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Publications

Publications: Welcome

Book Chapters

  1. Huang, Z.H. and Lee, C.-H., 2018. Modelling of fluid-solid two-phase geophysical flows. In Advanced Computational Fluid Dynamics for Emerging Engineering Processes - Eulerian vs. Lagrangian (Editor: Albert Kim). IntechOpen. London. doi: 10.5772/intechopen.81449

Publications: About

Journal Articles

  1. Lee, C.-H., Chen, J.-Y., Lee, F.-S., Chang, L.-C., 2022. A combined O/U-tube oscillatory water tunnel for fluid flow and sediment transport studies : The hydrodynamics and genetic algorithm. Water 14,1767.

  2. Lee, C.-H., Chen, J.-Y., 2022. Multiphase simulations and experiments of subaqueous granular collapse on an inclined plane in densely packed conditions: Effects of particle size and initial concentration. Phys. Rev. Fluids7,044301.

  3. Lee, C.-H., Lo, P.H.-Y., Shi, H., Huang, Z., 2022. Numerical modeling of generation of landslide tsunamis: A review. J. Earthq. Tsunami16, 2241001.

  4. Lee, C.-H., Huang, Z.H., 2021. Effects of grain size on subaerial granular landslides and resulting impulse waves: experiment and multi phase flow simulation. Landslides 19, 137–153.

  5. Lee, C.-H., Kuan, Y.-H., 2021. Onset of submerged granular collapse in densely packed condition. Phys. Fluids 33, 121705.

  6. Lee, C.-H., 2021. Two-phase modelling of submarine granular flows with shear-induced volume change and pore-pressure feedback. J. Fluid Mech. 907, A31-1-A31-24.

  7. Tofany, N., Lee, C.-H., 2021. Multi-phase modelling of surf-zone sediment transport and bed evolution under plunging breakers. Eur. J. Mech. B/Fluids 89, 367–379.

  8. Lee, C.-H., Huang, Z.H., 2021. Multi-phase flow simulation of impulsive waves generated by a sub-aerial granular landslide on an erodible slope. Landslides 18,881–895.

  9. Tofany N., Low, Y.M., Lee, C.-H., and Chiew, Y.M., 2019. Two-phase flow simulation of scour beneath a vibrating pipeline during the tunnel erosion stage. Phys. Fluids 31, 113302.

  10. Lee, C.-H., 2019. Multi-phase flow modeling of submarine landslides: Transformation form hyperconcentrated flows into turbidity currents. Adv. Water. Resour.  131, 103383.

  11. Yu, M.L., and Lee, C.-H., 2019. Multi-phase-flow modeling of underwater landslides on an inclined plane and consequently generated waves. Adv. Water. Resour. 133, 103421.

  12. Lee, C.-H., 2019. Underwater collapse of a loosely packed granular column on an inclined plane: Effects of the Darcy number. AIP Adv. 9, 095046.

  13. Lee, C.-H., Xu, C., Huang, Z.H., 2019. A three-phase flow simulation of local scour caused by a submerged wall jet with a water-air interface. Adv. Water Resour. 129, 373-384.

  14. Lee, C.-H., Huang, Z.H., Yu, M.L., 2018. Collapse of submerged granular columns in loose packing: Experiment and two-phase flow simulation. Phys. Fluids 30, 123307.

  15. Lee, C.-H., Huang, Z.H., 2018. A two-phase flow model for submarine granular flows: With an application to collapse of deeply-submerged granular columns. Adv. Water Resour. 115, 286–300.

  16. Lee, C.-H., 2018. Rough boundary treatment method for the shear- stress transport k - ω model. Eng. Appl. Comput. Fluid Mech. 12, 261–269.

  17. Yu, M.L., Lee, C.-H., Huang, Z.H., 2018. Impulsive waves generated by the collapse of a submerged granular column: a three-phase flow simulation with an emphasis on the effects of initial packing condition. J. Earthq. Tsunami 12, 1–18. (Special Issue: 2017 South China Sea Tsunami Workshop)

  18. Yang, J., Low, Y.M., Lee, C.-H., Chiew, Y.M., 2018. Numerical simulation of scour around a submarine pipeline using computational fluid dynamics and discrete element method. Appl. Math. Model. 55, 400–416.

