業績リスト Achievements 須賀 教授

著書・総説等(Book Chapters/Review Articles)

  1. K. Suga, Recent developments in eddy viscosity modelling of turbulence, Toyota Central R&D Labs. R&D Review, vol.33(1988)39-52.
  2. 須賀一彦, RANSモデルによる工学問題への対応, 日本流体力学会数値流体力学部門Web会誌, vol.11(2003)73-80.
  3. 須賀一彦, シミュレーションによる液体微粒化現象の解明, シミュレーション, vol.27-1(2008.3)45-48.
  4. K. Suga, Chap.11 Thermal engineering in hybrid car systems, in “Thermal Engineering in Power Systems”, WIT Press (2008)373-391.
  5. 金田昌之,須賀一彦, PEFC流路内流動現象の解明と数学モデルの開発, 燃料電池, vol.9-2(2009.10)13-17.
  6. 須賀一彦,乱流工学ハンドブック(12.7節:熱流束輸送方程式モデル,12.8節:非線形モデル),笠木伸英 総編集, 朝倉書店, (2009.11)300-314.
  7. K. Suga, Chap.9: Analytical Wall-Functions of Turbulence for Complex Surface Flow Phenomena, in “Computational Fluid Dynamics and Heat Transfer Emerging Topics”, WIT Press Southampton, Boston (2010)331-380.
  8. K. Suga, Lattice Boltzmann Methods for Complex Micro Flows: Applicability and Limitations for Practical Applications, Fluid Dyn. Res., vol.45(2013.06)034501., doi: /10.1088/0169-5983/45/3/034501

英文学術雑誌論文(English Journal Papers)

  1. H.Aoki,T. Shinagawa, K. Suga, An experimental study of the local heat transfer characteristics in automotive louvered fins, Experimental Thermal and Fluid Science, vol.2, No.3(1989.7)293-300. doi:10.1016/0894-1777(89)90018-6
  2. K. Suga,H. Aoki, T. Shinagawa, Numerical analysis on two-dimensional flow and heat transfer of louvered fins using overlaid grids, JSME Int. J., Series II, vol.33, No.1(1990.2)122-127.
  3. K. Suga,H. Aoki, Numerical study on heat transfer and pressure drop in multilouvered fins, J. Enhanced Heat Transfer, vol.2, No.3(1995.8)231-238.
  4. T.J. Craft,B.E. Launder, K. Suga, Development and application of a cubic eddy-viscosity model of turbulence, Int.J. Heat Fluid Flow, vol.17-2(1996.4)108-115. doi:10.1016/0142-727X(95)00079-6
  5. T.J. Craft,B.E. Launder, K. Suga, Prediction of turbulent transitional phenomena with a nonlinear eddy-viscosity model, Int.J. Heat Fluid Flow, vol.18-1(1997.2)15-28. doi:10.1016/S0142-727X(96)00145-2
  6. K.Suga, K.Abe, Nonlinear eddy viscosity modelling for turbulence and heat transfer near wall and shear-free boundaries, Int.J. Heat Fluid Flow, vol.21-1(2000.2)37-48. doi:10.1016/S0142-727X(99)00060-0
  7. K.Abe, K.Suga, Toward the development of a Reynolds-averaged algebraic turbulent scalar-flux model, Int.J. Heat Fluid Flow, vol.22-1(2001.2)19-29. doi:10.1016/S0142-727X(00)00062-X
  8. K.Abe, K.Suga, Large eddy simulation of passive scalar in complex turbulence with flow impingement and flow separation, Heat Transfer Asian Res., vol.30-5(2001.7)402-418. DOI: 10.1002/htj.1027
  9. K.Suga, M.Nagaoka, N.Horinouchi, K.Abe, Y.Kondo, Application of a three equation cubic eddy viscosity model to 3-D turbulent flows by the unstructured grid method, Int.J. Heat Fluid Flow, vol.22-3(2001.6)259-271. doi:10.1016/S0142-727X(01)00088-1
  10. K. Suga, Predicting Turbulence and Heat Transfer in 3-D Curved Ducts by Near-Wall Second Moment Closures, Int.J. Heat Mass Transfer, vol.46-1(2003.1)161-173. doi:10.1016/S0017-9310(02)00249-1
  11. K.Suga, M.Nagaoka, N.Horinouchi, Application of a higher order GGDH heat flux model to three-dimensional turbulent U-bend duct heat transfer, ASME J. Heat Transfer, vol.125-1(2003.2)200-203. DOI: 10.1115/1.1532018
  12. Y.Pan,K.Suga, Capturing the pinch-off of liquid jets by the level set method, ASME J. Fluids Eng., vol.125-5(2003.9)922-927. DOI: 10.1115/1.1598986
  13. K. Suga, Evaluation of the analytical wall function model in a separating, reattaching and redeveloping turbulent boundary layer, Thermal Science & Engineering, vol.12(2004)13-14.
