Publications

Each part and specificity of ECOGEN has been validated and the results are published in international journals after a reviewing process. Work in progress must pass this stage before to be included in ECOGEN! Below are lists of journal articles, PhD theses and conferences describing, improving or using ECOGEN (sorted by date from the most recent).

Main Journal Article

Journal Articles

  1. Hong, Z.-Y., Song, Y., Wang, R., Ma, Z.-Q., Ma, D.-J., Wang, P. (2024). Deformation and mutual influence of two cylindrical water columns in tandem subjected to shock wave. hinese Physics B. DOI link
  2. Schropff, S., Petitpas, F., Daniel, E. (2024). Reference solutions for compressible single-phase flows in heated and cooled ducts. Physics of Fluids, 36 (5), 056126. DOI link
  3. Zhao, J., Wang, J., Cao, S. (2024). Dynamics of tandem bubble interaction near tissue. Physics of Fluids, 36 (5), 053324. DOI link
  4. Feng, K., Eshraghi, J., Vlachos, P. P., Gomez, H. (2024). Simulation of bubble oscillations in cavitation-induced acoustic fields. Physics of Fluids, 36 (5), 053305. DOI link
  5. Cazé, J., Petitpas, F., Daniel, E., Queguineur, M., Le Martelot, S. (2024). Modeling and simulation of the cavitation phenomenon in turbopumps. Journal of Computational Physics, 112817. DOI link
  6. Sun, S., Zhao, M., Jiang, Y. (2024). Numerical study of chain-reaction implosions in a spatial array of ceramic pressure hulls in the deep sea using a compressible multiphase flow model. Physics of Fluids, 36, 016112. DOI link
  7. Bokman, G. T., Biasiori-Poulanges, L., Meyer, D. W., Supponen, O. (2023). Scaling laws for bubble collapse driven by an impulsive shock wave. Journal of Fluid Mechanics, 967, A33. DOI link
  8. Schmidmayer, K., Biasiori-Poulanges, L. (2023). Geometry effects on the droplet shock-induced cavitation. Physics of Fluids, 35 (6), 063315. DOI link
  9. Sun, S., Zhao, M. (2023). Numerical simulation and analysis of the chain-reaction implosions of multi-spherical hollow ceramic pressure hulls in the deep-sea environment. Ocean Engineering, 277, 114247. DOI link
  10. Biasiori-Poulanges, L., Schmidmayer, K. (2023). A phenomenological analysis of droplet shock-induced cavitation using a multiphase modelling approach. Physics of Fluids, 35 (1), 013312. DOI link
  11. Schmidmayer, K., Cazé, J., Petitpas, F., Daniel, E., Favrie, N. (2023). Modelling interactions between waves and diffused interfaces. International Journal for Numerical Methods in Fluids, 95 (2), 215-241. DOI link
  12. Biasiori-Poulanges, L., Bokman, G. T., Baumann, E., Supponen, O. (2022). Dynamics of a shocked bubble-encapsulated droplet. Applied Physics Letters, 120 (26), 260601. DOI link
  13. Fan, E., Hao, J., Guan, B., Wen, C. Y., Shi, L. (2022). Numerical investigation on reacting shock-bubble interaction at a low Mach limit. Combustion and Flame, 241, 112085. DOI link
  14. Sun, S., Chen, F., Zhao, M. (2022). Numerical simulation and analysis of the underwater implosion of spherical hollow ceramic pressure hulls in 11000m depth. Journal of Ocean Engineering and Science. DOI link
  15. Redding, J. P., Khare, P. (2022). A computational study on shock induced deformation, fragmentation and vaporization of volatile liquid fuel droplets. International Journal of Heat and Mass Transfer, 184, 122345. DOI link
  16. Biasiori-Poulanges, L., El-Rabii, H. (2021). Shock-induced cavitation and wavefront analysis inside a water droplet. Physics of Fluids, 33 (9), 097104. DOI link
  17. Dorschner, B., Biasiori-Poulanges, L., Schmidmayer, K., El-Rabii, H., Colonius, T. (2020). On the formation and recurrent shedding of ligaments in droplet aerobreakup. Journal of Fluid Mechanics, 904, A20. DOI link
  18. Trummler, T., Bryngelson, S. H., Schmidmayer, K., Schmidt, S. J., Colonius, T., Adams, N. A. (2020). Near-surface dynamics of a gas bubble collapsing above a crevice. Journal of Fluid Mechanics, 899, A16. DOI link
  19. Schmidmayer, K., Bryngelson, S. H., Colonius, T. (2020). An assessment of multicomponent flow models and interface capturing schemes for spherical bubble dynamics. Journal of Computational Physics, 402, 109080. DOI link
  20. Pishchalnikov, Y. A., Behnke-Parks, W. M., Schmidmayer, K., Maeda, K., Colonius, T., Kenny, T. W., Laser, D. J. (2019). High-speed video microscopy and numerical modeling of bubble dynamics near a surface of urinary stone. The Journal of the Acoustical Society of America, 146, 516-531. DOI link
  21. Marty, A., Daniel, E., Massoni, J., Biamino, L., Houas, L., Leriche, D., Jourdan, G. (2019). Experimental and numerical investigations of shock wave propagation through a bifurcation. Shock Waves, 29, 285-296. DOI link
  22. Schmidmayer, K., Petitpas, F., Daniel, E. (2019). Adaptive Mesh Refinement algorithm based on dual trees for cells and faces for multiphase compressible flows. Journal of Computational Physics, 388, 252-278. DOI link
  23. Schmidmayer, K., Petitpas, F., Daniel, E., Favrie, N., Gavrilyuk, S. (2017). A model and numerical method for compressible flows with capillary effects. Journal of Computational Physics, 334, 468-496. DOI link

