Investigation to the reciprocative thermal cycling of multiphase reactor train
The design and technique for creating a multiphase reactor train were presented. Formation of the reactor train involved a sequential dispensing of the fluid in immiscible-liquid liquid system. Each reactor was represented by mixture of water soluble dyes and segmented by a mineral oil colu...
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sg-ntu-dr.10356-417512023-03-11T17:01:53Z Investigation to the reciprocative thermal cycling of multiphase reactor train Soh, Chin Huat. Gong Haiqing, Thomas School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering::Energy conservation The design and technique for creating a multiphase reactor train were presented. Formation of the reactor train involved a sequential dispensing of the fluid in immiscible-liquid liquid system. Each reactor was represented by mixture of water soluble dyes and segmented by a mineral oil column. The chip was fabricated by laser cutting process and subsequent thermal bonding of the acrylic sheets, and the generation of the reactor train was clearly demonstrated. Microfluidics of the reciprocating reactor train in the micro glass capillary was also investigated. Studies showed that the parabolic shaped reactor flow profile was dispersed when subjected to a higher velocity in a pressure-driven flow. The relationship between the inner diameter of the three glass capillaries and flow velocity inside the glass capillary were also investigated. As the reactor train could only reciprocate at a slow velocity in the glass capillary for thermal cycling, a relatively long cycle time would be required. Therefore, instead of reciprocating the reactor train, the heat source was moved reciprocatively and results showed that rapid thermally cycling could be achieved. Master of Science (Mechanics & Processing of Materials) 2010-08-06T07:30:07Z 2010-08-06T07:30:07Z 2008 2008 Thesis http://hdl.handle.net/10356/41751 en 64 p. application/pdf |
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DRNTU::Engineering::Mechanical engineering::Energy conservation Soh, Chin Huat. Investigation to the reciprocative thermal cycling of multiphase reactor train |
| description |
The design and technique for creating a multiphase reactor train were presented.
Formation of the reactor train involved a sequential dispensing of the fluid in
immiscible-liquid liquid system. Each reactor was represented by mixture of water
soluble dyes and segmented by a mineral oil column. The chip was fabricated by laser
cutting process and subsequent thermal bonding of the acrylic sheets, and the
generation of the reactor train was clearly demonstrated. Microfluidics of the
reciprocating reactor train in the micro glass capillary was also investigated. Studies
showed that the parabolic shaped reactor flow profile was dispersed when subjected to
a higher velocity in a pressure-driven flow. The relationship between the inner
diameter of the three glass capillaries and flow velocity inside the glass capillary were
also investigated. As the reactor train could only reciprocate at a slow velocity in the
glass capillary for thermal cycling, a relatively long cycle time would be required.
Therefore, instead of reciprocating the reactor train, the heat source was moved
reciprocatively and results showed that rapid thermally cycling could be achieved. |
| author2 |
Gong Haiqing, Thomas |
| author_facet |
Gong Haiqing, Thomas Soh, Chin Huat. |
| format |
Theses and Dissertations |
| author |
Soh, Chin Huat. |
| author_sort |
Soh, Chin Huat. |
| title |
Investigation to the reciprocative thermal cycling of multiphase reactor train |
| title_short |
Investigation to the reciprocative thermal cycling of multiphase reactor train |
| title_full |
Investigation to the reciprocative thermal cycling of multiphase reactor train |
| title_fullStr |
Investigation to the reciprocative thermal cycling of multiphase reactor train |
| title_full_unstemmed |
Investigation to the reciprocative thermal cycling of multiphase reactor train |
| title_sort |
investigation to the reciprocative thermal cycling of multiphase reactor train |
| publishDate |
2010 |
| url |
http://hdl.handle.net/10356/41751 |
| _version_ |
1761781242335854592 |