  14. K. Suga, Modeling the rapid part of the pressure-diffusion process in the Reynolds stress transport equation, ASME J. Fluids Eng., vol.126-4(2004.7)634-641. DOI: 10.1115/1.1779660
  15. K. Suga, Improvement of second moment closure for turbulent obstacle flow and heat transfer, Int.J. Heat Fluid Flow, vol.25-5(2004.10)776-784. doi:10.1016/j.ijheatfluidflow.2004.03.007
  16. F.-C.Li, Y.Kawaguchi, T.Segawa, K.Suga, Wave-turbulence interaction of a low-speed plane liquid wall-jet investigated by particle image velocimetry, Phys. Fluids, vol.17-8(2005.8)Art.No.082101. DOI: 10.1063/1.1941363
  17. Y.Pan, K.Suga, Numerical simulation of binary liquid droplet collision, Phys. Fluids, vol.17-8(2005.8)Art.No.082105. doi:10.1063/1.2009527
  18. F.-C.Li, Y.Kawaguchi, T.Segawa, K.Suga, Simultaneous measurement of turbulent velocity field and surface wave amplitude in the initial stage of an open-channel flow by PIV, Exp. Fluids, vol.39, No.6(2005.12)945-953. DOI:10.1007/s00348-005-0995-3
  19. Y. Pan, K.Suga, A numerical study on the breakup process of laminar liquid jets into a gas, Phys. Fluids, vol.18-5(2006.5)052101:1-11. doi:10.1063/1.2194936
  20. K.Suga, T.J.Craft, H.Iacovides, An analytical wall-function for turbulent flows and heat transfer over rough walls, Int.J. Heat Fluid Flow, vol.27-5(2006.10)852-866. doi:10.1016/j.ijheatfluidflow.2006.03.011
  21. K. Suga, A study toward improving accuracy of large scale industrial turbulent flow computations, Frontiers of Computational Science,Eds. Y. Kaneda, H. Kawamura, M. Sasai, Springer (2007.3)99-105. DOI: 10.1007/978-3-540-46375-7_10
  22. X.-D. Niu, S. Hyodo, T.Munekata, K. Suga, Kinetic lattice Boltzmann method for microscale gas flows:Issues on boundary condition, relaxation time, and regularization, Physical Review E, vol.76-3(2007.9)036711:1-8. DOI: 10.1103/PhysRevE.76.036711
  23. X.-D. Niu, T.Munekata, S.Hyodo, K. Suga, An investigation of water-gas transport process in the gas-diffusion-layer of a PEM fuel cell by a multiphase multiple-relaxation-time lattice Boltzmann model, J. Power Sources, vol.172-2(2007.10)542-552. doi: 10.1016/j.jpowsour.2007.05.081
  24. K. Suga, Computation of High Prandtl Number Turbulent Thermal Fields by the Analytical Wall-Function, Int. J. Heat Mass Transfer, vol.50 Nos.25,26(2007.12)4967-4974. doi: 10.1016/j.ijheatmasstransfer.2007.09.020
  25. K. Suga, S. Nishiguchi, Computation of turbulent flows over porous/fluid interfaces, Fluid Dyn. Res., vol.41(2009.2) 012401. doi: 10.1088/0169-5983/41/1/012401
  26. K.Suga, T.Tanaka, Y.Nishio, M.Murata, A boundary reconstruction scheme for lattice Boltzmann flow simulation in porous media, Prog. Compt. Fluid Dyn., vol.9,Nos.3/4/5(2009.4)201-207. DOI: 10.1504/PCFD.2009.024820
  27. X.-D. Niu, S.Hyodo, K. Suga, H. Yamaguchi, Lattice Boltzmann simulation of gas flow over micro-scale airfoils,, Computers & Fluids, vol.38(2009.7)1675-1681. doi: 10.1016/j.compfluid.2009.02.003
  28. K. Suga, Y. Nishio, Three dimensional microscopic flow simulation across the interface of a porous wall and clear fluid by the lattice Boltzmann method, The Open Transp. Phenom. J., vol.1(2009.9)35-44. doi: 10.2174/1877729500901010035
  29. K. Suga, Y. Matsumura, Y. Ashitaka, S. Tominaga, M. Kaneda, Effects of wall permeability on turbulence Int. J. Heat Fluid Flow, vol.31(2010). in press. doi: 10.1016/j.ijheatfluidflow.2010.02.023
  30. K. Suga, M. Kubo, Modeling turbulent high Schmidt number mass transfer across undeformable gas-liquid interfaces, Int. J. Heat Mass Transfer, vol.53, Nos.15-16 (2010.7) 2989-2995. doi: 10.1016/j.ijheatmasstransfer.2010.03.033
  31. K. Suga, S. Takenaka, T. Ito, M. Kaneda, Lattice Boltzmann flow simulation in a combined nanochannel, Advances in Applied Mathematics and Mechanics, vol.2, No.5 (2010.10)609-625. doi: 10.4208/aamm.10-10S06
  32. K. Suga, S. Takenaka, M. Kaneda, T. Ito, T. Kinjo, S. Hyodo, Evaluation of a lattice Boltzmann method in a complex nano-flow, Physical Review E, vol.82(2010.7) 016701. DOI: 10.1103/PhysRevE.82.016701
  33. K. Suga, T. Ito, Lattice Boltzmann flow models for micro/nano fluidics, CMES-Comp. Model. Eng. Sci., vol.63, No.3 (2010.9) 223-242.
  34. M Inagaki, M Nagaoka, N Horinouchi, K Suga, Large eddy simulation analysis of engine steady intake flows using a mixed-time-scale subgrid-scale model, Int. J. Engine Research, vol.11, No.3,(2010.6)229-241. DOI: 10.1243/14680874JER546
  35. M.Kaneda, Y.Matsushima, K.Suga, Magnetic convection inside polymer solution droplet on lyophobic surface, Numerical Hear Transfer, Part A, vol.59, No.2(2011.1)98-113. DOI: 10.1080/10407782.2011.540962
  36. K. Suga, S. Takenaka, T. Kinjo, S. Hyodo, Simulation of 3-D nano-mesh flows by a micro-flow LBM and its evaluation against the MD simulations, Prog. Comput. Fluid Dyn., vol.11,Nos.3/4(2011.6)139-148. DOI: 10.1504/PCFD.2011.041013
  37. K. Suga, M. Mori, M. Kaneda, Vortex structure of turbulence over permeable walls, Int. J. Heat Fluid Flow, vol.32,No.3(2011.6) 586-595. doi: 10.1016/j.ijheatfluidflow.2011.02.016
  38. K Suga, T. Ito, On the multiple-relaxation-time micro-flow lattice Boltzmann method for complex flows, CMES-Comp. Model. Eng. Sci., Vol. 75, No. 2(2011.9)pp. 141-172., doi: 10.3970/cmes.2011.075.141
  39. M. Mori, M. Kaneda, K. Suga, Quadrant analyses of separating and reattaching turbulence over rib-mounted porous walls, J. Physics: Conference Series, vol.318 (2011) 022015, doi: 10.1088/1742-6596/318/2/022015
