A procedure for the motion of particle-encapsulated droplets in microchannels
A fixed-grid approach for modeling the motion of a particle-encapsulated droplet carried by a pressure-driven immiscible carrier fluid in a microchannel is presented. Three phases (the carrier fluid, the droplet, and the particle) and two different moving boundaries (the droplet–carrier fluid and dr...
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sg-ntu-dr.10356-944432023-03-04T17:18:30Z A procedure for the motion of particle-encapsulated droplets in microchannels Yap, Yit Fatt Chai, J. C. Wong, Teck Neng Nguyen, Nam-Trung Toh, Kok Chuan Zhang, H. Y. Yobas, Levent School of Mechanical and Aerospace Engineering DRNTU::Engineering::Mechanical engineering A fixed-grid approach for modeling the motion of a particle-encapsulated droplet carried by a pressure-driven immiscible carrier fluid in a microchannel is presented. Three phases (the carrier fluid, the droplet, and the particle) and two different moving boundaries (the droplet–carrier fluid and droplet–particle interfaces) are involved. This is a moving-boundaries problem with the motion of the three phases strongly coupled. In the present article, the particle is assumed to be a fluid of high viscosity and constrained to move with rigid body motion. A combined formulation using one set of governing equations to treat the three phases is employed. The droplet–carrier fluid interface is represented and evolved using a level-set method with a mass-correction scheme. Surface tension is modeled using the continuum surface force model. An additional signed distance function is employed to define the droplet–particle interface. Its evolution is determined from the particle motion governed by the Newton-Euler equations. The governing equations are solved numerically using a finite-volume method on a fixed Cartesian grid. For demonstration purposes, the flows of particle-encapsulated droplets through a constricted microchannel and through a microchannel system are presented. Accepted version 2012-05-08T08:27:27Z 2019-12-06T18:56:05Z 2012-05-08T08:27:27Z 2019-12-06T18:56:05Z 2008 2008 Journal Article Yap, Y. F., Chai, J. C., Wong, T. N., Nguyen, N. T., Toh, K. C., Zhang, H. Y., & Yobas, L. (2008). A Procedure for the Motion of Particle-Encapsulated Droplets in Microchannels. Numerical Heat Transfer, Part B: Fundamentals: An International Journal of Computation and Methodology, 53(1), 59-74. https://hdl.handle.net/10356/94443 http://hdl.handle.net/10220/7824 10.1080/10407790701632485 94514 en Numerical heat transfer, part B: fundamentals: an international journal of computation and methodology © 2008 Taylor & Francis Group, LLC. This is the author created version of a work that has been peer reviewed and accepted for publication by Numerical heat transfer, part B: fundamentals: an international journal of computation and methodology, Taylor & Francis Group, LLC. It incorporates referee’s comments but changes resulting from the publishing process, such as copyediting, structural formatting, may not be reflected in this document. The published version is available at [DOI: http://dx.doi.org/10.1080/10407790701632485]. 26 p. application/pdf |
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DRNTU::Engineering::Mechanical engineering Yap, Yit Fatt Chai, J. C. Wong, Teck Neng Nguyen, Nam-Trung Toh, Kok Chuan Zhang, H. Y. Yobas, Levent A procedure for the motion of particle-encapsulated droplets in microchannels |
| description |
A fixed-grid approach for modeling the motion of a particle-encapsulated droplet carried by a pressure-driven immiscible carrier fluid in a microchannel is presented. Three phases (the carrier fluid, the droplet, and the particle) and two different moving boundaries (the droplet–carrier fluid and droplet–particle interfaces) are involved. This is a moving-boundaries problem with the motion of the three phases strongly coupled. In the present article, the particle is assumed to be a fluid of high viscosity and constrained to move with rigid body motion. A combined formulation using one set of governing equations to treat the three phases is employed. The droplet–carrier fluid interface is represented and evolved using a level-set method with a mass-correction scheme. Surface tension is modeled using the continuum surface force model. An additional signed distance function is employed to define the droplet–particle interface. Its evolution is determined from the particle motion governed by the Newton-Euler equations. The governing equations are solved numerically using a finite-volume method on a fixed Cartesian grid. For demonstration purposes, the flows of particle-encapsulated droplets through a constricted microchannel and through a microchannel system are presented. |
| author2 |
School of Mechanical and Aerospace Engineering |
| author_facet |
School of Mechanical and Aerospace Engineering Yap, Yit Fatt Chai, J. C. Wong, Teck Neng Nguyen, Nam-Trung Toh, Kok Chuan Zhang, H. Y. Yobas, Levent |
| format |
Article |
| author |
Yap, Yit Fatt Chai, J. C. Wong, Teck Neng Nguyen, Nam-Trung Toh, Kok Chuan Zhang, H. Y. Yobas, Levent |
| author_sort |
Yap, Yit Fatt |
| title |
A procedure for the motion of particle-encapsulated droplets in microchannels |
| title_short |
A procedure for the motion of particle-encapsulated droplets in microchannels |
| title_full |
A procedure for the motion of particle-encapsulated droplets in microchannels |
| title_fullStr |
A procedure for the motion of particle-encapsulated droplets in microchannels |
| title_full_unstemmed |
A procedure for the motion of particle-encapsulated droplets in microchannels |
| title_sort |
procedure for the motion of particle-encapsulated droplets in microchannels |
| publishDate |
2012 |
| url |
https://hdl.handle.net/10356/94443 http://hdl.handle.net/10220/7824 |
| _version_ |
1759858204338028544 |