TY  - JOUR
AB  - Purpose This paper aims to elaborate the characteristics of magneto-Maxwell nanoliquid toward moving radiated surface. Flow analysis subject to Darcy–Forchheimer concept is studied. Newtonian heat/mass conditions and heat source aspects are taken into account for modeling. Apposite transformations are introduced for non-dimensionalization process.Design/methodology/approach Optimal homotopy analysis method is implemented to compute convergent solutions of nonlinear ordinary differential equations.Findings Temperature field increments when thermophoresis, heat generation and Brownian movement parameters are increased, whereas reverse situation is noticed for larger Prandtl number. The results also witness that concentration distribution has opposite characteristics for larger thermophoresis and Brownian movement parameters. Furthermore, the presented analysis reduces to traditional Darcy relation in the absence of local inertia coefficient.Originality/value As per the authors’ knowledge, no such analysis has been yet reported.
VL  - 29
IS  - 8
SN  - 0961-5539
DO  - 10.1108/HFF-11-2018-0695
UR  - https://doi.org/10.1108/HFF-11-2018-0695
AU  - Waqas Muhammad
AU  - Gulzar M. Mudassar
AU  - Khan Waqar Azeem
AU  - Khan Muhammad Ijaz
AU  - Khan Niaz B.
PY  - 2019
Y1  - 2019/01/01
TI  - Newtonian heat and mass conditions impact in thermally radiated Maxwell nanofluid Darcy–Forchheimer flow with heat generation
T2  - International Journal of Numerical Methods for Heat & Fluid Flow
PB  - Emerald Publishing Limited
SP  - 2809
EP  - 2821
Y2  - 2024/05/07
ER  -