  40. K. Tatsumi, Y. Takeda, K. Suga, K. Nakabe, Turbulence characteristics and mixing performances of viscoelastic fluid flow in a serpentine microchannel, J. Physics: Conference Series, vol.318 (2011) 092020, doi:10.1088/1742-6596/318/9/092020
  41. M. Kaneda, T. Ueda, K. Suga, Hybrid model of lattice Boltzmann and CLSVOF methods for immiscible two-fluid flow, Prog. Comput. Fluid Dyn., vol.13, Nos.3/4(2013.06), pp.152-161, DOI: 10.1504/PCFD.2013.053656
  42. K. Suga, S. Tominaga, M. Mori, M. Kaneda, Turbulence Characteristics in Flows over Solid and Porous Square Ribs Mounted on Porous Walls, Flow, Turb.Combust., vol.91(2013.07) 19-40, doi: 10.1007/s10494-013-9452-1
  43. K.Suga, Y. Ishibashi, Y. Kuwata, An analytical wall-function for recirculating and impinging turbulent heat transfer, Int. J. Heat Fluid Flow, vol.41(2013.06)45-54, doi: 10.1016/j.ijheatfluidflow.2013.02.002
  44. Y. Kuwata, K, Suga, Modelling Turbulence in Porous Media Based on the Second Moment Closure, Int. J. Heat Fluid Flow, vol.43(2013.10) 35-51, doi: 10.1016/j.ijheatfluidflow.2013.03.001
  45. W. Li, M. Kaneda, K. Suga, An implicit gas kinetic BGK scheme for high temperature equilibrium gas flows on unstructured meshes, Computers & Fluids vol.93(2014.4) 100-106, doi:10.1016/j.compfluid.2014.01.015
  46. K.Suga, W. Nishimura, T. Yamamoto, M. Kaneda, Measurements of serpentine channel flow characteristics for a proton exchange membrane fuel cell, Int. J. Hydrogen Energy vol.39(2014.4)5942-5954, doi:10.1016/j.ijhydene.2014.01.195
  47. K. Suga, Y. Kuwata, Turbulence over/inside porous surfaces and challenges to its modelling, J. Physics: Conference Series vol.530(2014.08)012004, 16pages, doi:10.1088/1742-6596/530/1/012004
  48. H. Yasuoka, T. Imae, M. Kaneda, K. Suga, Molecular dynamics simulation for flow characteristics in nano-channels and single walled carbon nanotubes, J. Physics: Conference Series vol.530(2014.08)012048, doi:10.1088/1742-6596/530/1/012048
  49. T. Iida, A. Taneo, M. Kaneda, K. Suga, PIV measurements of interface turbulence over hetero-porous media, J. Physics: Conference Series vol.530(2014.08)012058, doi:10.1088/1742-6596/530/1/012058
  50. Y. Kuwata, K. Suga, Y. Sakurai, Development and application of a multi-scale k-ε model for turbulent porous medium flows, Int. J. Heat Fluid Flow vol.49(2014.10)135-150, doi: 10.1016/j.ijheatfluidflow.2014.02.007
  51. R.S. Amano, H.Arakawa, K.Suga, Turbulent heat transfer in a two-pass cooling channel by several wall turbulence models, Int. J. Heat Mass Transfer vol.77 (2014.10)406-418, doi: 10.1016/j.ijheatmasstransfer.2014.04.066
  52. K. Suga, Y. Kuwata, On the budget terms of the double averaged turbulent stress transport equations in porous media, Procedia Eng. vol.79(2014.11) 3-8, doi: 10.1016/j.proeng.2014.06.302
  53. M. Kaneda, T. Haruna, K. Suga, Ghost-Fluid-based boundary treatment in Lattice Boltzmann Method and its Extension to Advancing Boundary, Applied Thermal Eng. vol.72(2014.11)126-134, doi: 10.1016/j.applthermaleng.2013.12.024
  54. Y. Kuwata, K. Suga, Anomaly of the lattice Boltzmann methods in three dimensional cylindrical flows, J. Comput. Phys. vol.280(2015.01)563-569, doi: 10.1016/j.jcp.2014.10.002
  55. Y. Kuwata, K. Suga, Progress in the extension of a second-moment closure for turbulent environmental flows, Int. J. Heat Fluid Flow vol.51(2015.02)268-284, doi: 10.1016/j.ijheatfluidflow.2014.10.011
  56. K. Suga, Y. Kuwata, K. Takashima, R. Chikasue, A D3Q27 multiple-relaxation-time lattice Boltzmann method for turbulent flows, Comp. Math. Appl. vol.69 (2015.03)518-529, doi: 10.1016/j.camwa.2015.01.010
  57. M. Kaneda, A. Tsuji, H. Ooka, K. Suga, Heat transfer enhancement by external magnetic field for paramagnetic laminar pipe flow, Int. J. Heat Mass Transfer vol.90 (2015.11) 388-395, doi: 10.1016/j.ijheatmasstransfer.2015.06.078
  58. M. Kaneda, H. Kano, K. Suga, Development of magneto-thermal lattice Boltzmann heat and fluid flow simulation, Heat Mass Transfer vol.51(2015.09) 1263-1275, doi: 10.1007/s00231-015-1498-2
  59. Y. Kuwata, K. Suga, Large Eddy Simulations of Pore-Scale Turbulent Flows in Porous Media by the Lattice Boltzmann Method, Int. J. Heat Fluid Flow vo.55(2015.10) 143-157, doi: 10.1016/j.ijheatfluidflow.2015.05.015
  60. Y. Kuwata, K. Suga, Porous medium modelling of turbulent heat transfer in square rod arrays with a multi-scale second moment closure, Spec. Top. Rev. Porous Med. vol.6(2)(2015.12) 173-184, doi: 10.1615/.2015012377
  61. H. Yasuoka, R. Takahama, M. Kaneda, K. Suga, Confinement Effects on Liquid Flow Characteristics in Carbon Nanotubes, Phys. Rev. E vol. 92 (2015.12.2) 063001, doi: 10.1103/PhysRevE.92.063001
  62. H. Yasuoka, T. Imae, M. Kaneda, K. Suga, Effect of the wall structure on nanochannel gas flow: A molecular dynamics study, J. Therm. Sci. Tech. vol.10(2) (2015.12.22) 15-00453, doi: 10.1299/jtst.2015jtst0027
  63. K. Suga, Understanding and modelling turbulence over and inside porous media, Flow Turb.Combust. vol.96(2016.04) 717-756 10.1007/s10494-015-9673-6
  64. Y. Kuwata, K. Suga, Imbalance-correction grid-refinement method for lattice Boltzmann flow simulations, J. Comput. Phys. vol.311(2016.04)348-362, doi: 10.1016/j.jcp.2016.02.008
  65. H. Yasuoka, M. Kaneda, K. Suga, Thermal Lattice Boltzmann Method for Complex Micro-Flows, Phys. Rev. E vol.94(2016.07)013102 10.1103/PhysRevE.00.003100
