American Journal of Fluid Dynamics

American Journal of Fluid Dynamics is an open access, peer-reviewed scientific journal that publishes original articles, critical reviews, research notes, debate and short reports in all areas of Fluid Dynamics.

Xin Guo

Engineer, ASML US Inc, USA

Research Areas

Renewable energy; free-surface turbulence; turbulence boundary layer; drag reduction; flow-sediment interaction; multi-phase flow; stratified flow; wave-bottom interactions; stability analysis; turbulence mixing and transport; computational fluid dynamics; water waves and hydrodynamics; ocean optics; radiative transfer; data assimilation; high-performance parallel computing; algorithm development; atmosphere-ocean-wave interactions; Langmuir circulation

Publications: Journals

[1]  Guo, X.& Shen, L., Numerical study of the effect of surface wave on turbulence underneath.Part II.Eulerian and Lagrangian properties of turbulence kinetic energy, Journal of Fluid Mechanics. Vol.744, 250-272, 2014.
[2]  Guo, X.& Shen, L., Numerical study of the effect of surface wave on turbulence underneath.Part I.Mean flow and turbulence vorticity, Journal of Fluid Mechanics.Vol.733, 558–587, 2013.
[3]  Hu, Y., Guo, X., Lu, X., Liu, Y., Dalrymple, R.A., & Shen, L., Idealized numerical simulation of breaking water wave propagating over a viscous mud layer, Physics of Fluids, Vol.24, 112104, 2012.
[4]  Xu, Z., Guo, X., Shen, L., & Yue, D.K.Y.Radiative transfer in ocean turbulence and its effect on underwater light field, Journal of Geophysical Research, Vol.117, C00H18, 2012.
[5]  Guo, X.& Shen, L., Interaction of a deformable free surface with statistically-steady homogeneous turbulence, Journal of Fluid Mechanics, Vol.658, 33–62, 2010.
[6]  Liu, Y., Yang, D., Guo, X., & Shen, L., Numerical study of pressure forcing of wind on dynamically evolving water waves, Physics of Fluids, Vol.22, 041704, 2010.
[7]  Guo, X.& Shen, L., On the generation and maintenance of waves and turbulence in simulations of free-surface turbulence, Journal of Computational Physics, Vol.228(19), 7313–7332, 2009.

Publications: Conferences/Workshops/Symposiums

[1]  Calderer, A., Guo, X., Shen, L.& Sotiropoulos, F., Coupled fluid–structure interaction simulation of floating offshore wind turbines and waves: a large eddy simulation approach.The science of making torque from wind conference/Journal of Physics, 2014.
[2]  Guo, X., Xuan, A., & Shen, L., Numerical and theoretical investigations of wave effect on upperocean turbulence.Proceedings of the 30th Symposium on Naval Hydrodynamics, 2014.
[3]  Calderer, A., Guo, X., Shen, L.& Sotiropoulos, F., Fluid–structure interaction simulation of floating wind turbines interacting with complex, large-scale ocean waves.11th World Congress on Computational Mechanics, 2014.
[4]  Guo, X.& Shen, L., Simulation-based study of wave–turbulence interaction.Proceedings of the International Union of Theoretical and Applied Mechanics, 2012.
[5]  Hu, Y., Liu, Y., Guo, X., & Shen, L., Numerical study of wave breaking over a muddy seabed.Proceedings of the 6th international conference on Asian and Pacific coasts, 2011.
[6]  Liu, Y., Guo, X., Yang, D., & Shen, L., Numerical simulation of strong free-surface turbulence for mechanistic study.Proceedings of the 28th Symposium on Naval Hydrodynamics, California Institute of Technology, 2010.
[7]  Xie, S., Liu, Y., Yang, D., Guo, X.& Shen, L., Numerical simulation of wind-wave-structure interaction.Proceedings of the 28th Symposium on Naval Hydrodynamics, California Institute of Technology, 2010.
[8]  Guo, X., Yang, D., Liu, Y., & Shen, L., Mechanistic study of upper ocean turbulence interacting with surface waves.Proceedings of 29th International Conference on Ocean, Offshore and Arctic Engineering, 2010.
[9]  Liu, Y., Yang, D., Guo, X., & Shen, L., Multi-scale modeling of wind–wave interaction in the presence of offshore structures for renewable energy applications.Proceedings of 29th International Conference on Ocean, Offshore and Arctic Engineering, 2010.