Nordström, J., Collis, H., Nchupang, M. P., Mirjalili, S. (2024). Toward energy-stable multi-phase flow schemes. Proceedings of the 2024 CTR Summer Program, 305-315.
Long, D., Mukherjee, A., Salimi, S., Brown, L., Collis, H., Mirjalili, S., Jain, S. S., Brandt, L., and Schulze-Netzer, C. (2024). Diffuse-interface modeling of multiphase, multicomponent flows with phase change in the nondilute limit: application to melting and devolatilization of plastics. Proceedings of the 2024 CTR Summer Program, 339-348.
Huang, Z., Mirjalili, S., Khanwale, M. A., Jain, S. S., and Johnsen, E. (2024). Investigation of Phase-Field models in compressible multiphase flows in a unified high-order and bound-preserving framework. Proceedings of the 2024 CTR Summer Program, 327-337.
Macedo, M. S. S., Brener, B. P., Thompson, R. L., Zahtila, T., Mirjalili, S., Whitmore, M. P., and Iaccarino, G. (2024). Using autoencoders to enhance data-driven turbulence modeling in squircular geometries. Proceedings of the 2024 CTR Summer Program, 163-173.
Jain, S. S., and Mirjalili, S. (2024). Multiphase Flows group: overview. Proceedings of the 2024 CTR Summer Program, 281-282.
Khanwale, M. A., Mirjalili, S., Mani, A., DesJardins, P., and Lele, S. K. (2023). Discussion on benchmark data for simulations of compressible multiphase flows. Center for Turbulence Research Annual Research Briefs, 83-103.
Mirjalili, S., Khanwale, M. A., and Mani, A. (2022). Consistent modeling of scalar transport in multiphase flows using conservative phase field methods. Center for Turbulence Research Annual Research Briefs, 167-178.
Collis, H., Mirjalili, S., Jain, S. S., and Mani, A. (2022). Assessment of WENO and TENO schemes for the four-equation compressible two-phase flow model with regularization terms. Center for Turbulence Research Annual Research Briefs, 151-165.
Brown, R., Mirjalili, S., Khanwale, M. A., Ganapathysubramanian, B., and Mani, A. (2022). A generalized Navier boundary condition for modeling contact lines using second-order conservative phase-field methods. Center for Turbulence Research Annual Research Briefs, 193-201.
Jain, S. S. & Mirjalili, S. (2022). Multiphase and Particle-Laden Flows group: overview. Proceedings of the 2022 CTR Summer Program, 117-119.
Scapin, N., Shahmardi, A., Chan, W. H. R., Jain, S. S., Mirjalili, S., Pelanti, M., Brandt, L. (2022). A mass-conserving pressure-based method for two-phase flows with phase change. Proceedings of the 2022 CTR Summer Program, 195-204.
Chan, W. H. R., Hara, K., Wang, J., Jain, S. S., Mirjalili, S., and Boyd, I. D. (2022). Spectral analysis of multidimensional current-driven plasma instabilities and turbulence in hollow cathode plumes. Proceedings of the 2022 CTR Summer Program, 235-244.
Mirjalili, S., Taverniers, S., Collis, H., Behandish, M. & Mani, A. (2021). A localized artificial diffusivity approach inspired by TVD schemes and its consistent application to compressible flows. Center for Turbulence Research Annual Research Briefs, 169-182.
Mirjalili, S., & Chan, W. H. R. (2020). Linear stability of a thin fluid film interacting with its surrounding bulk fluid. Center for Turbulence Research Annual Research Briefs, 313-325.
Mirjalili, S., Jain, S. S., & Mani, A. (2020). Modeling heat and mass transfer across interfaces in two-phase flows using phase field methods. Center for Turbulence Research Annual Research Briefs, 327-340.
Balaji, A., Mirjalili, S., & Mani, A. (2019). On AC electrokinetics in the regime of high voltage and high ion diffusivity ratio, Center for Turbulence Research Annual Research Briefs, 333-346.
Mirjalili, S., Jain, S. S., & Dodd, M. (2017). Interface-capturing methods for two-phase flows: An overview and recent developments. Center for Turbulence Research Annual Research Briefs, 117-135.
Le Chenadec, V., Mirjalili, S., Mortazavi, M., & Mani, A. (2014). Feature identification algorithms for sharp-interface flows. Annual Research Briefs, Center for Turbulence Research, Stanford University, 59-67.