Modeling the human larynx can provide insights into the nature of the flow and pressures within the glottis. In this study, the intraglottal pressures and glottal jet flow were studied for a divergent glottis that was symmetric for one case and oblique for another. A Plexiglas model of the larynx (7.5 times life size) with interchangeable vocal folds was used. Each vocal fold had at least 11 pressure taps. The minimal glottal diameter was held constant at 0.04 cm. The glottis had an included divergent angle of 10 degrees. In one case the glottis was symmetric. In the other case, the glottis had an obliquity of 15 degrees. For each geometry, transglottal pressure drops of 3, 5, 10, and 15 cm were used. Pressure distribution results, suggesting significantly different cross-channel pressures at glottal entry for the oblique case, replicate the data in another study by Scherer et al. [J. Acoust. Soc. Am. 109, 1616–1630 (2001b)]. Flow visualization using a LASER sheet and seeded airflow indicated separated flow inside the glottis. Separation points did not appear to change with flow for the symmetric glottis, but for the oblique glottis moved upstream on the divergent glottal wall as flow rate increased. The outgoing glottal jet was skewed off-axis for both the symmetric and oblique cases. The laser sheet showed asymmetric circulating regions in the downstream region. The length of the laminar core of the glottal jet was less than approximately 0.6 cm, and decreased in length as flow increased. The results suggest that the glottal obliquity studied here creates significantly different driving forces on the two sides of the glottis (especially at the entrance to the glottis), and that the skewed glottal jet characteristics need to be taken into consideration for modeling and aeroacoustic purposes.
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January 2003
January 08 2003
Flow visualization and pressure distributions in a model of the glottis with a symmetric and oblique divergent angle of 10 degrees
Daoud Shinwari;
Daoud Shinwari
Department of Communication Disorders, Bowling Green State University, 200 Health Center, Bowling Green, Ohio 43402
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Ronald C. Scherer;
Ronald C. Scherer
Department of Communication Disorders, Bowling Green State University, 200 Health Center, Bowling Green, Ohio 43402
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Kenneth J. DeWitt;
Kenneth J. DeWitt
Department of Communication Disorders, Bowling Green State University, 200 Health Center, Bowling Green, Ohio 43402
Chemical Engineering, The University of Toledo, 3060 Nitschke Hall, Toledo, Ohio 43606-3390
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Abdollah A. Afjeh
Abdollah A. Afjeh
Mechanical, Industrial and Manufacturing Engineering, The University of Toledo, 4006D Nitschke Hall, Toledo, Ohio 43606-3390
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J. Acoust. Soc. Am. 113, 487–497 (2003)
Article history
Received:
May 28 2001
Accepted:
October 08 2002
Citation
Daoud Shinwari, Ronald C. Scherer, Kenneth J. DeWitt, Abdollah A. Afjeh; Flow visualization and pressure distributions in a model of the glottis with a symmetric and oblique divergent angle of 10 degrees. J. Acoust. Soc. Am. 1 January 2003; 113 (1): 487–497. https://doi.org/10.1121/1.1526468
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