A conservative cell-based unsplit Volume of Fluid advection scheme for three-dimensional atomization simulations
A conservative cell-based unsplit Volume of Fluid advection scheme for three-dimensional atomization simulations
The Volume of Fluid (VoF) method is widely used for capturing the interface motion in multiphase flow simulations. In particular, unsplit geometrical advection schemes have proved well-suited for flows with complex topologies. In the cell-based approach, the computational cell is followed along its Lagrangian trajectories and provides a conceptually simple framework for advancing the interface. Thus, this is a semi-Lagrangian method, and enforcing conservation is difficult. This paper presents a cell-based three-dimensional (3D) unsplit advection scheme that is conservative. The method relies on the Hybrid Lagrangian Eulerian Method (HyLEM) of Le Chenadec and Pitsch [3] but additionally ensures discrete conservation by introducing a correction of the projected cell, which is inspired by the 3D flux-based method of Owkes and Desjardins [14] and the two-dimensional cell-based method of Comminal et al. [4]. While the projected cell vertices are evaluated as in HyLEM, additional vertices are introduced to modify the projected cell faces. The positions of those are obtained from conservative flux volumes. The proposed method provides the same accuracy as the method of Owkes and Desjardins [14], but is more efficient. The proposed method is tested in various benchmark cases and applied in an atomization case.
Atomization, Mass conservation, Unsplit advection, Volume of Fluid
Fröde, Fabian
24ef5242-a667-4d7b-b78a-cbc11748a496
Grenga, Temistocle
be0eba30-74b5-4134-87e7-3a2d6dd3836f
Le Chenadec, Vincent
a176c456-d938-4ff5-a681-83f28935ab32
Bode, Mathis
50cb6909-eaa8-4a7c-b24e-5be18240a6a5
Pitsch, Heinz
3dc0eb6e-deca-4742-98a1-f0cdd62ff8b8
31 August 2021
Fröde, Fabian
24ef5242-a667-4d7b-b78a-cbc11748a496
Grenga, Temistocle
be0eba30-74b5-4134-87e7-3a2d6dd3836f
Le Chenadec, Vincent
a176c456-d938-4ff5-a681-83f28935ab32
Bode, Mathis
50cb6909-eaa8-4a7c-b24e-5be18240a6a5
Pitsch, Heinz
3dc0eb6e-deca-4742-98a1-f0cdd62ff8b8
Fröde, Fabian, Grenga, Temistocle, Le Chenadec, Vincent, Bode, Mathis and Pitsch, Heinz
(2021)
A conservative cell-based unsplit Volume of Fluid advection scheme for three-dimensional atomization simulations.
15th Triennial International Conference on Liquid Atomization and Spray Systems, ICLASS 2021, , Edinburgh, United Kingdom.
29 Aug - 02 Sep 2021.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The Volume of Fluid (VoF) method is widely used for capturing the interface motion in multiphase flow simulations. In particular, unsplit geometrical advection schemes have proved well-suited for flows with complex topologies. In the cell-based approach, the computational cell is followed along its Lagrangian trajectories and provides a conceptually simple framework for advancing the interface. Thus, this is a semi-Lagrangian method, and enforcing conservation is difficult. This paper presents a cell-based three-dimensional (3D) unsplit advection scheme that is conservative. The method relies on the Hybrid Lagrangian Eulerian Method (HyLEM) of Le Chenadec and Pitsch [3] but additionally ensures discrete conservation by introducing a correction of the projected cell, which is inspired by the 3D flux-based method of Owkes and Desjardins [14] and the two-dimensional cell-based method of Comminal et al. [4]. While the projected cell vertices are evaluated as in HyLEM, additional vertices are introduced to modify the projected cell faces. The positions of those are obtained from conservative flux volumes. The proposed method provides the same accuracy as the method of Owkes and Desjardins [14], but is more efficient. The proposed method is tested in various benchmark cases and applied in an atomization case.
This record has no associated files available for download.
More information
Published date: 31 August 2021
Additional Information:
Funding Information:
The authors gratefully ackownledge funding by the Deutsche Forschungsgemeinschaft (DFG, German Reserach Foundation) through SPP1980 (Project number 375857587).
Venue - Dates:
15th Triennial International Conference on Liquid Atomization and Spray Systems, ICLASS 2021, , Edinburgh, United Kingdom, 2021-08-29 - 2021-09-02
Keywords:
Atomization, Mass conservation, Unsplit advection, Volume of Fluid
Identifiers
Local EPrints ID: 486263
URI: http://eprints.soton.ac.uk/id/eprint/486263
PURE UUID: ed303cf1-6dcf-4ec2-93c8-79ca90a3f4c0
Catalogue record
Date deposited: 16 Jan 2024 17:37
Last modified: 18 Mar 2024 04:11
Export record
Contributors
Author:
Fabian Fröde
Author:
Temistocle Grenga
Author:
Vincent Le Chenadec
Author:
Mathis Bode
Author:
Heinz Pitsch
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics