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Documents publiés en "2022"

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Nombre de documents: 9

Département de génie chimique

Barbeau, L., Étienne, S., Béguin, C., & Blais, B. (2022). Development of a high-order continuous Galerkin sharp-interface immersed boundary method and its application to incompressible flow problems. Computers & Fluids, 239, 13 pages. Lien externe

Golshan, S., & Blais, B. (2022). Load-Balancing Strategies in Discrete Element Method Simulations. Processes, 10(1), 79 (13 pages). Lien externe

Golshan, S., Munch, P., Gassmöller, R., Kronbichler, M., & Blais, B. (2022). Lethe-DEM: an open-source parallel discrete element solver with load balancing. Computational Particle Mechanics, 10(1), 77-96. Lien externe

Golshan, S., Patience, G. S., Zarghami, R., Chaouki, J., & Blais, B. (2022). Experimental methods in chemical engineering: Optical fibre probes in multiphase systems. Canadian Journal of Chemical Engineering, 100(10), 2762-2777. Lien externe

Golshan, S., Shams, A., Rabiee, R., Jafari, R., Chaouki, J., & Blais, B. (2022). A correlation for average droplet diameter in rotating packed beds. Canadian Journal of Chemical Engineering, 101(1), 160-171. Lien externe

Pahija, E., Golshan, S., Blais, B., & Boffito, D. C. (2022). Perspectives on the Process Intensification of CO2 Capture and Utilization. Chemical Engineering and Processing - Process Intensification, 176, 8 pages. Lien externe

Rabiee, R., Monzavi, M., Shabanian, J., Shams, A., Golshan, S., Jafari, R., Blais, B., & Chaouki, J. (2022). Two-Phase flow characterization of a rotating packed bed through CFD simulation in OpenFOAM. Chemical Engineering Science, 253, 117589 (14 pages). Lien externe

Sadeghi, H., Diosady, L., & Blais, B. (2022). A computational fluid dynamics study on rimming flow in a rotating cylinder. Physics of Fluids, 34(6), 14 pages. Lien externe

Département de génie mécanique

Barbeau, L., Étienne, S., Béguin, C., & Blais, B. (2022). Development of a high-order continuous Galerkin sharp-interface immersed boundary method and its application to incompressible flow problems. Computers & Fluids, 239, 13 pages. Lien externe

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