Unsteady pulsatile fractional Maxwell viscoelastic blood flow with Cattaneo heat flux through a vertical stenosed artery with body acceleration

被引:0
作者
M. A. El Kot
Y. Abd Elmaboud
机构
[1] King Khalid University,Department of Mathematics, College of Sciences and Arts, Dhahran Aljanoub
[2] Suez University,Department of Mathematics and Computer Science, Faculty of Science
[3] College of Science and Arts at Khulis,University of Jeddah
[4] Department of mathematics,Mathematics Department, Faculty of Science
[5] Al-Azhar University (Assiut Branch),undefined
来源
Journal of Thermal Analysis and Calorimetry | 2022年 / 147卷
关键词
Cattaneo heat flux; Unsteady pulsatile blood flow; Fractional Maxwell fluid; Diseased coronary artery;
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学科分类号
摘要
In the current problem, we aim to discuss the heat transfer of pulsatile unsteady fractional Maxwell fluid (blood) flow through a vertical stenosed artery with body acceleration. The concept of fractional Cattaneo model will modify the energy equation. We will get the solutions using Laplace and finite Hankel transformations. The inverse of the transformed functions will be calculated numerically. It is observed that, the heat relaxation time causes a delay in the heat transfer until a critical time. In addition, the heat transfer increases sharply to take its maximum value at a critical value of time then it decreases to reach the steady state. Moreover, the blood velocity, the flow rate, and the shear stress continue to fluctuate during the time period due to the pulsatile phenomenon and body acceleration.
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页码:4355 / 4368
页数:13
相关论文
共 73 条
  • [1] Verma NK(2011)Pulsatile flow of blood in mild stenosis: effects of body acceleration e-J Sci Technol (e-JST) 5 61-76
  • [2] Siddiqui SU(2010)Two-layered pulsatile blood flow in a stenosed artery with body acceleration and slip at wall AAM: Int J. 5 1400-1417
  • [3] Gupta RS(2008)Effect of body acceleration on pulsatile flow of Casson fluid through a mild stenosed artery Korea–Australia Rheol J. 20 189-196
  • [4] Biswas D(2013)Mathematical modelling of blood flow through catheterized artery under the influence of body acceleration with slip velocity AAM: Int J. 8 481-494
  • [5] Chakraborty US(2009)Arterial MHD pulsatile flow of blood under periodic body acceleration Bull. Soc. Math. Banja Luka 16 21-42
  • [6] Nagarani P(2017)Pulsatile blood flow in constricted tapered artery using a variable-order fractional Oldroyd-B model Therm Sci. 21 29-40
  • [7] Sarojamma G(2017)MHD flow of an Oldroyd-B Fluid through porous medium in a circular channel under the effect of time dependent pressure gradient Am J Fluid Dyn. 7 1-11
  • [8] Siddiqui SU(2011)Peristaltic transport of fractional Maxwell fluids in uniform tubes: applications in endoscopy Comput Math Appl 62 1116-1126
  • [9] Geeta Sapna(1991)Relaxation and retardation functions of the Maxwell model with fractional derivatives Rheola Acta 30 151-158
  • [10] Das K(2021)Mathematical analysis of Maxwell fluid flow through a porous plate channel induced by a constantly accelerating or oscillating wall Mathematics 9 90-909
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