerical Study.” Journal of Aerosol Science 147: 105585.
- Gosman, A., and E. Ionnides. 1981. “Aspects of Computer Simulation of Liquid-Fueled Combustors.” AIAA Paper 81-0323 81-0323.
- Gupta, J. K., C. H. Lin, and Q. Chen. 2009. “Flow Dynamics and Characterizations of a Cough.” Indoor Air 19: 517–525.
- Gustin, K. M., J. M. Katz, T. M. Tumpey, and T. R. Maines. 2013. “Comparison of the Levels of Infectious Virus in Respirable Aerosols Exhaled by Ferrets Infected with Influenza Viruses Exhibiting Diverse Transmissibility Phenotypes.” Journal of Virology 87 (14): 7864–7873. https://doi.org/https://doi.org/10.1128/JVI.00719-13
- Heyder, J. 2004. “Deposition of Inhaled Particles in the Human Respiratory Tract and Consequences for Regional Targeting in Respiratory Drug Delivery.” Proceedings of the American Thoracic Society 1 (4): 315–320.
- Ho, C. 2020. Modeling Airborne Transmission of SARS-CoV-2 (COVID-19), Tech. Rep. SAND2020-10253, Sandia National Laboratories SAND Series, Albuquerque, NM.
- Jofre, L., S. Domino, and G. Iaccarino. 2019. “Eigensensitivity Analysis of Subgrid-scale Stresses in Large-eddy Simulation of a Turbulent Axisymmetric Jet.” International Journal of Heat and Fluid Flow 77: 314–335.
- Johnson, P., J. Bassenne, and P. Moin. 2020. “Turbophoresis of Small Inertial Particles: Theoretical Considerations and Application to Wall-modelled Large-eddy Simulations.” Journal of Fluid Mechanics 883: A27–A38. https://doi.org/https://doi.org/10.1017/jfm.2019.865
- Kwon, K., J. Park, Y. Park, D. Jung, K. Ryu, and J. Lee. 2020. “Evidence of Long-distance Droplet Transmission of Sars-cov-2 by Direct Air Flow in a Restaurant in Korea.” Journal of Korean Medical Science 35 (46): 1–8. https://doi.org/https://doi.org/10.3346/jkms.2020.35.e415
- Lai, A., and Y. Cheng. 2007. “Study of Expiratory Droplet Dispersion and Transport Using a New Eulerian Modeling Approach.” Atmospheric Environment 41: 7473–7484.
- Lindsley, W., F. Blachere, R. Thewlis, A. Vishnu, and K. Davis. 2012. “Measurements of Airborne Influenza Virus in Aerosol Particles for Human Coughs.” PloS One 5 (11): 443–449.
- Mahesh, K. 2013. “The Interaction of Jets with Crossflow.” Annual Review of Fluid Mechanics 45 (1): 379–407. https://doi.org/https://doi.org/10.1146/annurev-fluid-120710-101115
- Nicas, M., W. W. Nazaroff, and A. Hubbard. 2005. “Toward Understanding of the Risk of Secondary Airborne Infection: Emission and Respirable Pathogens.” Journal of Occupational and Environmental Hygiene 2: 143–154.
- Paolucci, S. 1982. On the Filtering of Sound Waves From the Navier-Stokes Equations, Tech. Rep. SAND82-8257, Sandia National Laboratories SAND Series, Albuquerque, NM.
- Ranz, W., and W. R. Marshall. 1952. “Evaporation From Drops.” Chemical Engineering Progress 48: 141–146.
- Schneider, G., M. Raw, and A. skewed. 1986. “positive Influence Coefficient Upwinding Procedure for Control-volume-based Finite-element Convection-diffusion Computation.” Numerical Heat Transfer 9: 1–26.
- Shuen, J. S., L. D. Chen, and G. M. Faeth. 1983. “Evaluation of a Stochastic Model of Particle Dispersion in a Turbulent Round Jet.” AIChE Journal American Institute of Chemical Engineers 29: 167–170.
- Sierra low-Mach Module Fuego. 2017. Theory manual version 4.46, Tech. Rep. SAND2017-10407, Sandia National Laboratories SAND Series, Albuquerque, NM.
- Smagorinsky, J. 1963. “General Circulation Experiments with the Primitive Equations.” Month Weather Rev 91: 99–164.
- Tellier, R. 2005. “Review of Aersol Transmission of Influenze A Virus.” Emerging Infectitous Diseases 12: 1657–1662.
- van Doremalen, N., T. Bushmaker, D. H. Morris, M. G. Holbrook, A. Gamble, B. N. Williamson, A. Tamin, et al. 2020. “Aerosol and Surface Stability of SARS-CoV-2 As Compared with Sars-cov-1.” New England Journal of Medicine 382 (16): 1564–1567. https://doi.org/https://doi.org/10.1056/NEJMc2004973
- Vinatagamoorthy, D. 2021. “Flexi Robot Assembled,” available from: https://grabcad.com/library/flexi-robot-assembled-1 [last accessed March 2021].
- Watanabe, T., T. Bartrand, M. Weir, T. Omura, and C. Haas. 2010. “Development of a Dose-response Model for SARS Coronavirus..” Risk Analysis 30 (7): 1129–38.
- Xie, X., Y. Li, A. T. Y. Chwang, P. L. Ho, and W. H. Seto. 2007. “How Far Droplets Can Move in Indoor Environments, Revisiting the Wells Evaporation Falling Curve.” Indoor Air 17: 211–225.