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Ahmad ShakibaeiniaDepartment of Civil, Geological and Mining Engineering
Profile in the Directory of Experts of Polytechnique Montréal
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Azarpira, M., Zarrati, A. R., Farokhzad, P., & Shakibaeinia, A. (2022). Air-core vortex formation in a draining reservoir using smoothed-particle hydrodynamics (SPH). Physics of Fluids, 34(3), 15 pages. External link
Amaro, R. A., Mellado-Cusicahua, A., Shakibaeinia, A., & Cheng, L.-Y. (2021). A fully Lagrangian DEM-MPS mesh-free model for ice-wave dynamics. Cold Regions Science and Technology, 186, 103266 (25 pages). External link
Amaro-Junior, R. A., Mellado-Cusicahua, A., Shakibaeinia, A., & Cheng, L. Y. (2019, May). A fully Lagrangian mesh-free numerical model for river ice dynamic [Paper]. 20th Workshop on the Hydraulics of Ice Covered Rivers (CRIPE), Ottawa, Ontario,Canada. External link
Amaro-Junior, R. A., Pereira, L. S., Cheng, L. Y., & Shakibaeinia, A. (2019, October). Polygon wall boundary model in particle based method: application to brumadinho tailings dam failure [Paper]. 25th ABCM International Congress of Mechanical Engineering, Uberlândia, MG - Brazil. Unavailable
Bao, T., Hu, J., Wang, S., Huang, C., Yu, Y., & Shakibaeinia, A. (2024). An entirely SPH-based FSI solver and numerical investigations on hydrodynamic characteristics of the flexible structure with an ultra-thin characteristic. Computer Methods in Applied Mechanics and Engineering, 431, 117255 (38 pages). External link
Billy, C., Shakibaeinia, A., & Ghobrial, T. (2022, November). Fully Lagrangian mesh-free modelling of river ice interaction with control structures [Paper]. 11th International Conference on Fluvial Hydraulics (River Flow 2022), Kingston, ON, Canada. External link
Billy, C., Shakibaeinia, A., & Ghobrial, T. (2023). Three-dimensional fully-Lagrangian DEM-SPH modeling of river ice interaction with control structures. Cold Regions Science and Technology, 214, 18 pages. External link
Billy, C., Shakibaeinia, A., Jandaghian, M., Taha, W., Lokhmanets, I., Carbonneau, A.-S., & Larouche, M.-È. (2022, June). Three-dimensional fully Lagrangian continuum-discrete modeling of river ice jam formation [Paper]. 26th IAHR International Symposium on Ice, Montreal, Qc, Canada (10 pages). External link
Dibike, Y., Shakibaeinia, A., Eum, H.-I., Prowse, T., & Droppo, I. (2018). Effects of projected climate on the hydrodynamic and sediment transport regime of the lower Athabasca River in Alberta, Canada. River Research and Applications, 34(5), 417-429. Available
Dibike, Y. B., Shakibaeinia, A., Droppo, I. G., & Caron, E. (2018). Modelling the potential effects of Oil-Sands tailings pond breach on the water and sediment quality of the Lower Athabasca River. Science of The Total Environment, 642, 1263-1281. External link
Dibike, Y. B., Prowse, T. D., Droppo, I. G., Eum, H., Kashayap, S., Shakibaeinia, A., & Oveisy, A. (2013, December). Progress and Challenges in Hydrological, Hydrodynamic and Transport Modelling of the Lower Athabasca Watershed in Western Canada [Paper]. AGU Fall 2013 Meeting, San Francisco, USA. Unavailable
Garoosi, F., Nicole Mellado-Cusicahua, A., Shademani, M., & Shakibaeinia, A. (2022). Experimental and numerical investigations of dam break flow over dry and wet beds. International Journal of Mechanical Sciences, 215, 24 pages. External link
Garoosi, F., & Shakibaeinia, A. (2021). Numerical simulation of Rayleigh-Bénard convection and three-phase Rayleigh-Taylor instability using a modified MPS method. Engineering Analysis With Boundary Elements, 123, 1-35. External link
Garoosi, F., & Shakibaeinia, A. (2020). An improved high-order ISPH method for simulation of free-surface flows and convection heat transfer. Powder Technology, 376, 668-696. External link
Garoosi, F., & Shakibaeinia, A. (2020). Numerical simulation of entropy generation due to natural convection heat transfer using Kernel Derivative-Free (KDF) Incompressible Smoothed Particle Hydrodynamics (ISPH) model. International Journal of Heat and Mass Transfer, 150, 33 pages. External link