  66. Y. Kuwata, K. Suga, Lattice Boltzmann direct numerical simulation of interface turbulence over porous and rough walls, Int. J. Heat Fluid Flow vol.61 (2016.10) 145-157, doi: 10.1016/j.ijheatfluidflow.2016.03.006
  67. Y. Kuwata, K. Suga, Transport mechanism of interface turbulence over porous and rough walls, Flow Turb.Combust. vol.97 (2016.12) 1071-1093, doi: 10.1007/s10494-016-9759-9
  68. H. Yasuoka, M. Kaneda, K. Suga, Wall-adjacent velocity profiles of nano-scale gas flows, J. Stat. Phys. vol.165 (2016.12) 907-919, doi: 10.1007/s10955-016-1662-1
  69. M. Kaneda, A. Tsuji, K. Suga, Effect of magnetothermal force on heat and fluid flow of paramagnetic liquid flow inside a pipe, Applied Thermal Eng. vol.115 (2017.03) 1298-1305, doi:10.1016/j.applthermaleng.2016.11.186
  70. K. Suga, Y. Nakagawa, M. Kaneda, Spanwise turbulence structure over permeable walls, J. Fluid Mech. (2017) vol.822 (2017.07) 186-201 doi:10.1017/jfm.2017.278
  71. Y. Kuwata, K. Suga Direct numerical simulation of turbulence over anisotropic porous media J. Fluid Mech. vol.831 (2017.11) 41-71 doi:10.1017/jfm.2017.619
  72. K. Suga, R. Chikasue, Y. Kuwata Modelling turbulent and dispersion heat fluxes in turbulent porous medium flows using the resolved LES data Int. J. Heat Fluid Flow vol.68 (2017.12) 225-236 doi:10.1016/j.ijheatfluidflow.2017.08.005
  73. M. Kaneda, K. Suga Magnetothermal force on a heated or cooled pipe flow Int. J. Heat Fluid Flow vol. 69 (2018.2) 1-8 doi:10.1016/j.ijheatfluidflow.2017.10.010
  74. K. Suga, Y. Mori, R. Moritani, M. Kaneda Combined effects of molecular geometry and nanoconfinement on liquid flows through carbon nanotubes Phys. Rev. E vol. 97(2018.05) 053109 doi: 10.1103/PhysRevE.00.003100
  75. M. Kaneda, K. Suga Natural convection of air between parallel plates under strong magnetic field Int. J. Adv. Eng. Sci. Appl. Math. vol.10(2) (2018.07) 125-131 doi: 10.1007/s12572-018-0215-z
  76. K. Suga, Y. Okazaki, U. Ho, Y. Kuwata Anisotropic wall permeability effects on turbulent channel flows J. Fluid Mech. vol.855(2018.11) 983-1016 doi:10.1017/jfm.2018.666
  77. M. Kaneda, K. Nazato, H. Fujiwara, K. Wada, K.Suga Effect of magnetic field on natural convection inside a partially-heated vertical duct: Experimental study Int. J. Heat Mass Transfer vol. 132(2019.04) 1231-1238 doi:10.1016/j.ijheatmasstransfer.2018.12.056
  78. Y. Kuwata, K. Suga, Y. Kawaguchi An extension of second moment closure model for turbulent flows over macro rough walls Int. J. Heat Fluid Flow vol. 77 (2019. 06) 186-201 doi: 10.1016/j.ijheatfluidflow.2019.04.003
  79. K. Suga, T. Sakamoto, Y. Kuwata Algebraic non-equilibrium wall-stress modeling for large eddy simulation based on analytical integration of the thin boundary-layer equation Phys. Fluids vol.31 (2019.07) 075109 doi:10.1063/1.5099658
  80. Y. Kuwata, K. Suga Extensive investigation of the influence of wall permeability on turbulence Int. J. Heat Fluid Flow vol. 80 (2019.12) 108465 https://doi.org/10.1016/j.ijheatfluidflow.2019.108465
  81. Y. Nishiyama, Y. Kuwata, K. Suga Direct numerical simulation of turbulent heat transfer over fully resolved anisotropic porous structures Int. J. Heat Fluid Flow vol. 81 (2020.02) 108515 doi: 10.1016/j.ijheatfluidflow.2019.108515
  82. K. Suga, Y. Okazaki, Y. Kuwata Characteristics of turbulent square duct flows over porous media J. Fluid Mech. vol. 884 (2020.02) A7-1-A7-25 doi:10.1017/jfm.2019.914
  83. K. Wada, M. Kaneda, K. Suga Rayleigh-Benard convection of paramagnetic liquid under a magnetic field from permanent magnets Symmetry vol. 12 (2020.03) 341 doi :10.3390/sym12030341
  84. Y. Okazaki, A. Shimizu, Y. Kuwata, K. Suga Turbulence characteristics over k-type rib roughened porous walls Int. J. Heat Fluid Flow vol. 82 (2020.04) 108541 doi: 10.1016/j.ijheatfluidflow.2020.108541
  85. M. Kaneda, H. Fujiwara, K. Wada, K. Suga Natural convection of paramagnetic fluid along a vertical heated wall under a magnetic field from a single permanent magnet J. Magn. Magn. Mater. vol. 502 (2020.05) 166574 doi: 10.1016/j.jmmm.2020.166574
  86. K. Wada, H. Fujiwara, M. Kaneda, K. Suga Magnetothermal force effect on natural convection through a partially-heated vertical channel J. Therm. Sci. Tech. vol. 15 (2020.08) JTST0019 doi:10.1299/jtst.2020jtst0019
  87. Y. Kuwata, K. Tsuda, K. Suga Direct numerical simulation of turbulent conjugate heat transfer in a porous-walled duct flow J. Fluid Mech. vol. 904 (2020.12) A9-1-A9-28 doi:10.1017/jfm.2020.669
  88. S. Ando, M. Kaneda, K. Suga Permeability prediction of fibrous porous media by the lattice Boltzmann method with a fluid-structure boundary reconstruction scheme J. Ind. Textiles online (2020.12.10) doi:10.1177/1528083720978913
  89. Y. Kuwata, K. Suga Wall-modeled large eddy simulation of turbulent heat transfer by the lattice Boltzmann method J. Comput. Phys. vol. 433 (2021.05) 110186 doi: 10.1016/j.jcp.2021.110186
  90. Y. Okazaki, Y. Takase, Y. Kuwata, K. Suga Describing characteristic parameters of turbulence over two-dimensional porous roughness J. Therm. Sci. Tech. vol. 16 (2021.05) JTST0027 https://doi.org/10.1299/jtst.2021jtst0027
  91. M. Sugimoto, Y. Sawada, M. Kaneda, K. Suga Consistent evaporation formulation for the phase-field lattice Boltzmann method Phys. Rev. E. vol. 103 (2021.05) 053307 https://link.aps.org/doi/10.1103/PhysRevE.103.053307

邦文学術雑誌論文(Japanese Journal Papers)

  1. 鈴木健二郎,須賀一彦,押川祐士,李 忠求, 循環を伴う乱流に対する実験と数値解析, 日本機械学会論文集B編, vol.53,No.496(1987.12)3639-3647.