PhD Theses

  1. Cazé, J. (2022). Modeling and simulation of the cavitation phenomenon in space engine turbopumps. Aix-Marseille Université. Download on www.theses.fr
  2. Brasseur, M. (2022). Experimental study of the Richtmyer-Meshkov instability in spherical geometry. Aix-Marseille Université. Download on www.theses.fr
  3. Biasiori-Poulanges, L. (2021). Shock-induced aerodynamic fragmentation of a liquid droplet. Université de Poitiers. Download on www.theses.fr
  4. Trummler, T. (2020). Numerical investigations of cavitation phenomena. Technishe Universität München. Download on mediatum.ub.tum.de
  5. Veilleux, J.-C. (2019). Pressure and Stress Transients in Autoinjector Devices. California Institute of Technology. DOI link
  6. Marty, A. (2018). Propagation d'une onde de choc dans un système de canaux à géométrie complexe : expériences et simulations. Aix-Marseille Université. Information on www.theses.fr
  7. Schmidmayer, K. (2017). Simulation de l'atomisation d'une goutte par un écoulement à grande vitesse. Aix-Marseille Université. Download on www.theses.fr

Conferences

  1. Zheng, J., He, Y., Zhao, M. (2023). Numerical study of underwater implosion of spherical pressure hull on deep-sea submersibles. ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering, Melbourne.
  2. Shengxia, S., Zhao, M. (2023). Numerical simulation of chain-reaction implosions and analysis of different implosion beginning positions. ASME 2023 42nd International Conference on Ocean, Offshore and Arctic Engineering, Melbourne.
  3. Schmidmayer, K., Biasiori-Poulanges, L. (2023). On bubble cloud growth in shock-droplet interaction. 11th International Conference on Multiphase Flow, ICMF 2023, Kobe.
  4. Feng, K., Eshraghi, J., Vlachos, P., Gomez, H. (2022). Computational modeling of air bubble oscillations in a cavitation-induced acoustic field using multi-phase multicomponent model. Bulletin of the American Physical Society, 75th Annual Meeting of the Division of Fluid Dynamics, V. 67, N. 19, Indianapolis.
  5. Schmidmayer, K., Cazé, J., Petitpas, F., Daniel, E., Favrie, N. (2022). Modelling interactions of waves with diffused interfaces. 10th International Conference on Numerical Methods for Multi-Material Fluid Flow, MultiMat 2022, Zürich.
  6. Cazé, J., Petitpas, F., Daniel, E., Le Martelot, S., Queguineur, M. (2022). Modeling and simulation of a turbopump flow: a multiphase approach. ASME Turbo Expo 2022 - Turbomachinery Technical Conference and Exposition, Rotterdam. DOI link
  7. Schmidmayer, K. (2022). Modeling and simulation of bubble dynamics in the diffuse-interface framework. Workshop on cavitation, bubble dynamics and mass transfer, Strasbourg.
  8. Dorschner, B., Schmidmayer, K., Biasiori-Poulanges, L., El-Rabii, H., Colonius, T. (2019). Shock-induced atomization of water droplets. 72nd Annual Meeting of the APS Division of Fluid Dynamics, Seattle.
  9. Schmidmayer, K., Colonius, T. (2019). A comparative study on interface-capturing models and schemes to solve bubble dynamics and cavitation. 10th International Conference on Multiphase Flow, ICMF 2019, Rio de Janeiro.
  10. Marty, A., Jourdan, G., Houas, L., Mariani, C. C., Daniel, E., Biamino, L., Leriche, D. (2019). Shock wave mitigation propagating through a cavity. 32nd International Symposium on Shock Waves, ISSW32, Singapore.
  11. Schmidmayer, K., Colonius, T. (2018). Simulation of the collapse of a vapor bubble near or attached to a rigid surface. 71st Annual Meeting of the APS Division of Fluid Dynamics, Atlanta.
  12. Schmidmayer, K., Marty, A., Petitpas, F., Daniel, E. (2018). ECOGEN, an open-source tool dedicated to multiphase compressible multiphysics flows. 53rd 3AF International Conference on applied Aerodynamics, Salon-de-Provence. arXiv link
  13. Schmidmayer, K., Petitpas, F., Daniel, E. (2018). Simulation of the atomization of a droplet by a high-speed flow. Bulletin of the American Physical Society, APS March Meeting 2018, Los Angeles.
  14. Schmidmayer, K., Petitpas, F., Daniel, E. (2016). A model and numerical method for high speed flows with capillary, viscous and heat conduction effects. 46th AIAA Fluid Dynamics Conference, Washington.