Garoosi, F., & Shakibaeinia, A. (2020). Numerical simulation of free-surface flow and convection heat transfer using a modified Weakly Compressible Smoothed Particle Hydrodynamics (WCSPH) method. International Journal of Mechanical Sciences, 188, 33 pages. External link
Garoosi, F., Shakibaeinia, A., & Bagheri, G. (2015). Eulerian-Lagrangian modeling of solid particle behavior in a square cavity with several pairs of heaters and coolers inside. Powder Technology, 280, 239-255. External link
Jandaghian, M., & Shakibaeinia, A. (2023). A consistent multi-resolution particle method for fluid-driven granular dynamics. Advances in Water Resources, 178, 26 pages. External link
Jandaghian, M., Siaben, H. M., & Shakibaeinia, A. (2022). Stability and accuracy of the weakly compressible SPH with particle regularization techniques. European Journal of Mechanics, B/Fluids, 94, 314-333. External link
Jandaghian, M., Krimi, A., & Shakibaeinia, A. (2021). Enhanced weakly-compressible MPS method for immersed granular flows. Advances in Water Resources, 152, 103908. External link
Jandaghian, M., Krimi, A., Zarrati, A. R., & Shakibaeinia, A. (2021). Enhanced weakly-compressible MPS method for violent free-surface flows: Role of particle regularization techniques. Journal of Computational Physics, 434, 110202 (32 pages). External link
Jandaghian, M., & Shakibaeinia, A. (2020). An enhanced weakly-compressible MPS method for free-surface flows. Computer Methods in Applied Mechanics and Engineering, 360, 112771 (31 pages). External link
Jafari Nodoushan, E., Shakibaeinia, A., & Hosseini, K. (2018). A multiphase meshfree particle method for continuum-based modeling of dry and submerged granular flows. Powder Technology, 335, 258-274. External link
Jafari-Nodoushan, E., Hosseini, K., Shakibaeinia, A., & Mousavi, S.-F. (2016). Meshless particle modelling of free surface flow over spillways. Journal of Hydroinformatics, 18(2), 354-370. External link
Jabbari Sahebari, A., Jin, Y.-C., & Shakibaeinia, A. (2011). Flow over sills by the MPS mesh-free particle method. Journal of Hydraulic Research, 49(5), 649-656. External link
Krimi, A., Jandaghian, M., & Shakibaeinia, A. (2020). A WCSPH Particle Shifting Strategy for Simulating Violent Free Surface Flows. Water, 12(11), 3189 (37 pages). Available
Kashyap, S., Dibike, Y., Shakibaeinia, A., Prowse, T., & Droppo, I. (2017). Two-dimensional numerical modelling of sediment and chemical constituent transport within the lower reaches of the Athabasca River. Environmental Science and Pollution Research International, 24(3), 2286-2303. External link
Khanpour, M., Zarrati, A. R., Kolahdoozan, M., Shakibaeinia, A., & Amirshahi, S. M. (2016). Mesh-free SPH modeling of sediment scouring and flushing. Computers & Fluids, 129, 67-78. External link
Khanpour, M., Zarrati, A. R., Kolahdoozan, M., Shakibaeinia, A., & Jafarinik, S. (2016). Numerical modeling of free surface flow in hydraulic structures using Smoothed Particle Hydrodynamics. Applied Mathematical Modelling, 40(23-24), 9821-9834. External link
Kashayap, S., Shakibaeinia, A., Oveisy, A., Dibike, Y. B., Prowse, T. D., & Droppo, I. G. (2014, August). Numerical modelling of flow and sediment transport within the lower reaches of the Athabasca River: a case study [Paper]. 11th International Conference on Hydroinformatics (HIC 2014), New York City, USA (10 pages). External link
Mahdi, A., Shakibaeinia, A., & Dibike, Y. B. (2020). Numerical modelling of oil-sands tailings dam breach runout and overland flow. Science of The Total Environment, 703, 134568 (10 pages). External link
Mahdi, A., Shakibaeinia, A., & Dibike, Y. B. (2018, October). Simulation numérique de la crue causée par une rupture d'un barrage d'un parc a résidus miniers [Paper]. Congrès annuel 2018 de l'ACB, Québec, QC, Canada. Unavailable
Nodoushan, E. J., Tajnesaie, M., & Shakibaeinia, A. (2024). Two- and three-dimensional multiphase mesh-free particle modeling of transitional landslide with μ(I) rheology. International Journal for Numerical Methods in Fluids, 28 pages. External link
