Computational model of trachea-alveoli gas movement during spontaneous breathing

• Computational model of respiratory gases transport, from the entrance in the airway to the alveoli. • A diffusion coefficient is determined that considers four species of gases. • Speed of entry in the model has been constructed mathematically from stretches. • Shows relation of the frequency–diap...
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Autor*in:	Jiménez-Posada, L.D. [verfasserIn] Maya, Juan C. Sánchez-Ocampo, M. López-Isaza, S. Cortes-Ospina, S. Montagut-Ferizzola, Y.J. Torres, R.

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2021

Schlagwörter:	Lung model simulations Oxygen and carbon dioxide transport Pulmonary gas transport models Convective and diffusive gas transport Mathematical model

Übergeordnetes Werk:	Enthalten in: Usage of formal financial services in India: Demand barriers or supply constraints? - Kumar, Abhishek ELSEVIER, 2018, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:294 ; year:2021 ; pages:0

Links:	Volltext

DOI / URN:	10.1016/j.resp.2021.103767

Katalog-ID:	ELV055286542

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author	Jiménez-Posada, L.D.
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topic_title	330 VZ Computational model of trachea-alveoli gas movement during spontaneous breathing Lung model simulations Elsevier Oxygen and carbon dioxide transport Elsevier Pulmonary gas transport models Elsevier Convective and diffusive gas transport Elsevier Mathematical model Elsevier
topic	ddc 330 Elsevier Lung model simulations Elsevier Oxygen and carbon dioxide transport Elsevier Pulmonary gas transport models Elsevier Convective and diffusive gas transport Elsevier Mathematical model
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title	Computational model of trachea-alveoli gas movement during spontaneous breathing
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title_sort	computational model of trachea-alveoli gas movement during spontaneous breathing
title_auth	Computational model of trachea-alveoli gas movement during spontaneous breathing
abstract	• Computational model of respiratory gases transport, from the entrance in the airway to the alveoli. • A diffusion coefficient is determined that considers four species of gases. • Speed of entry in the model has been constructed mathematically from stretches. • Shows relation of the frequency–diaphragm displacement in mouth and alveolar level. • The model adequately represents the phenomenon of intrapulmonary stratification.
abstractGer	• Computational model of respiratory gases transport, from the entrance in the airway to the alveoli. • A diffusion coefficient is determined that considers four species of gases. • Speed of entry in the model has been constructed mathematically from stretches. • Shows relation of the frequency–diaphragm displacement in mouth and alveolar level. • The model adequately represents the phenomenon of intrapulmonary stratification.
abstract_unstemmed	• Computational model of respiratory gases transport, from the entrance in the airway to the alveoli. • A diffusion coefficient is determined that considers four species of gases. • Speed of entry in the model has been constructed mathematically from stretches. • Shows relation of the frequency–diaphragm displacement in mouth and alveolar level. • The model adequately represents the phenomenon of intrapulmonary stratification.
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title_short	Computational model of trachea-alveoli gas movement during spontaneous breathing
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