  2. 須賀一彦,青木博史,品川 勉, 重合格子によるルーバーフィンの二次元熱流体数値解析, 日本機械学会論文集B編, vol.55,No.509(1989.1)221-226.
  3. 須賀一彦,青木博史, 重合格子によるルーバーフィンの二次元熱流体数値解析(第2報,フィン諸元の影響) , 日本機械学会論文集B編, vol.56, No.531(1990.11)3279-3283.
  4. 須賀一彦, 応力フラットネス・パラメータの輸送方程式を考慮した非線形k-ε-A三方程式乱流モデルの開発, 日本機械学会論文集B編, vol.64, No.617(1998.6)57-64.
  5. 安倍賢一,須賀一彦, LESデータに基づくこう配拡散型乱流熱流束モデルの高精度化の検討, 日本機械学会論文集B編, vol.64, No.623(1998.7)2208-2215.
  6. 須賀一彦,安倍賢一, レイノルズ応力の高次項を導入したこう配拡散形代数乱流熱流束モデルの提案, 日本機械学会論文集B編, vol.64, No.624(1998.8)2570-2577.
  7. 須賀一彦, 低レイノルズ数乱流モデルの壁乱流における計算格子依存性, 日本機械学会論文集B編, vol.64, No.626(1998.10)3315-3322.
  8. 安倍賢一,須賀一彦, 衝突や循環を伴う複雑乱流場における強制対流熱伝達のLES, 日本機械学会論文集B編, vol.65, No.632(1999.4)1395-1402.
  9. 須賀一彦,永岡 真,堀之内成明, 三次非線型渦粘性モデルによる三次元U字管内乱流熱伝達の解析, 日本機械学会論文集B編, vol.68, No.666(2002.2)495-503.
  10. 須賀一彦, TCLレイノルズ応力方程式モデルと高次GGDH熱流束モデルによる乱流熱伝達解析, 日本機械学会論文集B編, vol.68, No.668(2002.4)1206-1213.
  11. 永岡 真,須賀一彦,堀之内成明, エンジン定常吸気流における非線型乱流モデルの検証, 日本機械学会論文集B編, vol.68, No.669(2002.5)1586-1592.
  12. 須賀一彦, 低Re応力方程式モデルの三次元U字管内乱流熱伝達場での性能, 日本機械学会論文集B編, vol.68, No.675(2002.11)3093-3100.
  13. 須賀一彦,潘 宇, レベルセット法による層流液滴噴流の数値解析, 日本機械学会論文集B編, vol.69, No.682(2003.6)1321-1326.
  14. 須賀一彦, レイノルズ応力方程式の圧力拡散項のモデリング, 日本機械学会論文集B編, vol.70, No.697(2004.9)2386-2393.
  15. 須賀一彦, 改良レイノルズ応力方程式モデルによる障害物流れの乱流熱流れ解析, 日本機械学会論文集B編, vol.70, No.697(2004.9)2394-2401.
  16. 須賀一彦,T.J. Craft,H. Iacovides, 汎用的な解析的壁関数モデル(第1報,滑面~粗面乱流に対応した流れ場のモデル), 日本機械学会論文集B編, vol.71, No.711 (2005.11)2729-2737.
  17. 須賀一彦,T.J. Craft,H. Iacovides, 汎用的な解析的壁関数モデル(第2報,滑面~粗面乱流に対応した強制対流温度場のモデル), 日本機械学会論文集B編, vol.71. No.711(2005.11)2738-2744.
  18. 稲垣昌英,永岡真,堀之内成明,須賀一彦, 混合時間スケールSGSモデルを用いたエンジン定常吸気流のLES , 日本機械学会論文集B編, vol.73. No.725(2007.1)58-66.
  19. 須賀一彦,松村康弘,芦高優,富永聡,金田昌之, 透過性壁面近傍における乱流構造の実験的解明, 日本機械学会論文集B編, vol.75, No.760(2009.12)2455-2463.
  20. 竹中奨,金田昌之,須賀一彦,金城友之,兵頭志明, LBMによるナノチャネル内流動解析, 日本機械学会論文集B編, vol.76, No.770(2010.10)1525-1533.
  21. 竹中奨,金田昌之,須賀一彦,金城友之,兵頭志明, 三次元ナノ多孔体内流れのLBM解析, 日本機械学会論文集B編, vol.76, No.772(2010.12)2032-2038.
  22. 富永聡,森基泰,金田昌之, 須賀一彦, 透過性壁面上におけるはく離・再付着乱流の実験的研究(透過率の平均流動場への影響), 日本機械学会論文集B編, vol.77, No. 778(2011.06)1325-1334.
  23. 桑田祐丞,須賀一彦, 正方形角柱群内乱流のLESによる体積平均乱流輸送方程式の考察, 日本機械学会論文集B編, vol.79, No.805(2013.09) 1752-1763.
  24. 須賀一彦, RANS乱流解析のための解析的壁関数モデルの進展 ながれ vol.35-3(2016.06)247-254.
  25. 須賀一彦,桑田祐丞, 格子ボルツマン法による乱流の数値解析 伝熱 J. HTSJ vol.55(2016.10) 14-21.
  26. 杉本真,金田昌之,須賀一彦 Phase-field LBMによる等方多孔体への微小液滴浸潤数値解析 日本機械学会論文集 vol. 86, No.883(2020.03) 20-00014.
  27. 須賀一彦 多孔体界面乱流のスケーリング 伝熱 J. HTSJ vol.59(2020.07)21-26.
  28. 名倉梨花,桑田祐丞,須賀一彦 半球粗さ群が乱流熱流動場に与える影響の直接数値解析 日本機械学会論文集 vol.86, No.891(2020.11) 20-00289.

査読付国際会議論文(International Conference Papers, refereed)

  1. K. Suzuki, K. Suga, Y. Oshikawa, C.G. Lee, LDV measurement of turbulence and test of turbulence models in a recirculating flow, Proc. 6th Symp. on Turbulent Shear Flows, Toulouse, France, (1987.8)15.4.1-15.4.6.