Nodoushan, E. J., & Shakibaeinia, A. (2019). Multiphase mesh-free particle modeling of local sediment scouring with mu(I) rheology. Journal of Hydroinformatics, 21(2), 279-294. External link
Nazari-Giglou, A., Jabbari-Sahebari, A., Shakibaeinia, A., & Borghei, S. M. (2016). An experimental study of sediment transport in channel confluences. International Journal of Sediment Research, 31(1), 87-96. External link
Nazari, F., Jin, Y.-, & Shakibaeinia, A. (2012). Numerical analysis of jet and submerged hydraulic jump using moving particle semi-implicit method. Canadian Journal of Civil Engineering, 39(5), 495-505. External link
Pourshahbaz, H., Ghobrial, T., & Shakibaeinia, A. (2024). Evaluation of a coupled CFD and multi-body motion model for ice-structure interaction simulation. Water, 16(17), 2454 (23 pages). Available
Pourshahbaz, H., Ghobrial, T., & Shakibaeinia, A. (2023). Field monitoring of river ice processes in the vicinity of ice control structures in the province of Quebec, Canada. Canadian Journal of Civil Engineering, 15 pages. External link
Pilvar, M., Pouraghniaei, M. J., & Shakibaeinia, A. (2019). Two-dimensional sub-aerial, submerged, and transitional granular slides. Physics of Fluids, 31(11), 113303 (15 pages). External link
Shakibaeinia, A., & Jandaghian, M. (2022, November). Mesh-free particle methods for simulation of fluvial processes, challenges, and opportunities [Paper]. 11th International Conference on Fluvial Hydraulics (River Flow 2022), Kingston, ON, Canada. External link
Siaben, H. M., Jandaghian, M., & Shakibaeinia, A. (2023, May). A multi-resolution and multiphase mesh-free particle method for tsunami waves generated from transitional landslides [Paper]. Canadian Society for Mechanical Engineering International Congress (CSME 2023) & Computational Fluid Dynamics Canada International Congress (CFD 2023), Sherbrooke, Qc, Canada (6 pages). External link
Shakibaeinia, A., & Zarrati, A. R. (2022). Computational Fluid Mechanics and Hydraulics. Water, 14(24), 3 pages. External link
Shademani, M., Blais, B., & Shakibaeinia, A. (2021). CFD-DEM modeling of dense sub-aerial and submerged granular collapses. Water, 13(21), 17 pages. External link
Shakibaeinia, A., & Jandaghian, M. (2019, October). Meshfree Particle Methods for Continuum-based Modelling of Multiphase Granular Flows: Challenges and Opportunities [Paper]. International Conference on Particle-Based Methods (Particles 2019), Barcelona, Spain. External link
Shakibaeinia, A., & Jandaghian, M. (2019, September). A Moving Particle Semi-implicit Numerical Method for Modelling Sediment Dynamic [Paper]. 38th IAHR World Congress, Panama City, Panama. External link
Shakibaeinia, A. (2017, July). Mesh-free particle modeling of multiphase granular continuum [Paper]. 14th U.S. National Congress on Computational Mechanics (USACM 2017), Montréal, Québec. External link
Shakibaeinia, A., & Jafari-Nodoushan, E. (2017, May). Mesh-free two-phase modelling of highly-dynamic sediment transport [Paper]. CSCE Annual Conference: Leadership in Sustainable Infrastructure, Vancouver, Canada. Unavailable
Shakibaeinia, A., Dibike, Y. B., Kashyap, S., Prowse, T. D., & Droppo, I. G. (2017). A numerical framework for modelling sediment and chemical constituents transport in the Lower Athabasca River. Journal of Soils and Sediments, 17(4), 1140-1159. External link
Shakibaeinia, A., Kashyap, S., Dibike, Y. B., & Prowse, T. D. (2016). An integrated numerical framework for water quality modelling in cold-region rivers: A case of the lower Athabasca River. Science of The Total Environment, 569-570, 634-646. External link
Shakibaeinia, A. (2015, December). Mesh-free particle continuum-based modeling of complex geophysical flows [Paper]. AGU Fall Meeting Abstracts, San Francisco, USA. External link
Shakibaeinia, A. (2015, June). Mesh-free particle modelling of air-water interaction [Paper]. 36th IAHR World Congress 2015, The Hague, the Netherlands. External link
Shakibaeinia, A., Dibike, Y. B., Prowse, T. D., & Droppo, I. G. (2015, June). Numerical modelling of sediment transport in a ice covered river [Paper]. 36th IAHR World Congress 2015, The Hague, the Netherlands. External link
