Author(s):
1. Milos Kocic, Univerzitet u Nišu, Mašinski fakultet, Serbia
2. Zivojin Stamenkovic, Univerzitet u Nišu, Mašinski fakultet, Serbia
3. Jelena Petrovic, Univerzitet u Nišu, Mašinski fakultet, Serbia
4. Jasmina Bogdanović-Jovanović, Univerzitet u Nišu, Mašinski fakultet, Serbia
5. Milica Nikodijevic, University of Nis, Faculty of Occupational Safety, Serbia
Abstract:
In this paper, the MHD flow and heat transfer of an incompressible electrically conducting micropolar fluid through a parallel plate channel is investigated. A uniform magnetic field was applied perpendicular to the flow and, due to the fluid motion, a induced magnetic field appears along the lines of motion. The upper and lower plates have been kept at the two constant different temperatures and the plates are electrically insulated. Partial differential equations governing the flow, heat transfer, micro rotation and magnetic field conservation are transformed to ordinary differential equations and solved under physically appropriate boundary conditions. Solutions obtained for the velocity, micro-rotation, temperature and induced magnetic field in function of Hartmann number, the coupling parameter and the spin-gradient viscosity parameter are presented graphically.
Key words:
Micropolar fluid, heat transfer, MHD flow, magnetic Reynolds number.
Thematic field:
Energetics and Thermal Engineering
Date of abstract submission:
01.03.2017.
Conference:
13th International Conference on Accomplishments in Mechanical and Industrial Engineering