PUBLICATIONS

Peer-reviewed scientific articles

  1.  DUPUIS, V., PROUST, S., BERNI, C., PAQUIER, A. – 2016. Combined effects of bed friction and emergent cylinder drag in open channel flow. Environmental Fluid Mechanics, vol. 16, n° 6, p. 1173-1193. http://dx.doi.org/10.1007/s10652-016-9471-2. Author’s version: https://irsteadoc.irstea.fr/cemoa/PUB00050481
  2. BRITO, M., J. N. FERNANDES and J. B. LEAL (2016). “Porous media approach for RANS simulation of compound open-channel flows with submerged vegetated floodplains.” Environmental Fluid Mechanics 16(6): 1247–1266.
  3. DUPUIS, V., PROUST, S., BERNI, C., PAQUIER, A. – 2017a. Mixing layer development in compound channel flows with submerged and emergent rigid vegetation over the floodplains. Experiments in Fluids, vol. 58, n° 30, 18 p. http://dx.doi.org/10.1007/s00348-017-2319-9
  4. PROUST, S., FERNANDES, J.N., LEAL, J.B., RIVIERE, N., PELTIER, Y. – 2017. Mixing layer and coherent structures in compound channel flows: effects of transverse flow, velocity ratio and vertical confinement. Water Resources Research, vol. 53, n° 4, p. 3387-3406. http://dx.doi.org/10.1002/2016WR019873
  5. DUPUIS, V., PROUST, S., BERNI, C., PAQUIER, A. – 2017b. Compound channel flow with a longitudinal transition in hydraulic roughness over the floodplains. Environmental Fluid Mechanics, vol. 17, n° 5, p. 903-928. http://dx.doi.org/10.1007/s10652-017-9525-0.
  6. POULARD, C., ROYET, P., LEBLOIS, E., FAURE, J.B., BREIL, P., PROUST, S., DEROO, L. – 2017. Gérer des inondations par des ouvrages dispersés sur le bassin versant : principes et méthodes de diagnostic d’efficacité probabiliste. Sciences Eaux et Territoires, n° 23, p. 34-41. http://dx.doi.org/10.14758/SET-REVUE.2017.23.07
  7. ROUZES M., MOULIN F.Y., FLORENS E. and EIFF O. (2018), « Low relative-submergence effects in a rough-bed open-channel flow ». Journal of Hydraulic Research. https://doi.org/10.1080/00221686.2018.1478894
  8. GYMNOPOULOS, M., RICARDO A.M., ALVES E. and FERREIRA R.M.L. A circular cylinder in the main-channel/floodplain interface of a compound channel: effect of the shear flow on drag and lift. Accepted for the Journal of Hydraulic Research.
  9. AKUTINA Y., EIFF O., MOULIN F. and ROUZES M. Lateral bed-roughness variation in shallow open-channel flow with very low submergence. Accepted for Environmental Fluid Mechanics.
  10. CHETIBI, M., S. PROUST and S. BENMAMAR. Transverse surface waves in steady uniform and non-uniform flows through emergent and weakly submerged square cylinders. Accepted for Journal of Hydraulic Research.
  11. GUILLEN-LUDENA S., LOPEZ D., MIGNOT E., RIVIERE N. Flow resistance for varying density of obstacles on smooth and rough bed. Under review for Journal of Hydraulic Engineering.

