Articles and Book

Specific references about or using ParisSimulator are

Malan, L. C., Malan, A. G., Zaleski, S., & Rousseau, P. G. (2020). A geometric VOF method for interface resolved phase change and conservative thermal energy advection. arXiv preprint arXiv:2001.03477.

Reissmann, M., Hasslberger, J., Sandberg, R. D., & Klein, M. (2020). Application of Gene Expression Programming to a-posteriori LES modeling of a Taylor Green Vortex. Journal of Computational Physics, 109859.

Aniszewski, W., Arrufat, T., Crialesi-Esposito, M., Dabiri, S., Fuster, D., Ling, Y., J. Lu, L. Malan, S. Pal, R. Scardovelli, G. Tryggvason, P. Yecko & Zaleski, S. (2019). PArallel, Robust, Interface Simulator (PARIS).

Fuster, D., Arrufat, T., Crialesi-Esposito, M., Ling, Y., Malan, L., Pal, S., ... & Zaleski, S. (2018). A momentum-conserving, consistent, Volume-of-Fluid method for incompressible flow on staggered grids. arXiv preprint arXiv:1811.12327.

Aniszewski, W., Zaleski, S., Llor, A., & Malan, L. (2018). Numerical simulations of pore isolation and competition in idealized micro-spall process. International Journal of Multiphase Flow.

S. Ketterl and M. Klein. A band-width filtered forcing based generation of turbulent inflow data for direct numerical or large eddy simulations and its application to primary breakup of liquid jets. Flow Turbulence and Combustion, 101:413-432, 2018.

S. Ketterl and M. Klein. A-priori assessment of subgrid scale models for large-eddy simulation of multiphase primary breakup. Computers and Fluids, 165:64-77, 2018.

J. Hasslberger, S. Ketterl, M. Klein, and Nilanjan Chakraborty. Flow topologies in primary atomization of liquid jets: A direct numerical simulation analysis. Journal of Fluid Mechanics, 859:819-838, 2018.

Hasslberger, J., Klein, M., & Chakraborty, N. (2018). Flow topologies in bubble-induced turbulence: a direct numerical simulation analysis. Journal of Fluid Mechanics, 857, 270-290.

Salvador, F. J., S, R., Crialesi-Esposito, M., & Blanquer, I. (2018). Analysis on the effects of turbulent inflow conditions on spray primary atomization in the near-field by direct numerical simulation. International Journal of Multiphase Flow, 102, 49ó63.

Ling, Y., Fuster, D., Zaleski, S., & Tryggvason, G. (2017). Spray formation in a quasiplanar gas-liquid mixing layer at moderate density ratios: A numerical closeup. Physical Review Fluids, 2(1), 014005

Y. Ling, S. Zaleski & R. Scardovelli 2015: Multiscale Simulation of Atomization with Small Droplets Represented by a Lagrangian Point-Particle Model, Int. J. Multiphase Flow, 76, 122-143.

Arrufat, T., I. Bondino, S. Zaleski, B. Lagrée & N. Keskes 2014: SPE 172025, Developments on Relative Permeability Computation in 3D Rock Images, proceedings of the Abu Dhabi International Petroleum Exhibition and Conference (ADIPEC) held in Abu Dhabi, UAE, 10–13 November 2014.

In addition, PARIS implements many ideas in this book:

Tryggvason G., Scardovelli R. and Zaleski S. 2011: Direct Numerical Simulations of Gas-Liquid Multiphase Flows, Cambridge University Press.

The Vofi library used with PARIS is described in this paper:

S. Bnã, S. Manservisi, R. Scardovelli, P. Yecko, S. Zaleski 2014, Numerical integration of implicit functions for the initialization of the VOF function, Computers & Fluids, DOI 10.1016/j.compfluid.2014.04.010.

S. Bnà, S. Manservisi, R. Scardovelli, P. Yecko, S. Zaleski 2016: Vofi — A library to initialize the volume fraction scalar field, Computer Physics Communications, Volume 200, Pages 291-299, DOI 10.1016/j.cpc.2015.10.026.


There is a Documentation directory in the distribution.

Important reminder

PARIS is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. PARIS is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public Licence for more details.


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