  2. H.Aoki, T. Shinagawa, K. Suga, An experimental study of the local heat transfer coefficients in automotive louvered fins, Proc.Exp. Heat Transf., Fluid Mech. & Thermodynamics, Dubrovnik, Yougoslavia, (1988.9)1386-1392.
  3. K. Suga,H. Aoki, Numerical study on heat transfer and pressure drop in multilouvered fins, Proc.3rd ASME/JSME Thermal Engrg. Joint Conf., Reno, USA, vol.4(1991.3) 361-368.
  4. T.J. Craft,B.E. Launder, K. Suga, Extending the applicability of eddy viscosity models through the use of deformation invariants and non-linear elements, Proc. 5th Int. Symp. Refined Flow Modelling and Turbulence Measurements, Paris, France, (1993) 125-132.
  5. J.R. Cho, T.J. Craft, B.E. Launder, K.Suga, Development of turbulence models for transition prediction, ERCOFTAC Bulletin, vol.24(1995)26-30.
  6. T.J. Craft,B.E. Launder, K. Suga, A non-linear eddy-viscosity model including sensitivity to stress anisotropy, Proc.10th Symp. on Turbulent Shear Flows, Penn. State Univ., USA, vol. 3(1995) 23.19-23.24.
  7. T.J. Craft,B.E. Launder, K. Suga, Progress in modelling of heat transfer in diffusion-controlled transition, Proc. Int. Conf. on Turbulent Heat Transfer, San Diego, USA, (1996) VII-5.
  8. K.Suga, Nonliner eddy viscosity modelling with a transport equation for Lumley’s stress flatness parameter, Proc. 11th Symp. on Turbulent Shear Flows, Grenoble, France, vol.2(1997)13.18-13.23.
  9. K.Suga, K.Abe, Algebraic scalar-flux modelling for turbulence with the aid of LES of turbulent heat transfer through a shear-free interface, Heat Transfer 1998, Proc. 11th Int. Heat Transf. Conf., Kyongju, Korea, vol.4 (1998.9)235-240.
  10. K.Abe, K.Suga, Large eddy simulation of passive scalar fields under several strain conditions, Proc. 2nd Int. Conf. on Turbulent Heat Transfer, Manchester, UK, (1998) 8.15.
  11. K.Suga, M.Nagaoka, N.Horinouchi, K.Abe, Y.Kondo, Application of a three equation cubic eddy viscosity model to 3-D turbulent flows by the unstructured grid method, Proc. 3rd Int. Conf. on Turbulence, Heat and Mass Transfer, Nagoya, (2000) 373-380.
  12. K.Suga, M.Nagaoka, N.Horinouchi, Computation of turbulent heat transfer in a square sectioned U-bend duct with cubic eddy viscosity models, Proc. 4th JSME-KSME Thermal Eng. Conf., Kobe, (2000) 2-491-2-496.
  13. N.Horinouchi,K. Suga, M.Nagaoka, An adaptive mesh refinement method for 3D mixed element unstructured meshes, Proc. 7th Int. Conf. on Numerical Grid Generation in Computational Field Simulations, Whistler, Canada, (2000) 447-456.
  14. K.Suga, Application of a TCL second moment closure to turbulent duct flows, Proc. EF Conf. on Turbulent Heat Transfer III, Anchorage, USA, (2001) CD ROM.
  15. S.Akaike, H.Asano, K.Suga, Industrial application of a nonlinear eddy viscosity turbulent heat-flux model for designing a car air-conditioning system, Proc. EF Conf. on Turbulent Heat Transfer III, Anchorage, USA, (2001) CD ROM.
  16. Y.Pan, K.Suga, Numerical simulation of pinch-off jet process by the level set method, Proc. ilass Europe 2002, Zaragoza, Spain, (2002) 503-508.
  17. K. Suga, Modelling pressure-transport for turbulent wake flows, Proc. 3rd Int. Symp. on Turbulence and Shear Flow Phenomena, Sendai, vol.1 (2003) 269-274.
  18. Y.Pan, K.Suga, Simulation of liquid jet breakup by the level set method, Proc. 9th Int. Conf. Liquid Atomisation and Spray Systems, Sorrento, Italy, (2003) Paper 2-25, CD-ROM.
  19. K. Suga, Improvement of second moment closure for turbulent obstacle flow and heat transfer, Proc. 4th Int. Conf. on Turbulence, Heat and Mass Transfer, Antalya, Turkey, (2003) 593-600.
  20. F.-C.Li, Y.Kawaguchi, T.Segawa, K.Suga, Experimental study on surface wave and turbulence interaction in the initial stage of an open channel flow, Proc. 5th Int. Conf. on Multiphase Flow, Yokohama, (2004) CD ROM.
  21. Y.Pan, K.Suga, Direct simulation of water jet into air, Proc. 5th Int. Conf. on Multiphase Flow, Yokohama, (2004) CD ROM.
  22. Y.Pan, K.Suga, Numerical simulation of liquid droplet binary collision, Proc. 5th Int. Conf. on Multiphase Flow, Yokohama, (2004) CD ROM.
  23. F.-C.Li, Y.Kawaguchi, T.Segawa, K.Suga, Simultaneous measurement of turbulent velocity field and surface wave amplitude in the initial stage of an open channel flow by PIV, Proc. 12th Int. Symp. on Applications of Laser Tech. to Fluid Mechanics, Lisbon, Portugal, (2004) CD ROM.
  24. K.Suga, Y.Pan, A challenge for simulation of fuel injection flows, Proc. World Congress on Computational Mechanics WCCM VI, Beijing, China, (2004) CD ROM.
  25. K.Suga, T.J.Craft, H.Iacovides, Extending an analytical wall-function for turbulent flows over rough walls, Engineering Turbulence Modelling and Experiments, Proc. ETMM-6, Elsevier, vol.6(2005.5)157-166.
  26. K.Suga, T.J.Craft, H.Iacovides, An analytical wall-function for turbulent rough wall heat transfer, Proc. 4th Int. Symp. on Turbulence and Shear Flow Phenomena, Williamsburg, USA, vol.3 (2005) 1083-1088.
  27. Asano, Suga, Hirota, Nakayama, Asano, Hirayama, Numerical simulation of turbulent flow and thermal mixing in HVAC unit for automobile, Proc. 6th KSME-JSME Thermal & Fluids Engineering Conference, Jeju, Korea, (2005) CD ROM.
  28. Asano, Suga, Hirota, Nakayama, Hirayama, Mizuno, CFD analysis of turbulent thermal mixing of hot and cold air in automobile HVAC unit, Proc. 16th International Symposium on Transport Phenomena, Prague, Czech, (2005) CD ROM.