Shakibaeinia, A., Dibike, Y. B., & Prowse, T. D. (2014, June). Numerical modelling of dissolved-oxygen in a cold-region river [Paper]. 7th International Congress on Environmental Modelling and Software, San Diego, California, USA. External link
Shakibaeinia, A., & Jin, Y.-C. (2012). Lagrangian multiphase modeling of sand discharge into still water. Advances in Water Resources, 48, 55-67. External link
Shakibaeinia, A., & Jin, Y. C. (2012, May). Mesh-free Lagrangian Modeling of Multiphase Flow In [Paper]. 20th Annual Conference of the CFD Society of Canada, Canmore, Alberta, Canada. External link
Shakibaeinia, A., & Jin, Y. C. (2012, June). A Mesh-free Particle Model for Shallow Waters [Paper]. 3rd International Symposium on Shallow Flows, Iowa City, Iowa USA. Unavailable
Shakibaeinia, A., & Jin, Y.-C. (2012). MPS mesh-free particle method for multiphase flows. Computer Methods in Applied Mechanics and Engineering, 229-232, 13-26. External link
Shakibaeinia, A., & Jin, Y.-C. (2011). A mesh-free particle model for simulation of mobile-bed dam break. Advances in Water Resources, 34(6), 794-807. External link
Shakibaeinia, A., & Jin, Y.-C. (2011). MPS-Based Mesh-Free Particle Method for Modeling Open-Channel Flows. Journal of Hydraulic Engineering, 137(11), 1375-1384. External link
Shakibaeinia, A., Majdzadeh, T. M., & Zarrati, A. R. (2011). Reply to the discussion on “Three-dimensional numerical study of flow structure in channel confluences”. Canadian Journal of Civil Engineering, 38(1), 772-781. External link
Shakibaeinia, A., Majdzadeh, T. M., & Zarrati, A. R. (2010). Three-dimensional numerical study of flow structure in channel confluences. Canadian Journal of Civil Engineering, 38(5), 772-781. External link
Shakibaeinia, A., & Jin, Y. C. (2010). A weakly compressible MPS method for modeling of open-boundary free-surface flows. International Journal for Numerical Methods in Fluids, 63(10), 1208-1232. External link
Shakibaeinia, A., Tabatabai, M. R. M., & Zarrati, A. R. (2009, August). Flow Structure and Water Surface Formulation in River Channel Confluences Using a Three-Dimensional Numerical Model [Paper]. 33rd IAHR Congress, Vancouver, Canada. External link
Shakibaeinia, A., & Jin, Y. C. (2009, August). Lagrangian Modeling of Flow over Spillways Using Moving Particle Semi-Implicit Method [Paper]. 33rd IAHR Congress 2009, Vancouver, Canada. External link
Shakibaeinia, A., Zarrati, A. R., & Tabatabai, M. R. M. (2008). Application of 3d numerical modeling in simulation of complex phenomena in rivers. Journal of Faculty of Engineering (University of Tehran), 42(4), 443-455. External link
Shakibaeinia, A., Tabatabai, M. R. M., & Zarrati, A. R. (2007, July). Three-Dimensional Numerical Modeling of Bed changes In River channel confluences [Paper]. 32nd IAHR Congress, Venice, Italy.. Unavailable
Taherparvar, M., Shakibaeinia, A., & Dibike, Y. B. (2022, November). Sediment and chemical transport modeling of a hypothetical tailings dam breach spill in the lower Athabasca River [Paper]. 11th International Conference on Fluvial Hydraulics (River Flow 2022), Kingston, ON, Canada. External link
Taghipour, M., Shakibaeinia, A., Sylvestre, E., Tolouei, S., & Dorner, S. (2019). Microbial risk associated with CSOs upstream of drinking water sources in a transboundary river using hydrodynamic and water quality modeling. Science of The Total Environment, 683, 547-558. External link
Taghipour, M., Tolouei, S., Autixier, L., Prévost, M., Shakibaeinia, A., & Dorner, S. (2019). Normalized dynamic behavior of combined sewer overflow discharges for source water characterization and management. Journal of Environmental Management, 249, Unsp 10938 (12 pages). External link
Tajnesaie, M., Shakibaeinia, A., & Hosseini, K. (2018). Meshfree particle numerical modelling of sub-aerial and submerged landslides. Computers and Fluids, 172, 109-121. External link
Zhang, Y., Pan, J., Song, M., Jiang, H., He, F., Huang, C., & Shakibaeinia, A. (2025). A multi-phase SPH model for simulating the floating OWC-breakwater integrated systems. Coastal Engineering, 197, 19 pages. External link
