Airflow patterns in both sides of a realistic human nasal cavity for laminar and turbulent conditions

Proceedings of the 16th Australasian Fluid Mechanics Conference, 16AFMC

Volumn , Issue , 2007, Pages 68-74

  Wen, J ^a   Inthavong, K ^a   Tian, Z F ^a   Tu, J Y ^a   Xue, C L ^a   Li, C G ^a  

^a RMIT UNIVERSITY   (Australia)

Author keywords

[No Author keywords available]

Indexed keywords

AIR FLOW-RATE; AIRFLOW DISTRIBUTION; AIRFLOW PATTERNS; COMPUTATIONAL MODEL; GAS-PARTICLE FLOWS; HEALTH IMPLICATIONS; HUMAN NASAL CAVITY; MAXIMUM VELOCITY; NASAL CAVITY; NUMERICAL DATA;

AIR; FLOW PATTERNS; FLUID MECHANICS;

RESPIRATORY MECHANICS;

EID: 84863011532     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (22)

1. Bridger G.P., Procter D.F., Maximum Nasal Inspiratory Flow and Nasal Resistance. Ann. Otol., 79, 1970,481-488.
2. Bardina J. E., Huang P. G., and Coakley T. J., Turbulence modeling validation, testing and development, NASA-TM-110446,1997.
3. Cheng Y.S., Yeh H.C. and Guilmette R.A., Nasal Deposition of Ultrafine Particles in Human Volunteers and Its Relationship to Airway Geometry, Aerosol Sci. Tech., 25,1996, 274-291. (Pubitemid 26327549)
4. Churchill S.E., Shackelford L.L., Georgi J.N., and Black M.T., Morphological Variation and Airflow Dynamics in the Human Nose, Am. J. of Hum. Biol., 16,2004, 625-638. (Pubitemid 39517310)
5. Escudier M., Vortex Breakdown: Observations and Explanations, Prog. Aerospace Sci., 25,1988, 189-229.
6. Hahn I., Scherer P.W., and Mozell M.M., Velocity Profiles Measured for Airflow Through a Large-scale Model of the Human Nasal Cavity, J. Appl. Physiol., 75,1993, 2273-2287. (Pubitemid 23352406)
7. Haubermann S., Bailey A.G., Bailey M.R., Etherington G., Guilmette R.A., Youngman M.J., Influence of Anatomical Factors on Particle Deposition in the Nose, J. Aerosol Sci.,31, 2001,134-135.
8. Illum L., Transport of Drugs From the Nasal Cavity to the Central Nervous System, Eur. J. Pharm. Sci., 11,2000,1-18. (Pubitemid 30410839)
9. Inthavong K., Tian Z.F., Li H.F., Tu J.Y., Yang W., Xue C.L. and Li C.G., A Numerical Study of Spray Particle Deposition in a Human Nasal Cavity, Aerosol Sci. Tech.,40,2006,1034-1045.
10. Kelly J.T., Prasad A.k., and Wexler A.S., Detailed Flow Patterns in the Nasal Cavity, J Appl. Physiol., 89, 2000,323-337. (Pubitemid 30482596)
11. Keyhani K., Scherer P.W. and Mozell M.M., Numerical Simulation of Airflow in the Human Nasal Cavity, J. Biomech Eng., 117,1995,429-441.
12. Lindemann J., Keck T., Wiesmiller K., Sander B., Brambs H.J., Rettinger G., and Pless D., A Numerical Simulation of Intranasal Air Temperature during Inspiration, Laryng., 114, 2004, 1037-1041. (Pubitemid 38736513)
13. Naftali S., Rosenfeld M., Wolf M., and Elad D., The Air-Conditioning Capacity of the Human Nose, Annals of Biomed. Eng., 33, 2005. 545-553. (Pubitemid 40626493)
14. Pless D., M.S., Keck T., m.d., Weismiller K.M. et al., Numerical Simulation of Airflow Patterns and Air Temperature Ditrbution during Insapiration in a Nose Model with Septal Performance, Am. J. Rhinol.,18,2004,357-362.
15. Robert G. H., Forced Inspiratory Nasal Flow-volume Curves: A Simple Test of Nasal Airflow. Mayo Clin. Proc., 76, 2001, 990-994.
16. Schreck S., Sullivan K.J., Ho C.M. and Chang H.K., Correlations Between Flow Resistance and Geometry in a Model of the Human Nose, J. Appl. Physiol., 75, 1993,1767-1775. (Pubitemid 23318229)
17. Schroeter J. D., Kimbell J. S., Asgharian B., Analysis of Particle Deposition in the Turbinate and Olfactory Regions Using a Human Nasal Computational Fluid Dynamics Model, J. Aerosol Med., 19,2006,301-313. (Pubitemid 44735388)
18. Subramaniam R.P., Richardson R.B., Morgan K.T., Kimbell J. S. and Guilmette R.A., Computational Fluid Dynamics Simulations of Inspiratory Airflow in the Human Nose and Nasopharynx, Inhal. Toxicol., 10,1998,91-120. (Pubitemid 28132010)
19. Wang K., Jr.T.S.D., Morrison E.E., Vodyanoy V.J., Numerical Simulation of Air Flow in the Human Nasal Cavity, Proceeding of the 2005 IEEE, 2005,5607-5610. (Pubitemid 46230229)
20. Weinhold I. and Mlyynski G., Numerical Simulation of Airflow in the Human Nose, Eur. Arch. Otorhinolaryngol, 261,2004, 452-455. (Pubitemid 39304403)
21. Wilcox D. C., Tubuence Modelling for CFD, DCW Industries, Inc., La Canada, California, 1998.
22. Zamankhan P., Ahmadi G., Wang Z., Hopke P.K., Cheng Y.S., Su W.C. and Lenoard D., Airflow and Deposition of Nano-particles in a Human Nasal Cvity, Aerosol Sci. Tech.,40,2006,463-476. (Pubitemid 43670356)