Kockmann, 2008 - Google Patents
Diffusion, mixing, and mass transfer equipmentKockmann, 2008
- Document ID
- 3866126075588382825
- Author
- Kockmann N
- Publication year
- Publication venue
- Transport Phenomena in Micro Process Engineering
External Links
Snippet
This chapter along with the succeeding chapter on chemical reactions forms the heart of this work. It is based on fluid dynamics of mixing in Chapter 3 and supplemented by applications in Chapter 6. The chapter gives an introduction of the major mixing principles in microfluidic …
- 238000002156 mixing 0 title abstract description 644
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Kockmann et al. | Convective mixing and chemical reactions in microchannels with high flow rates | |
| Bertsch et al. | Static micromixers based on large-scale industrial mixer geometry | |
| Camarri et al. | An overview of flow features and mixing in micro T and arrow mixers | |
| Das et al. | Numerical and experimental study of passive fluids mixing in micro-channels of different configurations | |
| Wong et al. | Micro T-mixer as a rapid mixing micromixer | |
| Dreher et al. | Characterization of laminar transient flow regimes and mixing in T-shaped micromixers | |
| Xie et al. | Numerical and experimental investigations of chaotic mixing behavior in an oscillating feedback micromixer | |
| Sultan et al. | Experimental study of flow regime and mixing in T-jets mixers | |
| Su et al. | Influence of hydrodynamics on liquid mixing during Taylor flow in a microchannel | |
| US8894966B2 (en) | Passive spiral micromixer and its applications | |
| Krishnamurthy et al. | Gas-liquid two-phase flow across a bank of micropillars | |
| Tung et al. | Mixing and hydrodynamic analysis of a droplet in a planar serpentine micromixer | |
| Le The et al. | An effective passive micromixer with shifted trapezoidal blades using wide Reynolds number range | |
| Yuan et al. | An investigation of chaotic mixing behavior in a planar microfluidic mixer | |
| Broboana et al. | Investigations of the unsteady diffusion process in microchannels | |
| Kockmann et al. | Silicon microstructures for high throughput mixing devices | |
| Bertsch et al. | 3D micromixers-downscaling large scale industrial static mixers | |
| Zhang et al. | Investigation of mixing performance in passive micromixers | |
| Chatterjee et al. | Study of multiphase flow inside straight and spiral microchannel and effect of two phase flow on Dean’s vortices | |
| Domingues et al. | Inertial instabilities in a microfluidic mixing-separating device | |
| Qamareen et al. | Modulation of secondary flows in curved serpentine micromixers | |
| Lan et al. | Rapid measurement of fluid viscosity using co-flowing in a co-axial microfluidic device | |
| Kockmann | Diffusion, mixing, and mass transfer equipment | |
| Damian et al. | From flow focusing to vortex formation in crossing microchannels | |
| Sarkar et al. | CFD simulations to study the effects of wall protrusions on microfluidic mixing |