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W2811153352 abstract "This work describes an extensive numerical investigation of thermal water delivery for the treatment of inflammatory disorders in the human nasal cavity. The numerical simulation of the multiphase air-droplets flow is based upon the Large Eddy Simulation (LES) technique, with droplets of thermal water described via a Lagrangian approach. Droplet deposition is studied for different sizes of water droplets, corresponding to two different thermal treatments, i.e. aerosol and inhalation. Numerical simulations are conducted on a patient-specific anatomy, employing two different grid sizes, under steady inspiration at two breathing intensities. The results are compared with published in vivo and in vitro data. The effectiveness of the various thermal treatments is then assessed qualitatively and quantitatively, by a detailed analysis of the deposition patterns of the droplets. Discretization effects on the deposition dynamics are addressed. The level of detail of the present work, together with the accuracy afforded by the LES approach, leads to an improved understanding of how the mixture of air-water droplets is distributed within the nose and the paranasal sinuses." @default.
W2811153352 created "2018-07-10" @default.
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W2811153352 date "2018-09-01" @default.
W2811153352 modified "2023-10-02" @default.
W2811153352 title "Numerical simulation of thermal water delivery in the human nasal cavity" @default.
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W2811153352 cites W1566765291 @default.
W2811153352 cites W1595241212 @default.
W2811153352 cites W1963575001 @default.
W2811153352 cites W1964441072 @default.
W2811153352 cites W1975901076 @default.
W2811153352 cites W1977477354 @default.
W2811153352 cites W1979176272 @default.
W2811153352 cites W1982290049 @default.
W2811153352 cites W1983860044 @default.
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W2811153352 cites W1990585140 @default.
W2811153352 cites W1996462236 @default.
W2811153352 cites W1998002087 @default.
W2811153352 cites W1998792586 @default.
W2811153352 cites W1998865822 @default.
W2811153352 cites W2003013273 @default.
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W2811153352 cites W2009198143 @default.
W2811153352 cites W2017946595 @default.
W2811153352 cites W2019599859 @default.
W2811153352 cites W2031052999 @default.
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W2811153352 doi "https://doi.org/10.1016/j.compbiomed.2018.06.029" @default.
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