Putri MustikaWidartiningsih, Yuki Mori, Kazuya Takabatake, Chuan-Yu Wu, Kensuke Yokoi, Akira Yamaguchi, Mikio Sakai, Coarse graining DEM simulations of a powder die-filling system, Powder Technology, 371, 83-95 (2020).
Kensuke Yokoi, Mikito Furuichi, Mikio Sakai, An efficient multi-dimensional implementation of VSIAM3 and its applications to free surface flows, Physics of Fluids, 29, 121611 (2017).
Xi Deng, Ziyao Sun, Bin Xia, Kensuke Yokoi, Chungang Chen, Feng Xiao, A Non-oscillatory Multi-Moment Finite Volume Scheme with Boundary Gradient Switching, Journal of Scientific Computing, 72, 1146-1168 (2017).
Qijie Li, Syazana Omar, Xi Deng, Kensuke Yokoi, Constrained interpolation profile conservative semi-Lagrangian scheme based on third-order polynomial functions and essentially non-oscillatory (CIP-CSL3ENO) scheme, Communications in Computational Physics, 22, 765-788 (2017).
Mohammed Al-Mosallam, Kensuke Yokoi, Efficient implementation of volume/surface integrated average based multi-moment method, International Journal of Computational Methods, 14, 1750010 (2017).
Naoyuki Onodera, Takayuki Aoki, Kensuke Yokoi, A fully conservative high-order upwind multi-moment method using moments in both upwind and downwind cells, International Journal for Numerical Methods in Fluids, 82, 493 (2016).
Kensuke Yokoi, Ryo Onishi, Xiao-Long Deng, Mark Sussman, Density-Scaled Balanced Continuum Surface Force Model with a Level Set Based Curvature Interpolation Technique, International Journal of Computational Methods, 13, 1641004 (2016).
Kensuke Yokoi, A density-scaled continuum surface force model within a balanced force formulation, Journal of Computational Physics, 278, 221 (2014).
Kensuke Yokoi, A practical numerical framework for free surface flows based on CLSVOF method, multi-moment methods and density-scaled CSF model: Numerical simulations of droplet splashing, Journal of Computational Physics, 232, 252 (2013).
Kensuke Yokoi, Numerical studies of droplet splashing on a dry surface: triggering a splash with the dynamic contact angle, Soft Matter, 7, 5120 (2011).
Kensuke Yokoi, Numerical method for interaction among multi-particle, fluid and arbitrary shape structure, Journal of Scientific Computing, 46, 166 (2011).
Kensuke Yokoi, Damien Vadillo, John Hinch and Ian Hutchings, Numerical studies of the influence of the dynamic contact angle on a droplet impacting on a dry surface, Physics of Fluids, 21, 072102 (2009) [PDF of the published version].
Kensuke Yokoi, A variational approach to motion of triple junction of gas, liquid and solid, Computer Physics Communications, 180, 1145 (2009).
Kensuke Yokoi, A numerical method for free-surface flows and its application to droplet impact on a thin liquid layer, Journal of Scientific Computing, 35, 372 (2008).
Kensuke Yokoi, Efficient implementation of THINC scheme: a simple and practical smoothed VOF algorithm, Journal of Computational Physics, 226, 1985 (2007), [Source codes available].
Kensuke Yokoi, Numerical method for interaction between multi-particle and complex structures, Physical Review E, 72, 046713 (2005).
Kensuke Yokoi, Feng Xiao, Hao Liu, Kazuaki Fukasaku, Three dimensional numerical simulation of flows with complex geometries in a regular Cartesian grid and its application to blood flow in cerebral artery with multiple aneurysms, Journal of Computational Physics, 202, 1 (2005).
Kensuke Yokoi, Numerical method for complex moving boundary problems in a Cartesian fixed grid, Physical Review E, 65, 055701(R) (2002), Errata, 65, 069903(E) (2002).
Kensuke Yokoi and Feng Xiao, Mechanism of structure formation in circular hydraulic jumps: Numerical studies of strongly deformed free surface shallow flows, Physica D, 161, 202 (2002), Erratum, 165, 251 (2002).
Kensuke Yokoi and Feng Xiao, A Computational Model for Interfacial Flows and Its Application to Circular Hydraulic Jump Problems, CFD Journal, 10, 771 (2001).
Kensuke Yokoi and Feng Xiao, Relationships between a roller and a dynamic pressure distribution in circular hydraulic jumps,Physical Review E, 61, R1016 (2000).
Kensuke Yokoi and Feng Xiao, Numerical studies of hydraulic jump phenomena with largely deformed interfaces, Progress of Theoretical Physics Supplement 138, 708 (2000).
Kensuke Yokoi and Feng Xiao, A numerical study of the transition in the circular hydraulic jump, Physics Letter A, 257, 153 (1999).