18. Chalmers, H., Fang, X., and Tachie, M. F. 2023. Gap ratio effects on the coherent structures surrounding a near-wall square cylinder, International Journal of Heat and Fluid Flows, 100, 109114. DOI: 10.1016/j.ijheatfluidflow.2023.109114
17. Fang, X., Dow, K., Tachie, M. F., Malenchak, J. and Wang, S. 2023. Flow characteristics beneath ice blocks with smooth and rough undersurfaces, Journal of Hydraulic Engineering, 149(4), 04023005. DOI: 10.1061/jhend8.hyeng-13207
16. Fang, X., Tachie, M. F. and Dow, K. 2022. Turbulent separations beneath semi-submerged bluff bodies with smooth and rough undersurfaces, Journal of Fluid Mechanics, 947, A19. DOI: 10.1017/jfm.2022.661
15. Chalmers, H., Fang, X., Addai, S. and Tachie, M. F. 2022. The effects of wall roughness on the flow dynamics behind a near-wall square cylinder, Experiments in Fluids, 63, 123. DOI: 0.1007/s00348-022-03472-z
14. Addai, S., Fang, X., Mante, A. A., and Tachie, M. F. 2022. The wake dynamics behind a near-wall square cylinder, ASME Journal of Fluids Engineering, 144(5), 051305. DOI: 10.1115/1.4052675
13. Fang, X., Tachie, M. F., Bergstrom, D. J., Yang, Z. and Wang, B.-C. 2021. Three-dimensional structural characteristics of flow separation induced by a forward-facing step in a turbulent channel flow. Journal of Fluid Mechanics. 919, A24. DOI: 10.1017/jfm.2021.395
12. Kumahor, S., Fang, X., Tachie, M. F. 2021. The effects of upstream wall roughness on the spatio-temporal characteristics of flow separations induced by a forward-facing step. ASME Journal of Fluids Engineering. 143(7), 071301. DOI: 10.1115/1.4050206
11. Fang, X., Tachie M. F. and Bergstrom, D. J. 2021. Direct numerical simulation of turbulent flow separation induced by a forward-facing step. International Journal of Heat and Fluid Flow. 87, 108753. DOI: 10.1016/j.ijheatfluidflow.2020.108753
10. Chalmers, H., Fang, X., and Tachie, M. F. 2020. Streamwise aspect ratio effects on turbulent flow separations induced by forward-backward-facing steps. ASME Journal of Fluids Engineering, 143(2), 021305. DOI: 10.1115/1.4048686
9. Fang, X., and Tachie, M. F. 2020. Spatio-temporal dynamics of flow separation induced by a forward-facing step submerged in a thick turbulent boundary layer. Journal of Fluid Mechanics, 892, A40. DOI: 10.1017/jfm.2020.209
8. Fang, X., and Tachie, M. F. 2020. Tracking the flapping motion of flow separation using pointwise measurement, Physics of Fluids, 32, 035106. DOI: 10.1063/5.0002035
7. Fang, X., and Tachie, M. F. 2019. Flows over surface-mounted bluff bodies with different spanwise widths submerged in a deep turbulent boundary layer, Journal of Fluid Mechanics, 877, 717–758. DOI: 10.1017/jfm.2019.617
6. Fang, X., Wang, B.-C. and Bergstrom, D. J. 2019. Using vortex identifiers to build eddy-viscosity subgrid-scale models for large-eddy simulation, Physical Review Fluids, 4, 034606. DOI: 10.1103/PhysRevFluids.4.034606
5. Fang, X., and Tachie, M. F. 2019. On the unsteady characteristics of turbulent separations over a forward-backward-facing step, Journal of Fluid Mechanics, 863, 994–1030. DOI: 10.1017/jfm.2018.962
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4. Fang, X., and Wang, B.-C. 2018. On the turbulent heat transfer in a square duct subjected to spanwise system rotations, International Journal of Heat and Fluid Flow, 71, 220–230. DOI: 10.1016/j.ijheatfluidflow.2018.03.012
3. Fang, X., Yang, Z., Wang, B.-C., Tachie, M. F. and Bergstrom, D. J. 2017. Large eddy simulation of turbulent flow and structures in a square duct roughened with perpendicular and V-shaped ribs, Physics of Fluids, 29, 065110. DOI: 10.1063/1.4985715
2. Fang, X., Yang, Z., Wang, B.-C. and Bergstrom, D. J. 2017. Direct numerical simulation of turbulent flow in a spanwise rotating square duct at high rotation numbers, International Journal of Heat and Fluid Flow, 63, 88–98. DOI: 10.1016/j.ijheatfluidflow.2016.05.011
1. Fang, X., Yang, Z., Wang, B.-C., Tachie, M. F. and Bergstrom, D. J. 2015. Highly-disturbed turbulent flow in a square channel with V-shaped ribs on one wall, International Journal of Heat and Fluid Flow, 56, 182–197. DOI: 10.1016/j.ijheatfluidflow.2015.07.008