Journal article 1264 views
Multiple-Fluid SPH Simulation Using a Mixture Model
ACM Transactions on Graphics, Volume: 33, Issue: 5, Pages: 1 - 11
Swansea University Authors: Chenfeng Li , Javier Bonet
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DOI (Published version): 10.1145/2645703
Abstract
This article presents a versatile and robust SPH simulation approach for multiple-fluid flows. The spatial distribution of different phases or components is modeled using the volume fraction representation, the dynamics of multiple-fluid flows is captured by using an improved mixture model, and a st...
Published in: | ACM Transactions on Graphics |
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2014
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URI: | https://cronfa.swan.ac.uk/Record/cronfa19841 |
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<?xml version="1.0"?><rfc1807><datestamp>2020-10-06T12:13:28.3476726</datestamp><bib-version>v2</bib-version><id>19841</id><entry>2015-01-03</entry><title>Multiple-Fluid SPH Simulation Using a Mixture Model</title><swanseaauthors><author><sid>82fe170d5ae2c840e538a36209e5a3ac</sid><ORCID>0000-0003-0441-211X</ORCID><firstname>Chenfeng</firstname><surname>Li</surname><name>Chenfeng Li</name><active>true</active><ethesisStudent>false</ethesisStudent></author><author><sid>b7398206d59a9dd2f8d07a552cfd351a</sid><ORCID>0000-0002-0430-5181</ORCID><firstname>Javier</firstname><surname>Bonet</surname><name>Javier Bonet</name><active>true</active><ethesisStudent>false</ethesisStudent></author></swanseaauthors><date>2015-01-03</date><deptcode>CIVL</deptcode><abstract>This article presents a versatile and robust SPH simulation approach for multiple-fluid flows. The spatial distribution of different phases or components is modeled using the volume fraction representation, the dynamics of multiple-fluid flows is captured by using an improved mixture model, and a stable and accurate SPH formulation is rigorously derived to resolve the complex transport and transformation processes encountered in multiple-fluid flows. The new approach can capture a wide range of real-world multiple-fluid phenomena, including mixing/unmixing of miscible and immiscible fluids, diffusion effect and chemical reaction, etc. Moreover, the new multiple-fluid SPH scheme can be readily integrated into existing state-of-the-art SPH simulators, and the multiple-fluid simulation is easy to set up. Various examples are presented to demonstrate the effectiveness of our approach.</abstract><type>Journal Article</type><journal>ACM Transactions on Graphics</journal><volume>33</volume><journalNumber>5</journalNumber><paginationStart>1</paginationStart><paginationEnd>11</paginationEnd><publisher/><keywords/><publishedDay>30</publishedDay><publishedMonth>9</publishedMonth><publishedYear>2014</publishedYear><publishedDate>2014-09-30</publishedDate><doi>10.1145/2645703</doi><url/><notes/><college>COLLEGE NANME</college><department>Civil Engineering</department><CollegeCode>COLLEGE CODE</CollegeCode><DepartmentCode>CIVL</DepartmentCode><institution>Swansea University</institution><apcterm/><lastEdited>2020-10-06T12:13:28.3476726</lastEdited><Created>2015-01-03T21:20:44.5017526</Created><path><level id="1">Faculty of Science and Engineering</level><level id="2">School of Engineering and Applied Sciences - Uncategorised</level></path><authors><author><firstname>Bo</firstname><surname>Ren</surname><order>1</order></author><author><firstname>Chenfeng</firstname><surname>Li</surname><orcid>0000-0003-0441-211X</orcid><order>2</order></author><author><firstname>Xiao</firstname><surname>Yan</surname><order>3</order></author><author><firstname>Ming C.</firstname><surname>Lin</surname><order>4</order></author><author><firstname>Javier</firstname><surname>Bonet</surname><orcid>0000-0002-0430-5181</orcid><order>5</order></author><author><firstname>Shi-Min</firstname><surname>Hu</surname><order>6</order></author></authors><documents/><OutputDurs/></rfc1807> |