In preparation

  1. PROUST, S., NIKORA, V.I. Flow structure in compound open-channel flows: effects of transverse currents. In preparation
  2. CHAGOT L., MOULIN F.Y. and EIFF O. “Towards fully converged turbulence statistics in three-dimensional canopy dominated flows”, to be submitted to Experiments in Fluids (in 2018)
  3. CHATELAIN, M., PROUST, S. Flows through emergent rigid vegetation: effects of bed roughness and vertical confinement on flow structure and surface waves. In preparation
  4. CHATELAIN, M., PROUST, S. Assessment of an hybrid RANS-LES approach to model stream-wise non-uniform compound channel flows. In preparation.
  5. FAURE, J.B., PROUST, S., BERNI, C. Non-uniform overbank flows: validation of 1D+ model for a transition bed friction – emergent rigid vegetation drag. In preparation for Journal of Hydraulic Engineering.
  6. GYMNOPOULOS, M., RICARDO A.M., FERNANDES, J. and FERREIRA R.M.L. Drag on an array of cylinders in a compound channel interface. (prepared for the Journal of Hydraulic Engineering)
  7. OUKACINE, M., PROUST, S., LARRARTE, F., PELTIER, Y., GOUTAL, N., Experimental study of flows through emerged and weakly submerged square cylinders. In preparation for the Water Resources Research.
  8. OUKACINE, M., Le, M.-H., GOUTAL, N., The different ways to model with a 2D code low to extreme flood events. In preparation.
  9. OUKACINE, M., RTIMI, R., LOIZEAU, V., GOUTAL, N., BENHAMADOUCHE, S., Analysis of the 3D flow structure and geometrical effects for flows through emerged and weakly submerged square cylinders. In preparation.
  10. DUPUIS, V., MOULIN F. et EIFF O., “Eduction of three-dimensional coherent structures in a confined mixing layer”. En preparation pour Journal of Fluid Mechanics.

Communications in peer-reviewed conferences with proceedings

  1. DUPUIS, V., PROUST, S., BERNI, C., PAQUIER, A., THOLLET, F. – 2015. Open-channel flow over longitudinal roughness transition from highly submerged to emergent vegetation. 36th IAHR World Congress 28/06/2015-03/07/2015, La Haye, NLD. 9 p.  https://irsteadoc.irstea.fr/cemoa/PUB00045417
  2.  PROUST, S., FERNANDES, J.N., RIVIERE, N., LEAL, J.B., PELTIER, Y., CARDOSO, A.H. – 2015. Uniform and gradually varied flows in compound channel versus free mixing layers. 36th IAHR World Congress 28/06/2015-03/07/2015, La Haye, NLD. 4 p.   https://irsteadoc.irstea.fr/cemoa/PUB00045414
  3.  GUILLEN-LUDENA S., LOPEZ D., MIGNOT E., RIVIERE N. Characterization of flow resistance in a flood plain for varying building density. 4th IAHR Europe Congress, Liege Belgium 27-29 July 2016
  4. PROUST, S., BERNI, C., BOUDOU, M., CHIAVERINI, A., DUPUIS, V., FAURE, J.B., PAQUIER, A., LANG, M., GUILLEN LUDENA, S., LOPEZ, D., MIGNOT, E., RIVIERE, N., CHAGOT, L., ROUZES, M., MOULIN, F., GOUTAL, N., OUKACINE, M., PELTIER, Y., FERREIRA, R.M.L., BRITO, M., ALVES, E., GYMNOPOULOS, M., LEAL, J.B., MATHURIN, B., SOAREZ FRAZAO, S., BOUSMAR, D., FERNANDES, J.N., EIFF, O. – 2016. Predicting the flow in the floodplains with evolving land occupations during extreme flood events (FlowRes ANR project). 3rd European Conference on Flood Risk Management 17/10/2016-21/10/2016, Lyon, FRA. 12 p. https://irsteadoc.irstea.fr/cemoa/PUB00050525
  5.  BOUSMAR, D., MATHURIN, B., FERNANDES, J.N.S., FILONOVICH, M., HAZLEWOOD, C., HUTHOFF, F., LEAL, J.B., PAQUIER, A., PROUST, S. – 2016. Uniform flow in prismatic compound channel: Benchmarking numerical models. River Flow 2016 11/07/2016-15/07/2016, Saint Louis, USA. p. 272-280 9 p.
  6. PROUST, S., FAURE, J.B., DUPUIS, V., BERNI, C., PAQUIER, A. – 2016. 1D+ model for overbank flows with a transition bed friction – emergent rigid vegetation drag. River Flow 2016 11/07/2016-15/07/2016, Saint Louis, USA. p. 2255-2261.  https://irsteadoc.irstea.fr/cemoa/PUB00050521
  7. ROUZES M., MOULIN F.Y., CAZIN S., MARCHAL M. and EIFF O. (2016), Bed Friction and transverse fluxes of momentum in a shallow flow over inhomogenous rough bed, IAHR APD 2016, August – 28-31, Colombo, Sri Lanka
  8. CHAGOT, L., MOULIN, F.Y. and EIFF, O. (2017). Combined effects of relative submergence and roughness aspect ratio on canopy flows. 4th International Symposium of Shallow Flows, Eindhoven University Technology, NL, 26-28 June 2017
  9. CHAGOT, L., MOULIN, F.Y. and EIFF, O. (2017). Coherent Structures in free-surface canopy flows: combined effects of relative submergence and geometrical aspect ratio. 16th European Turbulence Conference, 21-24 august, 2017, Stockholm, Sweden
  10. MIGNOT E., S. GUILLEN-LUDENA, D. LOPEZ, and N. RIVIERE. 2017. Shallow uniform flow over a rough bed and within an array of emerging obstacles: Estimating the bed friction and obstacle drag coefficients. Shallow Flows Conference, 4th International Symposium of Shallow Flows, Eindhoven, NL, 26-28 June 2017
  11. GUILLEN-LUDENA S., D. LOPEZ, N. RIVIERE & E. MIGNOT. 2017. Extreme flood flow in an increasingly urbanized floodplain: an experimental approach37th IAHR World Congress,August 13 – 18, 2017, Kuala Lumpur, Malaysia
  12. AKUTINA, Y., M. ROUZES, F. MOULIN and O. EIFF (2017). Secondary structures in a shallow channel with lateral bed-roughness variation. 4th International Symposium of Shallow Flows, Eindhoven University Technology, NL, 26-28 June 2017
  13. PROUST, S., NIKORA, V.I. – 2017. Coherent structures in compound channel flows at the presence of transverse currents. 4th International Symposium of Shallow Flows 26/06/2017-28/06/2017, Eindhoven, NLD. 4th International Symposium of Shallow Flows. 3 p.   https://irsteadoc.irstea.fr/cemoa/PUB00055578
  14. CHETIBI, M., PROUST, S., BENMAMAR, S. – 2017. Experimental study of flows in a converging channel followed by a prismatic channel with stairs. SimHydro 2017 14/06/2017-16/06/2017, Sophia Antipolis, FRA. Advances in Hydroinformatics – SimHydro 2017 – Choosing The Right Model in Applied Hydraulics, Philippe Gourbesville, Jean Cunge and Guy Caignaert. 10 p.
  15. OUKACINE, M., PELTIER, Y., GOUTAL, N., PROUST, S. – 2017. 2D modelling of open-channel flow through rigid vegetation: what strategy applying for simulating extreme flood events? 4th International Symposium of Shallow Flows 26/06/2017-28/06/2017, Eindhoven , NLD. 3 p.
  16. PAQUIER, A. & A. CHIAVERINI, Modelling the 1910 flood in the Besançon centre, e-proceedings of the 37th IAHR World Congress, August 13 – 18, 2017, Kuala Lumpur, Malaysia, 8 pages.
  17. CHAGOT L., MOULIN F.Y., EIFF O. and ELYAKIME P. (2018), “Turbulent structure inside and above shallow to deep canopies”, E3S Web Conf. Volume 40, 2018, River Flow 2018 – Ninth International Conference on Fluvial Hydraulics, https://doi.org/10.1051/e3sconf/20184005059
  18. DUPUIS V., MOULIN F., CAZIN S., MARCHAL M., ELYAKIME P., BARRON J-D. and EIFF O. (2018), “Shallow flow over a bed with a lateral change of roughness”, E3S Web Conf. Volume 40, 2018, River Flow 2018 – Ninth International Conference on Fluvial Hydraulics, https://doi.org/10.1051/e3sconf/20184002039
  19. AKUTINA Y., MOULIN F., ROUZES M. and EIFF O. (2018), “Flow structures in a shallow channel with lateral bed-roughness variation”, E3S Web Conf. Volume 40, 2018, River Flow 2018 – Ninth International Conference on Fluvial Hydraulics. https://doi.org/10.1051/e3sconf/20184002051
  20. PROUST, S., NIKORA, V. – 2018. Flow structure in compound open-channel flows in the presence of transverse currents. River Flow 2018: 9th International Conference on Fluvial Hydraulics 05/09/2018-07/09/2018, Lyon, FRA. E3S Web Conf. 8 p. https://irsteadoc.irstea.fr/cemoa/PUB00057618
  21. KHUNTIA, J.R., DEVI, K., PROUST, S., KHATUA, K.K. – 2018. Depth-averaged velocity and bed shear stress in unsteady open channel flow over rough bed. River Flow 2018: 9th International Conference on Fluvial Hydraulics 05/09/2018-07/09/2018, Lyon, FRA. E3S Web Conf. 8 p.https://irsteadoc.irstea.fr/cemoa/PUB00057619
  22. DAS, B.S., DEVI, K., PROUST, S., KHATUA, K.K. – 2018. Flow distribution in diverging compound channels using improved independent subsection method. River Flow 2018: 9th International Conference on Fluvial Hydraulics 05/09/2018-07/09/2018, Lyon, FRA. E3S Web Conf. 8 p.https://irsteadoc.irstea.fr/cemoa/PUB00057620
  23. GYMNOPOULOS, M., PRINOS, P., ALVES, E. and FERREIRA R.M.L. (2018). On the use of the integral momentum-balance to calculate drag on a square cylinder in a compound-channel flow. Proceedings of the 14th International Conference on Protection and Restoration of the Environment, Thessaloniki, Greece, pp. 1005–1013.
  24. GYMNOPOULOS, M.; PRINOS, P.; ALVES, E. and FERREIRA, R.M.L. (2018) Drag determination of an array of square cylinders subjected to shear flow in a compound channel. Proc. River Flow 2018 International Conference on Fluvial Hydraulics, Lyon, France, 5-8 September 2018.
  25. LE, M.-H., DUBOS, V., OUKACINE, M., GOUTAL, N. A Well-balanced Finite Volume Scheme for Shallow Water Equations with Porosity: Application to Modelling Flow through Rigid Vegetation. River Flow 2018: 9th International Conference on Fluvial Hydraulics 05/09/2018-07/09/2018, Lyon, FRA. E3S Web Conf. 40 05032 (2018). DOI: 10.1051/e3sconf/20184005032.
  26. FAURE, J.B., & al. Recommendation guide for the numerical simulation of extreme flood flows”, SimHydro 2019, 12-14 June 2019, Sophia Antipolis – France

