High-Performance BEM Simulation of 3D Emulsion Flow
Direct simulations of the dynamics of a large number of deformable droplets are necessary for a more accurate prediction of rheological properties and the microstructure of liquid-liquid systems that arise in a wide range of industrial applications, such as enhanced oil recovery, advanced material p...
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| Published in | Parallel Computational Technologies Vol. 753; pp. 317 - 330 |
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| Main Authors | , , , |
| Format | Book Chapter |
| Language | English |
| Published |
Switzerland
Springer International Publishing AG
2017
Springer International Publishing |
| Series | Communications in Computer and Information Science |
| Subjects | |
| Online Access | Get full text |
| ISBN | 9783319670348 3319670344 |
| ISSN | 1865-0929 1865-0937 |
| DOI | 10.1007/978-3-319-67035-5_23 |
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| Abstract | Direct simulations of the dynamics of a large number of deformable droplets are necessary for a more accurate prediction of rheological properties and the microstructure of liquid-liquid systems that arise in a wide range of industrial applications, such as enhanced oil recovery, advanced material processing, and biotechnology. The present study is dedicated to the development of efficient computational methods and tools for understanding the behavior of three dimensional emulsion flows in Stokes regime. The numerical approach is based on the accelerated boundary element method (BEM) both via an efficient scalable algorithm, the fast multipole method (FMM), and via the utilization of advanced hardware, particularly, heterogeneous computing architecture (multicore CPUs and graphics processors). Example computations are conducted for 3D dynamics of systems of tens of thousands of deformable drops and several droplets with very high discretization of the interface in shear flow. The results of simulations and details of the method and accuracy/performance of the algorithm are discussed. The developed approach can be used for the solution of a wide range of problems related to emulsion flows in micro- and nanoscales. |
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| AbstractList | Direct simulations of the dynamics of a large number of deformable droplets are necessary for a more accurate prediction of rheological properties and the microstructure of liquid-liquid systems that arise in a wide range of industrial applications, such as enhanced oil recovery, advanced material processing, and biotechnology. The present study is dedicated to the development of efficient computational methods and tools for understanding the behavior of three dimensional emulsion flows in Stokes regime. The numerical approach is based on the accelerated boundary element method (BEM) both via an efficient scalable algorithm, the fast multipole method (FMM), and via the utilization of advanced hardware, particularly, heterogeneous computing architecture (multicore CPUs and graphics processors). Example computations are conducted for 3D dynamics of systems of tens of thousands of deformable drops and several droplets with very high discretization of the interface in shear flow. The results of simulations and details of the method and accuracy/performance of the algorithm are discussed. The developed approach can be used for the solution of a wide range of problems related to emulsion flows in micro- and nanoscales. |
| Author | Gumerov, Nail A. Pityuk, Yulia A. Akhatov, Iskander S. Abramova, Olga A. |
| Author_xml | – sequence: 1 givenname: Olga A. surname: Abramova fullname: Abramova, Olga A. email: abramovacmndds@gmail.com organization: Center for Micro and Nanoscale Dynamics of Dispersed Systems, Bashkir State University, Ufa, Russia – sequence: 2 givenname: Yulia A. surname: Pityuk fullname: Pityuk, Yulia A. organization: Center for Micro and Nanoscale Dynamics of Dispersed Systems, Bashkir State University, Ufa, Russia – sequence: 3 givenname: Nail A. surname: Gumerov fullname: Gumerov, Nail A. organization: Institute for Advanced Computer Studies, University of Maryland, College Park, USA – sequence: 4 givenname: Iskander S. surname: Akhatov fullname: Akhatov, Iskander S. organization: Skolkovo Institute of Science and Engineering (Skoltech), Moscow, Russia |
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| Copyright | Springer International Publishing AG 2017 |
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| DOI | 10.1007/978-3-319-67035-5_23 |
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| EISBN | 3319670352 9783319670355 |
| EISSN | 1865-0937 |
| Editor | Zymbler, Mikhail Sokolinsky, Leonid |
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| EndPage | 330 |
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| Notes | This study is supported in part by the Skoltech Partnership Program, grant RFBR 16-31-00029, grant of the President of Russia MK-3503.2017.8, and Fantalgo, LLC (Maryland, USA). |
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| PublicationSubtitle | 11th International Conference, PCT 2017, Kazan, Russia, April 3-7, 2017, Revised Selected Papers |
| PublicationTitle | Parallel Computational Technologies |
| PublicationYear | 2017 |
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| RelatedPersons | Zhou, Lizhu Filipe, Joaquim Chen, Phoebe Sivalingam, Krishna M. Barbosa, Simone Diniz Junqueira Kotenko, Igor Washio, Takashi Yuan, Junsong |
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| StartPage | 317 |
| SubjectTerms | Boundary element method Deformable droplets Fast multipole method Graphics processors Stokes flow |
| Title | High-Performance BEM Simulation of 3D Emulsion Flow |
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