Mixed electroosmotic-pressure driven multi-fluid flow in microchannels
Microfluidic and Lab-on-a-chip devices have attracted great interest over the last decade due to the advantages such as increased efficiency, throughput, portability, reduced analysis time, reagent consumption and cost. Comparing with a number of techniques (e.g., pressure, centrifuge, and thermal g...
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sg-ntu-dr.10356-464682023-03-11T17:40:14Z Mixed electroosmotic-pressure driven multi-fluid flow in microchannels Li, Haiwang Wong Teck Neng School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering::Fluid mechanics Microfluidic and Lab-on-a-chip devices have attracted great interest over the last decade due to the advantages such as increased efficiency, throughput, portability, reduced analysis time, reagent consumption and cost. Comparing with a number of techniques (e.g., pressure, centrifuge, and thermal gradient driven flow), electroosmosis has been used to induce electroosmotic flow to transport, separate, and mix samples. This thesis addresses the following four topics: (1) Three-fluid flow in straight microchannels based on the combined effect of hydrodynamic and electroosmosis with planar interface; (2) Modeling of tunable optofluidic lens based on the combined effect of hydrodynamic and electroosmosis; (3) Semi-analytical model of mixed electroosmotic/pressure-driven two immiscible fluids with curved interface; (4) The linear stability of two-fluid flow in a microchannel and a parallel electric field. DOCTOR OF PHILOSOPHY (MAE) 2011-12-07T01:01:41Z 2011-12-07T01:01:41Z 2011 2011 Thesis Li, H. W. (2011). Mixed electroosmotic-pressure driven multi-fluid flow in microchannels. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/46468 10.32657/10356/46468 en 265 p. application/pdf |
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DRNTU::Engineering::Mechanical engineering::Fluid mechanics Li, Haiwang Mixed electroosmotic-pressure driven multi-fluid flow in microchannels |
| description |
Microfluidic and Lab-on-a-chip devices have attracted great interest over the last decade due to the advantages such as increased efficiency, throughput, portability, reduced analysis time, reagent consumption and cost. Comparing with a number of techniques (e.g., pressure, centrifuge, and thermal gradient driven flow), electroosmosis has been used to induce electroosmotic flow to transport, separate, and mix samples. This thesis addresses the following four topics: (1) Three-fluid flow in straight microchannels based on the combined effect of hydrodynamic and electroosmosis with planar interface; (2) Modeling of tunable optofluidic lens based on the combined effect of hydrodynamic and electroosmosis; (3) Semi-analytical model of mixed electroosmotic/pressure-driven two immiscible fluids with curved interface; (4) The linear stability of two-fluid flow in a microchannel and a parallel electric field. |
| author2 |
Wong Teck Neng |
| author_facet |
Wong Teck Neng Li, Haiwang |
| format |
Theses and Dissertations |
| author |
Li, Haiwang |
| author_sort |
Li, Haiwang |
| title |
Mixed electroosmotic-pressure driven multi-fluid flow in microchannels |
| title_short |
Mixed electroosmotic-pressure driven multi-fluid flow in microchannels |
| title_full |
Mixed electroosmotic-pressure driven multi-fluid flow in microchannels |
| title_fullStr |
Mixed electroosmotic-pressure driven multi-fluid flow in microchannels |
| title_full_unstemmed |
Mixed electroosmotic-pressure driven multi-fluid flow in microchannels |
| title_sort |
mixed electroosmotic-pressure driven multi-fluid flow in microchannels |
| publishDate |
2011 |
| url |
https://hdl.handle.net/10356/46468 |
| _version_ |
1761781455767207936 |