Literature DB >> 24031095

A Porous Media Model for Blood Flow within Reticulated Foam.

J M Ortega1.   

Abstract

A porous media model is developed for non-Newtonian blood flow through reticulated foam at Reynolds numbers ranging from 10-8 to 10. This empirical model effectively divides the pressure gradient versus flow speed curve into three regimes, in which either the non-Newtonian viscous forces, the Newtonian viscous forces, or the inertial fluid forces are most prevalent. When compared to simulation data of blood flow through two reticulated foam geometries, the model adequately captures the pressure gradient within all three regimes, especially that within the Newtonian regime where blood transitions from a power-law to a constant viscosity fluid.

Entities:  

Keywords:  Biomedical engineering; Blood; Computational fluid dynamics; Foam; Non-newtonian fluid; Porous media

Year:  2013        PMID: 24031095      PMCID: PMC3767460          DOI: 10.1016/j.ces.2013.05.025

Source DB:  PubMed          Journal:  Chem Eng Sci        ISSN: 0009-2509            Impact factor:   4.311


  23 in total

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3.  Ultra Low Density and Highly Crosslinked Biocompatible Shape Memory Polyurethane Foams.

Authors:  Pooja Singhal; Jennifer N Rodriguez; Ward Small; Scott Eagleston; Judy Van de Water; Duncan J Maitland; Thomas S Wilson
Journal:  J Polym Sci B Polym Phys       Date:  2012-03-04

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Journal:  J Appl Physiol       Date:  1966-01       Impact factor: 3.531

8.  Cold hibernated elastic memory foams for endovascular interventions.

Authors:  Annick Metcalfe; Anne-Cécile Desfaits; Igor Salazkin; L'Hocine Yahia; Witold M Sokolowski; Jean Raymond
Journal:  Biomaterials       Date:  2003-02       Impact factor: 12.479

9.  Virtual treatment of basilar aneurysms using shape memory polymer foam.

Authors:  J M Ortega; J Hartman; J N Rodriguez; D J Maitland
Journal:  Ann Biomed Eng       Date:  2013-01-18       Impact factor: 3.934

10.  Effect of non-newtonian behavior on hemodynamics of cerebral aneurysms.

Authors:  Carolyn Fisher; Jenn Stroud Rossmann
Journal:  J Biomech Eng       Date:  2009-09       Impact factor: 2.097
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