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10.1063/5.0015984

http://scihub22266oqcxt.onion/10.1063/5.0015984
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32624650!7327718!32624650
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suck abstract from ncbi


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pmid32624650      Phys+Fluids+(1994) 2020 ; 32 (6): 063309
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  • Modeling the role of respiratory droplets in Covid-19 type pandemics #MMPMID32624650
  • Chaudhuri S; Basu S; Kabi P; Unni VR; Saha A
  • Phys Fluids (1994) 2020[Jun]; 32 (6): 063309 PMID32624650show ga
  • In this paper, we develop a first principles model that connects respiratory droplet physics with the evolution of a pandemic such as the ongoing Covid-19. The model has two parts. First, we model the growth rate of the infected population based on a reaction mechanism. The advantage of modeling the pandemic using the reaction mechanism is that the rate constants have sound physical interpretation. The infection rate constant is derived using collision rate theory and shown to be a function of the respiratory droplet lifetime. In the second part, we have emulated the respiratory droplets responsible for disease transmission as salt solution droplets and computed their evaporation time, accounting for droplet cooling, heat and mass transfer, and finally, crystallization of the dissolved salt. The model output favourably compares with the experimentally obtained evaporation characteristics of levitated droplets of pure water and salt solution, respectively, ensuring fidelity of the model. The droplet evaporation/desiccation time is, indeed, dependent on ambient temperature and is also a strong function of relative humidity. The multi-scale model thus developed and the firm theoretical underpinning that connects the two scales-macro-scale pandemic dynamics and micro-scale droplet physics-thus could emerge as a powerful tool in elucidating the role of environmental factors on infection spread through respiratory droplets.
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