Journal: | Revista mexicana de física |
Database: | PERIÓDICA |
System number: | 000438854 |
ISSN: | 0035-001X |
Authors: | Sheikholeslami, M1 Shehzad, S.A2 Shafee, Ahmad3 Abbasi, F.M4 Kandasamy, R5 Lii, Zhixiong6 |
Institutions: | 1Babol Noshirvani University of Technology, Department of Mechanical Engineering, Babol. Irán 2COMSATS Institute of Information Technology, Department of Mathematics, Islamabad. Pakistán 3College of Technological Studies, Applied Science Department, Shuwaikh. Kuwait 4COMSATS Institute of Information Technology, Department of Mathematics, Islamabad. Pakistán 5Tun Hussein Onn University of Malaysia, Johor Bahru, Johor. Malasia 6Ocean University of China, School of Engineering, Qingdao, Shandong. China 7University of Wollongong, School of Mechanical, Wollongong, New South Wales. Australia |
Year: | 2019 |
Season: | Jul-Ago |
Volumen: | 65 |
Number: | 4 |
Country: | México |
Language: | Inglés |
Document type: | Artículo |
Approach: | Analítico, teórico |
English abstract | In this work, the mesoscopic theory is invoked to depict nanoparticle transportation through a porous cavity. Different amounts of Lorentz forces, Rayleigh number and permeability on the working fluid treatment have been examined. Al2O3-H2O is selected including the Brownian motion effect. Isokinetic, streamlines, and isotherms contours are various shapes of outputs. Results illustrate that the increase in magnetic forces lead toan increase in the conduction mode. Dispersing nanoparticles aids to incrase the Hartmann number |
Disciplines: | Física y astronomía |
Keyword: | Física, Modelo no Darcy, Nanopartículas, Método reticular de Boltzmann, MHD, Espacio permeable |
Keyword: | Física, Non-Darcy model, Nanoparticles, Lattice Boltzmann method, MHD, Permeable space |
Full text: | Texto completo (Ver HTML) Texto completo (Ver PDF) |