  29. Y. Pan, K. Suga, Large eddy simulation of turbulent liquid jets into air, Proc. 10th Int. Conf. Liquid Atomisation and Spray Systems, Kyoto, (2006.8) CD ROM, ICLASS06-219.
  30. K. Suga, Amendments to the extended analytical wall function for turbulent high Prandtl number flows, Proc. 5th Int. Conf. on Turbulence, Heat and Mass Transfer, Dubrovnik, Croatia, (2006.9) 393-396, full paper:CD ROM(12pages).
  31. M. Inagaki, M.Nagaoka, N.Horinouchi, K.Suga, LES analysis of engine steady intake flows using a mixed-time-scale SGS model, Proc. FEDSM07: 5th Joint ASME/JSME Fluids Eng. Conf., San Diego, U.S.A., (2007.7) CD ROM, FEDSM2007-37047 (10pages)(full paper reviewed).
  32. K.Suga, T.Tanaka, Y.Nishio, M.Murata, A boundary reconstruction scheme for lattice Boltzmann flow simulation in porous media, Proc. 1st Asian Symp. Comp. Heat Transfer & Fluid Flow, Xi’an, China, (2007.10) CD ROM ASCHT2007-010 (7pages)(full paper reviewed).
  33. K.Suga, S.Nishiguchi, Modeling turbulent flows over permeable walls, Proc. 7th Int. Symp. on Eng. Turbulence Modelling and Measurements, Limassol, Cyprus, (2008.6) vol.1/3, 77-82.
  34. K.Suga, Y.Nishio, Lattice Boltzmann flow simulation of porous medium-clear fluid interface regions, Proc. 19th Int. Symp. on Transp. Phenomena, Reykjavik, Iceland, (2008.8) CD ROM (7pages)(full paper reviewed).
  35. S.Takenaka, K.Suga, T.Kinjo, S. Hyodo, Flow simulations in a sub-micro porous medium by the lattice Boltzmann and the molecular dynamics methods, Proc. 7th Int. ASME conf. on Nanochannels, Microchannels and Minichannels, Pohang, South Korea (2009.6) CD ROM (10pages). (full paper reviewed)
  36. K. Suga, M.Kubo, Modeling high Schmidt number turbulent scalar transport across air-water interfaces, Proc. 6th Int. Symp. Turb. Shear Flow Phenomena, Seoul, South Korea, (2009.6.23) pp.545-550.
  37. K. Suga, Y. Matsumura, Y. Ashitaka, S. Tominaga, M. Kaneda, Effects of wall permeability on turbulence, Proc. 7th World Conf. Exp. Heat Transf. Fluid Mech. Thermodyn., Krakow, Poland (2009.7.2) CD ROM TUR-2, pp.2277-2284.(8pages). (full paper reviewed)
  38. K. Suga, Y. Matsumura, M. Kaneda, Structure of Turbulence near Porous Walls, Proc. 8th Int. Symp. PIV, Merbourne, Australia (2009.8) USB MEM (6pages)
  39. K. Suga, S. Nishiguchi, H. Asano, T. Kitada, Application of the combination of an analytical wall-function and a realizable two-component limit second moment closure to HVAC related complex turbulent flows, 14th International Conference on Fluid Flow Technologies: Conference on Modelling Fluid Flow, Budapest, Hungary (2009.9)pp.459-466. (full paper reviewed)
  40. K. Suga, S. Tominaga, M. Kaneda, An Experimental Study on Turbulence over Rib-Mounted Permeable Walls, Proc. 6th Int. Conf. on Turbulence, Heat and Mass Transfer, Rome, Italy (2009.9) CD ROM (10pages).
  41. K. Suga, S. Takenaka, T. Kinjo, S. Hyodo, LBM and MD simulation of a flow in a nano-porous medium, Proc.2nd Asian Symp. Comp. Heat Transfer and Fluid Flow,Jeju, South Korea (2009.10) vol.II, pp. 112-117. (full paper reviewed)
  42. K. Suga, M. Mori, M. Kaneda, Vortex structure of turbulence over permeable walls, Proc. 8th ERCOFTAC Symp. ETMM-8, Marseille, France (2010.6.9)
  43. K. Suga, S. Takenaka, T. Ito, M. Kaneda, T. Kinjo, S. Hyodo, Lattice Boltzmann flow simulation in micro-nano transitional porous media, 14th Int. Heat Transfer Conf., Washinton, DC, U.S.A.(2010.8) (full paper reviewed)
  44. S. Tominaga, M. Mori, M. Kaneda, K. Suga, PIV measurements of separating and reattaching flows over permeable walls, Proc. 21st Int. Symp. on Transp. Phenomena, Kaohsiung, Taiwan (2010.11)
  45. M. Kaneda, Y. Matsushima, K. Suga, Numerical Simulation For Heat And Fluid Flow Through Porous Media, Proc. ASME/JSME 2011 8th Thermal Eng. Joint Conf., Honolulu, Hawaii, U.S.A., (2011.3)CD ROM AJTEC2011-44278 (7pages)
  46. S. Tominaga, M. Mori, M. Kaneda, K. Suga, Flow characteristics in turbulent separating and reattaching flows over permeable walls, Proc. 7th Symp. Turb. Shear Flow Phenomena, Ottawa, Canada, (2011.7)USB MEM (6 pages)
  47. M. Mori, M. Kaneda, K. Suga, Quadrant analyses of separating and reattaching turbulence over rib-mounted porous walls, Proc. 13th European Turbulence Conference, Warsaw, Poland (2011.9)USB MEM (6 pages)
  48. K. Tatsumi, Y. Takeda, K. Suga, K. Nakabe, Turbulence characteristics and mixing performances of viscoelastic fluid flow in a serpentine microchannel, Proc. 13th European Turbulence Conference, Warsaw, Poland, (2011.9)USB MEM (10 pages)
  49. T. Ito, H. Yasuoka, M. Kaneda, K. Suga, A Multiple-relaxation-time Lattice Boltzmann Method for Three Dimensional Micro-scale Complex Flows, Proc. Asian Symposium on Computational Heat Transfer and Fluid Flow-2011, Kyoto, (2011.9)Paper#028, CD ROM (10 pages)
