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Aerosol Science and Technology Volume 14, 1991 - Issue 3
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Original Articles

Particle Deposition in Cyclic Bifurcating Tube Flow

Chong S. Kim Aerosol Research Laboratory, Pearlman Biomedical Research Institute, Mount Sinai Medical Center, Miami Beach, FL, 33140
&
L. Garcia Aerosol Research Laboratory, Pearlman Biomedical Research Institute, Mount Sinai Medical Center, Miami Beach, FL, 33140
Pages 302-315 | Received 18 Apr 1990, Accepted 05 Sep 1990, Published online: 08 Jun 2007

Citations (27)

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Read on this site (5)

Yue Zhou & Yung-Sung Cheng. (2005) Particle Deposition in a Cast of Human Tracheobronchial Airways. Aerosol Science and Technology 39:6, pages 492-500.
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JackyA. Rosati, David Leith & ChongS. Kim. (2003) Monodisperse and Polydisperse Aerosol Deposition in a Packed Bed. Aerosol Science and Technology 37:6, pages 528-535.
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Zhe Zhang, Clement Kleinstreuer & ChongS. Kim. (2002) Aerosol Deposition Efficiencies and Upstream Release Positions for Different Inhalation Modes in an Upper Bronchial Airway Model. Aerosol Science and Technology 36:7, pages 828-844.
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Z. Zhang, C. Kleinstreuer & C.S. Kim. (2002) Computational Analysis of Micron-particle Deposition in a Human Triple Bifurcation Airway Model. Computer Methods in Biomechanics and Biomedical Engineering 5:2, pages 135-147.
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Amy Li & Goodarz Ahmadi. (1995) Computer Simulation of Particle Deposition in the Upper Tracheobronchial Tree. Aerosol Science and Technology 23:2, pages 201-223.
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Articles from other publishers (22)

Ahmed Hafez & J. Carlos Santamarina. (2024) Particle transport during asymmetric net-zero cyclic fluid flow: Flow in tubes and radial flow in fractures. Powder Technology 434, pages 119306.
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Debjit Kundu & Mahesh V. Panchagnula. (2023) Asymmetric lung increases particle filtration by deposition. Scientific Reports 13:1.
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Adam H. Sonnenberg, Edward Taylor, Jarred R. Mondoñedo, Samer Bou Jawde, Samir D. Amin, Jiaxi Song, Mark W. Grinstaff & Béla Suki. (2020) Breath Hold Facilitates Targeted Deposition of Aerosolized Droplets in a 3D Printed Bifurcating Airway Tree. Annals of Biomedical Engineering 49:2, pages 812-821.
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Adam H. Sonnenberg, Jacob Herrmann, Mark W. Grinstaff & Béla Suki. (2020) A Markov chain model of particle deposition in the lung. Scientific Reports 10:1.
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Mohammed Alzahrany, Timothy Van Rhein, Arindam Banerjee & Gary Salzman. (2015) Fluid flow and particle transport in mechanically ventilated airways. Part II: particle transport. Medical & Biological Engineering & Computing 54:7, pages 1097-1109.
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Mohammed Alzahrany & Arindam Banerjee. (2015) Role of carrier gases in enhancement of gas exchange and aerosol–drug delivery under invasive high frequency oscillatory ventilation. Journal of Aerosol Science 88, pages 1-18.
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Mohammed Alzahrany & Arindam Banerjee. (2015) Aerosolized drug delivery in patient-specific lung model during invasive high frequency oscillatory ventilation. Journal of Aerosol Science 81, pages 1-20.
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Jinxiang Xi, Xiuhua A. Si & Jong Won Kim. 2015. Heat Transfer and Fluid Flow in Biological Processes. Heat Transfer and Fluid Flow in Biological Processes 125 155 .
Jong Won KimJinxiang XiXiuhua A. Si. (2012) Dynamic growth and deposition of hygroscopic aerosols in the nasal airway of a 5‐year‐old child. International Journal for Numerical Methods in Biomedical Engineering 29:1, pages 17-39.
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Robert Sturm. (2010) Deposition and cellular interaction of cancer-inducing particles in the human respiratory tract: Theoretical approaches and experimental data. Thoracic Cancer 1:4, pages 141-152.
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Wei-Chung Su & Yung Sung Cheng. (2009) Deposition of man-made fibers in human respiratory airway casts. Journal of Aerosol Science 40:3, pages 270-284.
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Qingxing Xu, Fong Yew Leong & Chi-Hwa Wang. (2009) Transport and deposition of inertial aerosols in bifurcated tubes under oscillatory flow. Chemical Engineering Science 64:5, pages 830-846.
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Clement Kleinstreuer, Zhe Zhang & Zheng Li. (2008) Modeling airflow and particle transport/deposition in pulmonary airways. Respiratory Physiology & Neurobiology 163:1-3, pages 128-138.
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Árpád Farkas & Imre Balásházy. (2008) Quantification of particle deposition in asymmetrical tracheobronchial model geometry. Computers in Biology and Medicine 38:4, pages 508-518.
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. 2005. Inhaled Particles. Inhaled Particles 93 107 .
Z. Zhang, C. Kleinstreuer & C.S. Kim. (2002) Gas–solid two-phase flow in a triple bifurcation lung airway model. International Journal of Multiphase Flow 28:6, pages 1021-1046.
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Z. Zhang & C. Kleinstreuer. (2002) Transient airflow structures and particle transport in a sequentially branching lung airway model. Physics of Fluids 14:2, pages 862-880.
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Z. Zhang, C. Kleinstreuer & C.S. Kim. (2002) Cyclic micron-size particle inhalation and deposition in a triple bifurcation lung airway model. Journal of Aerosol Science 33:2, pages 257-281.
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Z. Zhang, C. Kleinstreuer & C.S. Kim. (2001) Effects of curved inlet tubes on air flow and particle deposition in bifurcating lung models. Journal of Biomechanics 34:5, pages 659-669.
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M.P. Kissane, N. Abkari & M. Ait-Ammi. (1994) 27.P.03 A study of models and experiments involving aerosol impaction in bends, changes of cross-section and simple junctions. Journal of Aerosol Science 25, pages 453-454.
Crossref
Chong S Kim, Donald M Fisher, David J Lutz & Timothy R Gerrity. (1994) Particle deposition in bifurcating airway models with varying airway geometry. Journal of Aerosol Science 25:3, pages 567-581.
Crossref
Alfred D. Eisner. (1993) Universal bifurcation model and its application to study local particle transport phenomena in upper airways. Journal of Aerosol Science 24:4, pages 537-549.
Crossref

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