PhD and HDR theses

  1. DUPUIS, V. – 2016. Experimental investigation of flows subjected to a longitudinal transition in hydraulic roughness in single and compound channels. Thèse de doctorat, spécialité : Mécanique des fluides, Université Lyon I Claude Bernard. 141 p.https://irsteadoc.irstea.fr/cemoa/PUB00051102
  2. PROUST, S. (2015). Streamwise non-uniform overbank flows in compound channels / Débordement de cours d’eau en régime non-uniforme. French accreditation to direct research (Habilitation à Diriger des Recherches).  Thesis in English, 162 pp, University of Lyon. http://cemadoc.irstea.fr/cemoa/PUB00054138
  3. CHAGOT, L. (2019). Ecoulement sur canopées faiblement immergées : de la turbulence aux lois de frottement. Thèse de doctorat. Université de Toulouse. Soutenance le 11 février 2019.
  4. OUKACINE, M. (2019). Etude expérimentale et numérique d’écoulements à surface libre en présence de macro-rugosités émergées ou faiblement submergées. Thèse de doctorat. Ecole Doctorale SIE. Université Paris-Est. En préparation.
  5. CHETIBI, M. (2019). Modélisation des écoulements turbulents dans des canaux non prismatiques. Thèse de doctorat. Ecole Nationale Polytechnique d’Alger, Département d’hydraulique. En préparation.

Book chapter

  1. PAQUIER, A., PROUST, S., FAURE, J.B. – 2017. Hydrodynamic modeling to characterize floods and predict their impacts. Floods, Volume1 – Risk knowledge, Vinet F. (ed), ISTE Press, Londres, GBR, p. 129-147