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2020-10-06T12:13:28.3476726 v2 19841 2015-01-03 Multiple-Fluid SPH Simulation Using a Mixture Model 82fe170d5ae2c840e538a36209e5a3ac 0000-0003-0441-211X Chenfeng Li Chenfeng Li true false b7398206d59a9dd2f8d07a552cfd351a 0000-0002-0430-5181 Javier Bonet Javier Bonet true false 2015-01-03 CIVL This article presents a versatile and robust SPH simulation approach for multiple-fluid flows. The spatial distribution of different phases or components is modeled using the volume fraction representation, the dynamics of multiple-fluid flows is captured by using an improved mixture model, and a stable and accurate SPH formulation is rigorously derived to resolve the complex transport and transformation processes encountered in multiple-fluid flows. The new approach can capture a wide range of real-world multiple-fluid phenomena, including mixing/unmixing of miscible and immiscible fluids, diffusion effect and chemical reaction, etc. Moreover, the new multiple-fluid SPH scheme can be readily integrated into existing state-of-the-art SPH simulators, and the multiple-fluid simulation is easy to set up. Various examples are presented to demonstrate the effectiveness of our approach. Journal Article ACM Transactions on Graphics 33 5 1 11 30 9 2014 2014-09-30 10.1145/2645703 COLLEGE NANME Civil Engineering COLLEGE CODE CIVL Swansea University 2020-10-06T12:13:28.3476726 2015-01-03T21:20:44.5017526 Faculty of Science and Engineering School of Engineering and Applied Sciences - Uncategorised Bo Ren 1 Chenfeng Li 0000-0003-0441-211X 2 Xiao Yan 3 Ming C. Lin 4 Javier Bonet 0000-0002-0430-5181 5 Shi-Min Hu 6 |
title |
Multiple-Fluid SPH Simulation Using a Mixture Model |
spellingShingle |
Multiple-Fluid SPH Simulation Using a Mixture Model Chenfeng Li Javier Bonet |
title_short |
Multiple-Fluid SPH Simulation Using a Mixture Model |
title_full |
Multiple-Fluid SPH Simulation Using a Mixture Model |
title_fullStr |
Multiple-Fluid SPH Simulation Using a Mixture Model |
title_full_unstemmed |
Multiple-Fluid SPH Simulation Using a Mixture Model |
title_sort |
Multiple-Fluid SPH Simulation Using a Mixture Model |
author_id_str_mv |
82fe170d5ae2c840e538a36209e5a3ac b7398206d59a9dd2f8d07a552cfd351a |
author_id_fullname_str_mv |
82fe170d5ae2c840e538a36209e5a3ac_***_Chenfeng Li b7398206d59a9dd2f8d07a552cfd351a_***_Javier Bonet |
author |
Chenfeng Li Javier Bonet |
author2 |
Bo Ren Chenfeng Li Xiao Yan Ming C. Lin Javier Bonet Shi-Min Hu |
format |
Journal article |
container_title |
ACM Transactions on Graphics |
container_volume |
33 |
container_issue |
5 |
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publishDate |
2014 |
institution |
Swansea University |
doi_str_mv |
10.1145/2645703 |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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facultyofscienceandengineering |
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Faculty of Science and Engineering |
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School of Engineering and Applied Sciences - Uncategorised{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Engineering and Applied Sciences - Uncategorised |
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description |
This article presents a versatile and robust SPH simulation approach for multiple-fluid flows. The spatial distribution of different phases or components is modeled using the volume fraction representation, the dynamics of multiple-fluid flows is captured by using an improved mixture model, and a stable and accurate SPH formulation is rigorously derived to resolve the complex transport and transformation processes encountered in multiple-fluid flows. The new approach can capture a wide range of real-world multiple-fluid phenomena, including mixing/unmixing of miscible and immiscible fluids, diffusion effect and chemical reaction, etc. Moreover, the new multiple-fluid SPH scheme can be readily integrated into existing state-of-the-art SPH simulators, and the multiple-fluid simulation is easy to set up. Various examples are presented to demonstrate the effectiveness of our approach. |
published_date |
2014-09-30T03:23:22Z |
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1763750762312105984 |
score |
11.037603 |