%0 Conference Paper %A Tan, P.H. %A Mohd Yassin, A.Y. %D 2017 %F scholars:8589 %I EDP Sciences %K Electromagnetic fields; Finite element method; Fluid dynamics; Incompressible flow; Magnetic fluids; Magnetism; Maxwell equations; Numerical methods; Petroleum reservoir engineering; Petroleum reservoirs; Velocity, Electromagnetic heating; Fluid injections; Fundamental studies; Mixed finite element formulation; Mixed finite element methods; Oil recovery process; Pressure depletion; Temperature and pressures, Flow of fluids %R 10.1051/matecconf/201711101006 %T Mixed Finite Element Formulation for Magnetic Fluid Oil Flow in Electromagnetic Field %U https://khub.utp.edu.my/scholars/8589/ %V 111 %X Pressure depletion and high viscosity of crude oil in oil reservoir are the main challenges in oil recovery process. A potential solution is to employ electromagnetic heating coupled with magnetic fluid injection. The present work delivers a fundamental study on the interaction between magnetic fluid flow with electromagnetic field. The two-dimensional, incompressible flow is solved numerically using mixed finite element method. The velocity fields, temperature and pressure are the variables of interest, to be obtained by solving mass, momentum and energy equations coupled with Maxwell' equations. The fluid stress arises simultaneously with the external magnetic force which mobilises and increases the temperature of the oil flow. Verification is made against available data obtained from different numerical method reported in literature. The results justify feasibility of the mixed finite element formulation as an alternative for the modelling of the magnetic fluid flow. © The Authors, published by EDP Sciences, 2017. %Z cited By 0; Conference of 2nd International Conference on Fluids and Chemical Engineering, FluidsChE 2017 ; Conference Date: 4 April 2017 Through 6 April 2017; Conference Code:128326