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Biomagnetic flow over a flat plate embedded by a magnetic dipole in a porous media

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The present study used a simplified axisymmetric biomagnetic fluid dynamics and porous mediamodel which includes FHD (Ferrohydrodynamics), porosity and inertia effects saturated by magnetic dipole to study the influences of the leading parameters on various flow variables along a flat plate.The governing equations are simplified and solved by finite difference approach. We clarify how the ferromagnetic interaction parameter, B and porosity,ε assumptions contribute in the bio-background of the problem of interest. Moreover, from the results of the flow profiles, accelerating and decelerating phenomena are noticed for B, and ε interaction.
Rocznik
Strony
69--78
Opis fizyczny
Bibliogr. 17 poz., rys., wykr.
Twórcy
  • Department of Applied Mathematics, University of Dhaka
  • Department of Applied Mathematics, University of Dhaka
Bibliografia
  • [1] Xue L., Guo X. and Chen H. (2020): Fluid Flow in Porous Media: Fundamentals and Application.– World Scientific Publishing Company.
  • [2] Ai L. and Vafai K. (2006):A coupling model for macromolecule transport in a stenosed arterial wall.– Int. J. Heat Mass Transfer, vol.49, no.9-10, pp.1568-1591.
  • [3] Yang N. and Vafai K. (2006): Modeling of low-density lipoprotein (LDL) transport in the artery- effects of hypertension.- Int. J. Heat Mass Transfer, vol.49, no.5-6, pp.850-867.
  • [4] Vankan W.J., Huyghe J.M., Janssen J.D., Huson A., Hacking W.J.G. and Schreiner W. (1997): Finite element analysis of blood flow through biological tissue.– Int. J. Eng. Sci., vol.35, pp.375-385.
  • [5] Khaled A.R.A. and Vafai K. (2003): The role of porous media in modelling flow and heat transfer in biological tissues.– International Journal of Heat Mass Transfer, vol.46, pp.4989-5003.
  • [6] Khanafer K. and Vafai K. (2006): The role of porous media in biomedical engineering as related to magnetic resonance imaging and drug delivery.– Heat Mass Transfer, vol.42, pp.939-953.
  • [7] Latha R. and Rushi Kumar B. (2017): Unsteady MHD blood flow through porous medium in a parallel plate channel.– IOP Conference Series: Materials Science and Engineering, vol.263, No.6, Article ID 062020, p.11, doi:10.1088/1757-899X/263/6/062020.
  • [8] Khalid A., Khan I., Khan A., Shafie S. and Tlili I. (2018): Case study of MHD blood flow in a porous medium with CNTS and thermal analysis.– Case Studies in Thermal Engineering, vol.12, pp.374-380.
  • [9] Ramakrishnan K. (2019): Studies of blood flow through porous medium with slip effects.– AIP Conference Proceedings, vol.2095, No.1.
  • [10] Al-Saad M., Yassen S.J., Suarez-Afanador C., Al-Shara A.K. and Chamkha A.J. (2022): Simulation of blood flow in human arteries as porous media.– Waves in Random and Complex Media, Taylor & Francis, pp.1-11, Doi:10.1080/17455030.2022.2162151.
  • [11] Ahmad S., Ali F., Khan I. and Ul Haq S. (2023): Biomedical applications o gold nanoparticles in thermofluids flow through a porous medium.– International Journal of Thermofluids, vol.20, Article ID 100425, p.14, https://doi.org/10.1016/j.ijft.2023.100425.
  • [12] Kafoussias N.G., Raptis A. and Tzirtzilakis E.E. (2008): Free-forced convective boundary layer flow of a biomagnetic fluid flow under the action of a localized magnetic field.– Canadian Journal of Physics, vol.86, no.3, pp.447-457.
  • [13] Nakayama A., Kokudai T. and Koyama H. (1990): Non-Darcian boundary layer flow and forced convective heat transfer over a flat plate in a fluid-saturated porous medium.– Journal of Heat Transfer, vol.112, No.1, pp.57-162.
  • [14] Murtaza M.G., Tzirtzilakis E.E. and Ferdows M. (2018): Numerical solution of three dimensional unsteady biomagnetic flow and heat transfer through stretching/shrinking sheet using temperature dependent magnetization.– Archives of Mechanics, vol.70, No.2, pp.161-185.
  • [15] Andersson H.I. and Valnes O.A. (1998): Flow of a heated ferrofluid over a stretching sheet in the presence of a magnetic dipole.– Acta Mechanica, vol.128, pp.39-47.
  • [16] Kafoussias N.G. and Tzirtzilakis E.E. (2003): Biomagnetic fluid flow over a stretching sheet with non-linear temperature dependent magnetization.– J. Appl. Math. Phys (ZAMP), vol.54, pp.551.
  • [17] Vafai K. (1984): Convective flow and heat transfer in variable-porosity media.– Journal of Fluid Mechanics, vol.147, pp.233-259.
Uwagi
PL
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-0eae941f-5cd1-48ef-b2de-fcfdd2ccfb68
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