Flow-3D

FLOW-3D is a powerful and highly-accurate CFD software that gives engineers valuable insight into many physical flow processes. With special capabilities for accurately predicting free-surface flows, FLOW-3D is the ideal CFD software to use in your design phase as well as in improving production processes. FLOW-3D is an all-inclusive package. No special additional modules for meshing or post-processing are needed. An integrated graphical user interface ties everything together, from problem setup to post-processing. For a description of key features in our latest FLOW-3D release, go to the What’s New in Version 10.1 — Solver and the What’s New in Version 10.1 — GUI pages.


References in zbMATH (referenced in 18 articles )

Showing results 1 to 18 of 18.
Sorted by year (citations)

  1. Gharehbaghi, Amin; Kaya, Birol; Saadatnejadgharahassanlou, Hamid: Two-dimensional bed variation models under non-equilibrium conditions in turbulent streams (2017)
  2. Wu, Yan Ling; Stewart, Graham; Chen, Yu; Gullman-Strand, Johan; Lv, Xin; Kumar, Pankaj: A CFD application of NewWave theory to wave-in-deck simulation (2016)
  3. Reilly, C.; Green, N. R.; Jolly, M. R.: The present state of modeling entrainment defects in the shape casting process (2013)
  4. Pelinovsky, Efim; Choi, Byung Ho; Talipova, Tatiana; Woo, Seung Buhm; Kim, Dong Chule: Solitary wave transformation on the underwater step: asymptotic theory and numerical experiments (2010)
  5. Glatzel, Thomas; Litterst, Christian; Cupelli, Claudio; Lindemann, Timo; Moosmann, Christian; Niekrawietz, Remigius; Streule, Wolfgang; Zengerle, Roland; Koltay, Peter: Computational fluid dynamics (CFD) software tools for microfluidic applications - a case study (2008)
  6. Tang, Bo; Li, Junfeng; Wang, Tianshu: Numerical simulation of liquid drop phenomenon by least square particle finite element method (2008)
  7. Tomé, M. F.; Grossi, L.; Castelo, A.; Cuminato, J. A.; Mckee, S.; Walters, K.: Die-swell, splashing drop and a numerical technique for solving the Oldroyd B model for axisymmetric free surface flows (2007)
  8. Wei, Gengsheng: A fixed-mesh method for general moving objects in fluid flow (2005)
  9. McKee, S.; Tomé, M. F.; Cuminato, J. A.; Castelo, A.; Ferreira, V. G.: Recent advances in the Marker and Cell Method (2004)
  10. Pilliod, James Edward jun.; Puckett, Elbridge Gerry: Second-order accurate volume-of-fluid algorithms for tracking material interfaces (2004)
  11. Shahbazi, Khosro; Paraschivoiu, Marius; Mostaghimi, Javad: Second order accurate volume tracking based on remapping for triangular meshes. (2003)
  12. Tomé, M. F.; Mangiavacchi, N.; Cuminato, J. A.; Castelo, A.; McKee, S.: A finite difference technique for simulating unsteady viscoelastic free surface flows (2002)
  13. Castello F., A.; Tomé, M. F.; César, C. N. L.; McKee, S.; Cuminato, J. A.: Freeflow: An integrated simulation system for three-dimensional free surface flows (2000)
  14. Tome, M. F.; Castelo, A.; Murakami, J.; Cuminato, J. A.; Minghim, R.; Oliveira, M. C. F.; Mangiavacchi, N.; McKee, S.: Numerical simulation of axisymmetric free surface flows (2000)
  15. Mastorakos, E.; Massias, A.; Tsakiroglou, C. D.; Goussis, D. A.; Burganos, V. N.; Payatakes, A. C.: CFD predictions for cement kilns including flame modelling, heat transfer and clinker chemistry (1999)
  16. Puckett, Elbridge Gerry; Almgren, Ann S.; Bell, John B.; Marcus, Daniel L.; Rider, William J.: A high-order projection method for tracking fluid interfaces in variable density incompressible flows (1997)
  17. Puckett, Gerry: Introduction to “A numerical method for solving incompressible viscous flow problems”. (1997)
  18. Sanderson, S. Laurie; Cheer, A. Y.: Fish as filters: An empirical and mathematical analysis (1993)


Further publications can be found at: http://www.flow3d.com/resources/technical-papers/recent-publications.html