Title: Impact of MHD on hybrid nanomaterial free convective flow within a permeable region.
Authors: Manh, Tran Dinh; Nam, Nguyen Dang; Abdulrahman, Gihad Keyany; Moradi, Rasoul; Babazadeh, Houman
Abstract: Computational modeling was employed to scrutinize the nanomaterial influence of flow patterns and thermal treatment within a porous region. Incorporating non-Darcy approach for porous region and inserting terms of Lorentz forces result the final equations which have been simulated via CVFEM. It should be note that homogeneous model with respect of former empirical correlations was involved for nanofluid modeling. Results revealed that temperature increment can be observed with impose of magnetic force while reverse trend occurs with rise of permeability. Diminution of convective flow occurs due to rise of Ha and results in lower Nuave. Isotherms become more distorted as permeability augments but less distortion appears with rise of Ha.
Subjects: MAGNETISM; LORENTZ force; PERMEABILITY; MAGNETOHYDRODYNAMICS; ATMOSPHERIC temperature
Publication: Journal of Thermal Analysis & Calorimetry, 2020, Vol 140, Issue 6, p2865
ISSN: 1388-6150
Publication type: Academic Journal
DOI: 10.1007/s10973-019-09008-8

Impact of MHD on hybrid nanomaterial free convective flow within a permeable region.

Manh, Tran Dinh; Nam, Nguyen Dang; Abdulrahman, Gihad Keyany; Moradi, Rasoul; Babazadeh, Houman