التفاصيل البيبلوغرافية
| العنوان: |
Effects of multiple relaxation times in the annular flow of pulsatile electro-osmotic flow of a complex biological fluid: blood with low and high cholesterol. |
| المؤلفون: |
Emilio Herrera-Valencia, Edtson, Antonio Ramírez-Torres, Luis, Soriano-Correa, Catalina, Luz Sánchez-Villavicencio, Mayra, Bautista, Oscar, Jesús Hernández-Abad, Vicente, Calderas, Fausto |
| المصدر: |
Frontiers in Soft Matter; 2024, p1-20, 20p |
| مصطلحات موضوعية: |
ELECTRO-osmosis, ANNULAR flow, PULSATILE flow, SHEAR flow, COMPLEX fluids, DIMENSIONLESS numbers |
| مستخلص: |
This study investigates the electro-osmotic flow of a biological fluid (blood with varying cholesterol levels) in annular flow to simulate a first approximation to arterial occlusion. The fluid´s rheology is characterized by amulti-modal convectedMaxwell model equation. The charge density follows the Boltzmann distribution, governing the electrical field. Mathematically, this scenario can be modeled by the Poisson–Boltzmann partial differential equation. Assuming a small zeta potential (less than 25mV) using the Debye–Huckel approximation and considering a pulsatile electrical field, analytical solutions are derived using the Fourier transform formalism. These solutions, expressed in terms of the modified Bessel function, provide transfer functions for axial velocity and volumetric flow as functions of material parameters represented by characteristic dimensionless numbers. This study further analyzes thermal, electric, inertial, viscoelastic, and various interactions within the plasma, hematocrit, hematocrit–cholesterol, and cholesterol–cholesterol as well as weight concentration through numerical simulations. Finally, the flow and rheology predictions are validated using experimental data on human blood with varying cholesterol levels. The obtained transfer functions reveal that the electric–thermal–viscoelastic effects and the multiple geometric relationships contribute to the dynamic response of the interactions between the input electrical field and output volumetric flow and shear stress functions, leading to and evolution of resonance curves. It is noteworthy that electro-osmotic flow in blood with pathologies associated with low and high cholesterol has been scarcely reported in the literature on rheology. Thus, this work represents a significant contribution to the field. [ABSTRACT FROM AUTHOR] |
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| قاعدة البيانات: |
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