A study on the MHD (magnetohydrodynamic) micropump with side-walled electrodes
Sangsoo Lim
The Journal of Mechanical Science and Technology, vol. 23, no. 3, pp.739-749, 2009
Abstract : This paper presents the continuous flow MHD(magnetohydrodynamic) micropump with side walled electrodes using
Lorentz force, which is perpendicular to both magnetic and electric fields, for the application of microfluidic systems.
A theoretically simplified MHD flow model includes the theory of fluid dynamics and electromagnetics and it is
based upon the steady state, incompressible and fully developed laminar flow theory. A numerical analysis with the
finite difference method is employed for solving the velocity profile of the working fluid across the microchannel under
various operation currents and magnetic flux densities. In addition, the commercial CFD code called CFD-ACE has
been utilized for simulating the MHD micropump. When the program was run(CFD-ACE), the applied current and
magnetic flux density were set to be the variables that affected the performance of the MHD micropump. The MHD
micropump was fabricated by using MEMS technology. The performance of the MHD micropump was obtained by
measuring the flow rate as the applied DC current was changed from 0 to 1mA at 4900 and 3300 Gauss for the electrodes
with the lengths of 5000, 7500 and 10000 §, respectively. The experimental results were compared with the
analytical and the numerical results. In addition, with the theoretical analysis and the preliminary experiments, we propose
a final model for a simple and new MHD micropump, which could be applicable to microfluidic systems.
Keyword : Micropump; Microfluidic; MHD(magnetohydrodynamic); MEMS; ¥ì-TAS; CFD |