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ISSN Online: 2379-1748

8th Thermal and Fluids Engineering Conference (TFEC)
March, 26-29, 2023, College Park, MD, USA

Characteristics of Flow in the Upper Airway during High Flow Nasal Cannula Oxygen Therapy

Get access (open in a dialog) pages 193-201
DOI: 10.1615/TFEC2023.cnm.046138


High Flow Nasal Cannula (HFNC) oxygen therapy helps patients recover from respiratory distress by providing lower levels of CO2 remaining in the airway at end exhale, which should be minimized for more effective patient recovery. Computational Fluid Dynamics (CFD) models were run with a generic HFNC geometry, one of two High Velocity Nasal Insufflation (HVNI) cannula geometries, and no cannula, each for open and closed mouth flush scenarios. With an open mouth, the CO2 remaining in the airway at end exhale was 1.97 mg and 1.95 mg for the HVNI cannulas, 4.24 mg for the generic HFNC geometry, and 10.5 mg for the model with no cannula. For the closed mouth models, the distinction was smaller. Numerous internal flow mechanisms were responsible for CO2 reduction. It was found that the higher velocity from the HVNI cannulas created a higher resistance against the infiltration of exhaled CO2 into the upper airway. The HVNI cannulas also began flushing the airway (reducing total mass CO2 in the airway) earlier in the exhalation cycle than both the HFNC and no cannula models. The higher resistance to expiratory flow entering the upper airway and earlier transition to flush led to the HVNI cannula geometries delivering more effective therapy than the HFNC or no therapy models.