Preliminary Study on Planar Electromagnetic Microfluidics Based a Microsensor by Finite Element Analysis

Abstract: To improve the performance of conventional magnetohydrodynamics (MHDs) micropump used in microfluidic sensing systems, this paper presents a novel MHD flow model with planar electromagnets, demonstrates the basic theoretical analysis of an ac MHD micropump and compares it with other MHD flow models by finite element analysis. Since little attention has been devoted to the application of planar electromagnet in MHD micropump, preliminary study was proposed in this paper. Based on the numerical models developed,… Show more

“…2a. In COMSOL solver, 19 the solutions can be found by piezoelectric Equations 20 and continuity differential Equations of Maxwell's equation. 21 Frequency domain analysis.-Phase velocity.-In addition, Love waves are considered as dispersive waves that the phase velocity of Love waves dependents on frequency.…”

Effect of Guiding Layers and Interdigitated Electrode Structures on the Frequency Behaviour of SAW Sensors

“…2a. In COMSOL solver, 19 the solutions can be found by piezoelectric Equations 20 and continuity differential Equations of Maxwell's equation. 21 Frequency domain analysis.-Phase velocity.-In addition, Love waves are considered as dispersive waves that the phase velocity of Love waves dependents on frequency.…”

Effect of Guiding Layers and Interdigitated Electrode Structures on the Frequency Behaviour of SAW Sensors

Quantitative Analysis Method of Error Sources in Magnetohydrodynamic Angular Rate Sensor for Structure Optimization

Adaptive Kalman Filter Enhanced With Spectrum Analysis for Wide-Bandwidth Angular Velocity Estimation Fusion