An Overview of Blood Analogues Used in Bioengineering

Abstract: Biyomühendislikte yapılan çalışmalarda in vitro deneyler için gerçek kanın kullanılması; elde edilmesi, saklanması, manipülasyonu, büyük miktarlarda gerekli olması, hava ile temas ettiğinde yapısının değişmesi ve toksisitesi gibi nedenlerden dolayı pek mümkün değildir. Bu yüzden in vitro ortamda yapılan deneylerde kan yerine kullanılacak sıvıların araştırılması önemli bir konudur. Bu sıvıların insan kanına benzer reolojik özellikler göstermesi beklenir. Fakat kan reolojisi son derece karmaşık olduğundan, kanın… Show more

“…The absence of closed analytical formulas for the flow of non-Newtonian fluids in annuli undoubtedly complicates the theoretical and practical analysis of similar problems in other scientific disciplines, such as for the analysis of the behavior of blood flow and its analogs in medicine and biology. [38][39][40] Therefore, there is a need for developing mathematical expressions for investigations of the theoretical and practical problems encountered in interdisciplinary fields such as chemical, mining, mechanical, biomedical, and electronic engineering. [41][42][43] In this study, an analytical investigation of the isothermal, inelastic, and steady-state fully developed laminar flow of power law fluids in concentric annuli is carried out by using the Quasi-Newtonian Approach method.…”

Quasi‐Newtonian Approach determination of velocity profile for the fully developed axial power law fluid flow in concentric annuli

“…The absence of closed analytical formulas for the flow of non-Newtonian fluids in annuli undoubtedly complicates the theoretical and practical analysis of similar problems in other scientific disciplines, such as for the analysis of the behavior of blood flow and its analogs in medicine and biology. [38][39][40] Therefore, there is a need for developing mathematical expressions for investigations of the theoretical and practical problems encountered in interdisciplinary fields such as chemical, mining, mechanical, biomedical, and electronic engineering. [41][42][43] In this study, an analytical investigation of the isothermal, inelastic, and steady-state fully developed laminar flow of power law fluids in concentric annuli is carried out by using the Quasi-Newtonian Approach method.…”

Quasi‐Newtonian Approach determination of velocity profile for the fully developed axial power law fluid flow in concentric annuli