Numerical mesoscopic method for transportation of H2O-based nanofluid through a porous channel considering Lorentz forces
RIS ID
134235
Abstract
Recently, various ways are investigated to augment heat transfer in different applications such as porous ceramic domain. Adding nanoparticles to fluid is the best operational way to increase the conduction of fluids. In this paper, migration of nanofluid inside a porous duct under the impact of magnetic force is scrutinized. LBM is applied to present comprehensive parametric analysis for various concentrations of nanofluid, Hartmann, Reynolds, and Darcy numbers. Outputs illustrate that Nu augments with improve of Lorentz forces. Augmenting Da significantly enhances the convective flow in our model.
Publication Details
Sheikholeslami, M., Gerdroodbary, M., Moradi, R., Shafee, A. & Li, Z. (2019). Numerical mesoscopic method for transportation of H2O-based nanofluid through a porous channel considering Lorentz forces. International Journal of Modern Physics C: computational physics and physical computation, 30 (02n3), 195007-1-195007-13.