Steady-State Dynamics of Ganglia Populations During Immiscible Two-Phase Flows in Porous Micromodels: Effects of the Capillary Number and Flow Ratio on Effective Rheology and Size Distributions.

MLA

Anastasiou, A., et al. “Steady-State Dynamics of Ganglia Populations During Immiscible Two-Phase Flows in Porous Micromodels: Effects of the Capillary Number and Flow Ratio on Effective Rheology and Size Distributions.” Transport in Porous Media, vol. 151, no. 3, Feb. 2024, pp. 469–93. EBSCOhost, https://doi.org/10.1007/s11242-023-02041-0.

APA

Anastasiou, A., Zarikos, I., Yiotis, A., Talon, L., & Salin, D. (2024). Steady-State Dynamics of Ganglia Populations During Immiscible Two-Phase Flows in Porous Micromodels: Effects of the Capillary Number and Flow Ratio on Effective Rheology and Size Distributions. Transport in Porous Media, 151(3), 469–493. https://doi.org/10.1007/s11242-023-02041-0

Chicago

Anastasiou, A., I. Zarikos, A. Yiotis, L. Talon, and D. Salin. 2024. “Steady-State Dynamics of Ganglia Populations During Immiscible Two-Phase Flows in Porous Micromodels: Effects of the Capillary Number and Flow Ratio on Effective Rheology and Size Distributions.” Transport in Porous Media 151 (3): 469–93. doi:10.1007/s11242-023-02041-0.