  19. Lee, C.-H., Low, Y.M, and Chiew, Y.M., 2016. Multi¬dimensional rheology-based two¬phase model for sediment transport and applications to sheet flow and pipeline scour. Phys. Fluids 28, 053305.

  20. Lee, C.-H., Huang, Z.H., and Chiew, Y.M., 2015. A three¬ dimensional continuum model incorporating static and kinetic effects for granular flows with applications to collapse of a two¬ dimensional granular column.  Phys. Fluids 27, 113303.

  21. Lee, C.-H., Huang, Z.H., and Chiew, Y.M., 2015. A multi¬scale turbulent dispersion model for dilute flows with suspended sediment. Adv. Water Resour. 79, 18¬34.

  22. Lee, C.-H., Huang, Z.H., and Chiew, Y.M., 2015. An extrapolation¬based boundary treatment for using the lattice Boltzmann method to simulate fluid-particle interaction near a wall. Eng. Appl. Comp. Fluid Mech. 9, 370¬381.

  23. Lee, C.-H. and Huang, C.J., 2012. Kinetic¬theory¬based model of dense granular flows down inclined planes. Phys. Fluids 24, 073303.

  24. Lee, C.-H. and Huang, C.J., 2010. Model of sheared granular material and application to surface¬driven granular flows under gravity. Phys. Fluids 22, 043307.

  25. Fang, C., and Lee, C.-H., 2008. Unsteady parallel flows of an elasto¬visco-hypoplastic fluid with oscillating boundary. Appl. Rheol. 18 , 5001.

  26. Fang, C. and Lee, C.-H., 2007. A unified evolution equation for the Cauchy stress tensor of an isotropic elasto¬visco¬plastic material II: Normal stress difference in a viscometric flow, and an unsteady flow with a moving boundary. Contin. Mech. & Thermodyn. 19, 441¬455.

  27. Lee, C.-H., Chen, C.H., and Huang, C.J., 2006. Interaction of water waves and a submerged flat plate. J. Coastal Ocean Eng. 6, 41¬62 (in Mandarin).

Publications: About

Research Projects

To see a world from a grain of sand: Development of new generation multi-phase sediment transport model and applications (5/5) (Columbus Program)

PI: Cheng-Hsien Lee

Sponsor: MOST [112-2636-E-110 -005]

Amount: NT$ 6,790,000

Duration: 02/2023-01/2024


To see a world from a grain of sand: Development of new generation multi-phase sediment transport model and applications (4/5) (Columbus Program)

PI: Cheng-Hsien Lee

Sponsor: MOST [111-2636-E-110 -006]

Amount: NT$ 7,193,000

Duration: 02/2022-01/2023


To see a world from a grain of sand: Development of new generation multi-phase sediment transport model and applications (3/5) (Columbus Program)

PI: Cheng-Hsien Lee

Sponsor: MOST [110-2636-E-110 -010]

Amount: NT$ 10,000,000

Duration: 02/2021-01/2022

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To see a world from a grain of sand: Development of new generation multi-phase sediment transport model and applications (2/5) (Columbus Program)

PI: Cheng-Hsien Lee

Sponsor: MOST [109-2636-E-110 -008]

Amount: NT$ 10,000,000

Duration: 02/2020-01/2021

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To see a world from a grain of sand: Development of new generation multi-phase sediment transport model and applications (1/5) (Columbus Program)

PI: Cheng-Hsien Lee

Sponsor: MOST [108-2636-E-032 -001]

Amount: NT$ 10,000,000

Duration: 02/2019-01/2020

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Underwater landslides and their generated waves

PI: Cheng-Hsien Lee

Sponsor: MOST [107-2221-E-032-018-MY3]

Amount: NT$ 2,368,000

Duration: 08/2018-07/2021


Numerical and experimental study of underwater landslides

PI: Cheng-Hsien Lee

Sponsor: MOST [106-2221-E-032-029]

Amount: NT$803,000

Duration: 08/2017-07/2018


Experimental study of underwater landslide and development of two-phase flow model

PI: Cheng-Hsien Lee

Sponsor: MOST [105-2221-E-032-030]

Amount: NT$ 875,000

Duration: 08/2016-07/2017

​​

Development of multi-dimensional numerical scour model

PI: Cheng-Hsien Lee

Sponsor: MOST [105-2221-E-032-030]

Amount: NT$ 628,000

Duration: 01/2016-10/2016

Publications: About
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