| Proj No. | A2128-251 |
| Title | Numerical Study of Passive Mixing in Microfluidic Channels 2 |
| Summary | Microfluidic mixing plays a vital role in lab-on-a-chip systems, where the low Reynolds number flow restricts mixing to diffusion or passive geometric enhancements. This study focuses on evaluating different passive micromixer designs, including serpentine, herringbone, and staggered geometries, through numerical simulations. Using Computational Fluid Dynamics (CFD), fluid flow and concentration distribution will be analyzed to assess mixing efficiency based on parameters such as mixing index and pressure drop. The findings will help identify optimal geometries for enhanced mixing, contributing to the design of efficient 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?: |