| Proj No. | A2129-251 |
| Title | Numerical Analysis of Mixing of Two Fluids in a Microfluidic Channel 2 |
| Summary | Microfluidic mixing is essential in lab-on-a-chip applications, where low Reynolds numbers limit mixing to diffusion or passive techniques using specialized channel geometries. This study aims to analyze the efficiency of various passive micromixer designs, such as serpentine, herringbone, and staggered structures, using numerical simulations. Computational Fluid Dynamics (CFD) will be used to model fluid flow and concentration distribution, evaluating parameters like mixing index, pressure drop, and velocity fields to identify optimal geometries. The research will provide insights into efficient passive mixing designs, contributing to the development of high-performance microfluidic devices for biomedical and chemical applications. The student is required to use his/her own computer. |
| Supervisor | A/P Lee Seok Woo (Loc:S2 > S2 B2B > S2 B2B 43, Ext: +65 67904363) |
| Co-Supervisor | - |
| RI Co-Supervisor | - |
| Lab | Nanoelectronics Lab. I (Loc: S1-B3a-01) |
| Single/Group: | Single |
| Area: | Microelectronics and Biomedical Electronics |
| ISP/RI/SMP/SCP?: |