Darcy-Forchheimer mangetized flow based on differential type nanoliquid capturing Ohmic dissipation effects

Autor: M. Waqas, Yunjie Xu, M. Nasir, Md Mottahir Alam, Amjad Ali Pasha, Kashif Irshad, Bandar M. Fadhl, M.S. Kausar
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: Propulsion and Power Research, Vol 12, Iss 3, Pp 443-455 (2023)
Druh dokumentu: article
ISSN: 2212-540X
DOI: 10.1016/j.jppr.2023.08.003
Popis: Hydromagnetic nanoliquid establish an extraordinary category of nanoliquids that unveil both liquid and magnetic attributes. The interest in the utilization of hydromagnetic nanoliquids as a heat transporting medium stem from a likelihood of regulating its flow along with heat transportation process subjected to an externally imposed magnetic field. This analysis reports the hydromagnetic nanoliquid impact on differential type (second-grade) liquid from a convectively heated extending surface. The well-known Darcy-Forchheimer aspect capturing porosity characteristics is introduced for nonlinear analysis. Robin conditions elaborating heat-mass transportation effect are considered. In addition, Ohmic dissipation and suction/injection aspects are also a part of this research. Mathematical analysis is done by implementing the basic relations of fluid mechanics. The modeled physical problem is simplified through order analysis. The resulting systems (partial differential expressions) are rendered to the ordinary ones by utilizing the apposite variables. Convergent solutions are constructed employing homotopy algorithm. Pictorial and numeric result are addressed comprehensively to elaborate the nature of sundry parameters against physical quantities. The velocity profile is suppressed with increasing Hartmann number (magnetic parameter) whereas it is enhanced with increment in material parameter (second-grade). With the elevation in thermophoresis parameter, temperature and concentration of nanoparticles are accelerated.
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