Numerical approach for nanofluid transportation due to electric force in a porous enclosure

Authors

Zhixiong Li, University of WollongongFollow
M Ramzan, Bahria University, Sejong University
Ahmad Shafee, College of Technological Studies, University Tun Hussein Onn
S Saleem, King Khalid University
Qasem Al-Mdallal, United Arab Emirates University
Ali Chamkha, Prince Mohammad Bin Fahd University, American University of Ras Al Khaimah

RIS ID

130738

Publication Details

Li, Z., Ramzan, M., Shafee, A., Saleem, S., Al-Mdallal, Q. M. & Chamkha, A. J. (2019). Numerical approach for nanofluid transportation due to electric force in a porous enclosure. Microsystem Technologies: micro and nanosystems information storage and processing systems, 25 (6), 2501-2514.

Abstract

In current attempt, nanoparticle Electrohydrodynamic transportation has been modeled numerically via control volume based finite element method. Mixture of Fe3O4and Ethylene glycol is elected. Impact of radiation parameter (Rd) , voltage supplied (Δ φ) , nanoparticle concentration, Permeability and Reynolds number have been displayed. Results display that permeability and thermal radiation can improve temperature gradient.