Abstract
A quantitative mathematical examination of contemporary models of pulmonary gas transport and mixing is presented. Thisexamination involved both a reappraisal of the boundary
condititons assumed in these models and an exhaustive account of their respective stability and convergence criteria. As a result of this examination a revised single series
compartmental mathematical model, derived from physiological
data and incorporating revised boundary conditions, is developed to allow for a more faithful simulation of pulmonary gas transport phenomena.
The model is used to demonstrate that the expired "phase III slope" or “alveolar plateau slope" of a tracer gas may give an indication of end expiratory stratified concentration
differences in the acinus. The model also allows for a comparison between rigid and compliant model predictions at low tidal ventilations...
| Date of Award | May 1979 |
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| Original language | English |
| Awarding Institution |
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Keywords
- Mathematical examination
- pulmonary gas transport