Fundamental Medical and Engineering Investigations on Protective Artificial Respiration [electronic resource]: A Collection of Papers from the DFG Funded Research Program PAR / edited by Michael Klaas, Edmund Koch, Wolfgang Schrëder.
Colaborador(es): Klaas, Michael
| [editor.] | Koch, Edmund | [editor.] | Schrëder, Wolfgang | [editor.] | SpringerLink (Online service)Tipo de material: 
TextoSeries Notes on Numerical Fluid Mechanics and Multidisciplinary Design; -116Descripción: X, 186 p. online resourceISBN: 9783642203268 99783642203268Tema(s): Engineering | Engineering | APPL.MATHEMATICS./ COMPUTATIONAL METHODS OF ENGINNEERING | PNEUMOLOGY, RESPIRATORY SYSTEM | PNEUMOLOGY | HYDRAULIC ENGINEERING | ENGINEERING FLUID DYNAMICS | ENGINEERING MATHEMATICS | BIOCHEMICAL ENGINEERING | BIOCHEMICAL ENGINEERINGClasificación CDD: 620.1064 Recursos en línea: ir a documento
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Resumen: This volume contains a collection of papers from the research program "Protective Artificial Respiration (PAR)". In 2005 the German Research Association DFG launched the research program PAR which is a joint initiative of medicine and fluid mechanics. The main long-term objective of this program is the development of a more protective artificial respiratory system to reduce the physical stress of patients undergoing artificial respiration. To satisfy this goal 11 projects have been defined. In each of these projects scientists from medicine and fluid mechanics do collaborate in several experimental and numerical investigations to improve the fundamental knowledge on respiration and to develop a more individual artificial breathing concept.
Advanced Multi-Scale Modelling of the Respiratory System -- Analysis of the Flow in Dynamically Changing Central Airways -- Cell Physiology and Fluid Mechanics in the Pulmonary Alveolus and its Capillaries -- Experimental and numerical investigation on the flow-induced stresses on the alveolar-epithelial-surfactant-air interface -- Fluid mechanical equilibrium processes in a multi-bifurcation model -- In vivo microscopy and analysis of regional ventilation in a porcine model of acute lung injury -- Magnetic Resonance Imaging and Computational Fluid Dynamics of High Frequency Oscillatory Ventilation (HFOV) -- The effect of unsteadiness on particle reposition in human upper and lung airways -- Transport at air-liquid bridges under high-frequency ventilation.
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| 620.1064 223 Computational Science and High Performance Computing IV | 620.1064 223 Computational Fluid Dynamics 2010 | 620.1064 223 Vapor-Liquid Interfaces, Bubbles and Droplets | 620.1064 223 Fundamental Medical and Engineering Investigations on Protective Artificial Respiration | 620.1064 223 Near-Field Characterization of Micro /Nano-Scaled Fluid Flows | 620.1064 223 Environmental Wind Engineering and Design of Wind Energy Structures | 620.1064 223 Water Waves and Ship Hydrodynamics |
Advanced Multi-Scale Modelling of the Respiratory System -- Analysis of the Flow in Dynamically Changing Central Airways -- Cell Physiology and Fluid Mechanics in the Pulmonary Alveolus and its Capillaries -- Experimental and numerical investigation on the flow-induced stresses on the alveolar-epithelial-surfactant-air interface -- Fluid mechanical equilibrium processes in a multi-bifurcation model -- In vivo microscopy and analysis of regional ventilation in a porcine model of acute lung injury -- Magnetic Resonance Imaging and Computational Fluid Dynamics of High Frequency Oscillatory Ventilation (HFOV) -- The effect of unsteadiness on particle reposition in human upper and lung airways -- Transport at air-liquid bridges under high-frequency ventilation.
This volume contains a collection of papers from the research program "Protective Artificial Respiration (PAR)". In 2005 the German Research Association DFG launched the research program PAR which is a joint initiative of medicine and fluid mechanics. The main long-term objective of this program is the development of a more protective artificial respiratory system to reduce the physical stress of patients undergoing artificial respiration. To satisfy this goal 11 projects have been defined. In each of these projects scientists from medicine and fluid mechanics do collaborate in several experimental and numerical investigations to improve the fundamental knowledge on respiration and to develop a more individual artificial breathing concept.
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