Research Background
Research Background
Thermal & Fluid dynamic CFD & Experiment
Research Field: Computer Fluid Simulation and Experimental Study of Heat/ Fluid Flow System
Research Subject: A Study on the Contingency of Plunger Speed Conditions to Minimize Air Mixing in High Pressure Casting
Contents of Research
- High-pressure die-casting process
- To optimize the velocity condition of plunger to avoid microbubble
- A correlation equation for optimal speed was developed through simulation and experimental research
Biochemical measurement technology to overcome limitations of conventional biochemical diagnostic methods
Hemorheology for clinical application
Research Field: Hemorheology, biofluid dynamics
Measurement of blood physical properties
: blood viscosity, RBC deformability, RBC aggregation
- Blood total analysis system for clinical diagnosis
Hemodynamics in microcirculation system
Part A. Microfluidic platform mimicking microvascular
- Development of new production technology for microvascular simulation circular channel
> Fabrication technique for Cross-sectional shaped microfludic channel
Non-Newtonian microfluidics
- Once the sample is injected to the microchannel, all of the particles or cells can be focused in the center of the microchannel by using viscoelastic fluid. Based on this working principle, we can get concentrated target samples. The concentration technique can improve the sensitivity of the biosensor.
> Application: blood cell separation, cancer cell separation, fungi concentration and so forth.
> Recently, I'm trying to apply this technique for nano-scaled particle manipulation.