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Портал Begell Электронная Бибилиотека e-Книги Журналы Справочники и Сборники статей Коллекции
International Journal of Fluid Mechanics Research
ESCI SJR: 0.206 SNIP: 0.446 CiteScore™: 0.5

ISSN Печать: 2152-5102
ISSN Онлайн: 2152-5110

Выпуски:
Том 46, 2019 Том 45, 2018 Том 44, 2017 Том 43, 2016 Том 42, 2015 Том 41, 2014 Том 40, 2013 Том 39, 2012 Том 38, 2011 Том 37, 2010 Том 36, 2009 Том 35, 2008 Том 34, 2007 Том 33, 2006 Том 32, 2005 Том 31, 2004 Том 30, 2003 Том 29, 2002 Том 28, 2001 Том 27, 2000 Том 26, 1999 Том 25, 1998 Том 24, 1997 Том 23, 1996 Том 22, 1995

International Journal of Fluid Mechanics Research

DOI: 10.1615/InterJFluidMechRes.2018021037
pages 151-165

A REVISED MODEL TO ANALYZE MHD FLOW OF MAXWELL NANOFLUID PAST A STRETCHING SHEET WITH NONLINEAR THERMAL RADIATION EFFECT

Besthapu Prabhakar
Kakatiya Government College, Hanamkonda, Telangana, 506001, India
Shanker Bandari
Department of Mathematics, Osmania University, Hyderabad, Telangana, 500007, India
Cherlacola Srinivas Reddy
Government Degree College, Mulugu, Telangana, 506343, India

Краткое описание

This article reports the magnetohydrodynamic flow of a Maxwell nanofluid over a stretching sheet under the influence of nonlinear thermal radiation. A revised model in which mass flux of nanoparticles is zero on the surface is implemented to attain physically applicable results. For passively controlled mass flux, the nanoparticle volume fraction is defined separately by the temperature gradient, resulting in zero nanoparticle flux at the surface. Additionally, the influence of nonlinear Rosseland radiation is delved. The modeled partial differential equations are transformed to nonlinear ordinary differential equations by utilizing appropriate similarity transformations. The resulting equations are solved numerically using the spectral quasi-linearization method. To visualize the impact of various controlling parameters on velocity, temperature, and concentration profiles, graphs have been plotted. It is observed that growing values of Maxwell parameter lead to attenuation in the velocity profile, but the reverse trend is observed in temperature and concentration profiles.


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