  50. T. Ueda, M. Kaneda, K. Suga, Two-Phase Flow Simulation by Lattice Boltzmann Method with Coupled Level Set Volume of Fluid Technique, Proc. Asian Symposium on Computational Heat Transfer and Fluid Flow-2011, Kyoto, (2011.9)Paper#096, CD ROM (7 pages)
  51. K. Suga, T. Ito, H. Yasuoka, M. Kaneda, Molecular dynamics simulation of slip-transitional flows in nano-channels, Proc. 50 th AIAA Aerospace Science Meeting, Nashville, USA, 2012, (2012.1) AIAA-2012-90-481. (8pages)
  52. M. Kaneda, K. Suga, Lattice Boltzmann Heat and Fluid Flow Simulation through Porous Media, Proc. 22nd International Symposium on Transport Phenomena, Delft, The Netherland, 2011, (2011.11) USB Mem. (10 pages)
  53. K. Suga, Y. Ishibashi, An analytical wall-function for recirculating and impinging turbulent heat transfer, Proc. 9th ERCOFTAC Symp. ETMM-9, Thessaloniki, Greece, (2012.6) USB 6pages
  54. Y. Kuwata, K. Suga, Second moment modelling of turbulence in porous media, Proc. 7th Int. Conf. on Turbulence, Heat and Mass Transfer, Palermo, Italy, (2012.9)pp.469-472
  55. H. Yasuoka, M. Kaneda, K. Suga, On the velocity scaling of nano-channel flows, Proc. JSME-CMD Int. Comput. Mechanics Symp, 2012, Kobe, Japan, (2012.10.10) USB, MS7-4-3(91)pp.1-2
  56. K. Takashima, M. Kanneda, K. Suga, Large eddy simulation of complex internal turbulent flows by the MRT-LBM, Proc. JSME-CMD Int. Comput. Mechanics Symp, 2012, Kobe, Japan, (2012.10.10) USB, MS6-3-3(88)pp.1-2
  57. Y. Kuwata, K. Suga, LES of turbulence in porous media by the MRT lattice Boltzmann method, Proc. JSME-CMD Int. Comput. Mechanics Symp, 2012, Kobe, Japan, (2012.10.10) USB, MS6-3-4(89) pp.1-2
  58. M. Kaneda, K. Suga, Magneto-thermal Convection in a Partially-heated Horizontal Pipe Flow, Proc. 23nd International Symposium on Transport Phenomena, Auckland, New Zealand, 2012, (2012.11.21)USB, paper#192
  59. W. Li, M. Kaneda, K. Suga, A Stable, Low Diffusion Up-wind Scheme for Unstructured Finite Volume Lattice Boltzmann Method, Proc. Asian Symp. On Comput. Heat Transfer and Fluid Flow- 2013, Hong Kong, SAR China (2013.6)ASCHT0033-T01-2-P, CD ROM, 10p
  60. W. Li, M. Kaneda, K. Suga, LES and RANS of Turbulence for a Micro-water Turbine Design, Proc. Asian Symp. On Comput. Heat Transfer and Fluid Flow- 2013, Hong Kong, SAR China, (2013.6)ASCHT0033-T01-5-P,CD ROM, 7p
  61. H. Yasuoka, M. Kaneda, K. Suga, MD Simulation of Near Wall Force Effects in Nano-Channel Flows, Proc. Asian Symp. On Comput. Heat Transfer and Fluid Flow- 2013, Hong Kong, SAR China, (2013.6)ASCHT0030-T04-1-P, CD ROM,8p
  62. T. Haruna, M. Kaneda, K. Suga, Ghost-Fluid Boundary Treatment in Lattice Boltzmann Method for Moving Boundary, Proc. Asian Symp. On Comput. Heat Transfer and Fluid Flow- 2013, Hong Kong, SAR China, (2013.6)ASCHT0061-T06-1-P,CD ROM,8p
  63. M.Kaneda, H. Kanoh, K. Suga, Magnetic Convection of Paramagnetic Fluid by Lattice Boltzmann Method, Proc. Asian Symp. On Comput. Heat Transfer and Fluid Flow- 2013, Hong Kong, SAR China, (2013.6)ASCHT0062-T01-1-P,CD ROM, 7p
  64. K.Suga, W. Nishimura, T. Yamamoto, M. Kaneda, An experimental study on flows in serpentine channels over porous media, Proc. 8th World Conf. Exp. Heat Transf. Fluid Mech. Thermodyn., 2013, Lisbon, Portugal, (2013.6) #6e.1, USB,6p
  65. Y. Kuwata, K. Suga, Multi-scale k-ε modelling of turbulence for porous medium flows, Proc. 8th Symp. Turbulent Shear Flow Phenomena, 2013, Poitiers, France, (2013.8) microSD, 6p
  66. Y. Kuwata, K. Suga, An analysis on budget terms of the volume averaged Reynolds stress transport equation for flows in porous media, Proc. 14th European Turbulence Conference, 2013 Lyon, France, (2013.9)USB, 2p
  67. Y. Nakagawa, M. Kaneda, K. Suga, Spanwise Measurements Of Turbulence Structure Over Permeable Walls, Proc. 14th European Turbulence Conference, 2013 Lyon, France, (2013.9)USB, 2p
  68. K. Suga, Y. Kuwata, On the budget terms of the double averaged turbulent stress transport equations in porous media, Proc. 1st Int. Conf. on Mechanics, 2013, Hsinchu, Taiwan (2013.11)USB,5p
  69. K. Suga, Y. Kuwata, Turbulence over/inside porous surfaces and challenges to its modelling, Proc. XXI Fluid Mechanics Conference, 2014 Krakow Poland (2014.6) KL-4,16p
  70. H. Yasuoka, T. Imae, M. Kaneda, K. Suga, Molecular dynamics simulation for flow characteristics in nano-channels and single walled carbon nanotubes, Proc. XXI Fluid Mechanics Conference, 2014 Krakow Poland (2014.6)NANO-2, 7p
  71. T. Iida, A. Taneo, M. Kaneda, K. Suga, PIV measurements of interface turbulence over hetero-porous media, Proc. XXI Fluid Mechanics Conference, 2014 Krakow Poland (2014.6) TURB-3, 7p
  72. Y. Kuwata, Y. Sakurai, K. Suga, Multi-scale second moment modelling of turbulence and heat transfer in porous media, Proc. Int. Heat Transfer Conf. 15, Kyoto (2014.8)#8416, 14p
  73. H. Yasuoka, T. Imae, M. Kaneda, K. Suga, Effects of wall structures on nano-channel flows, Proc. Int. Heat Transfer Conf. 15, Kyoto (2014.8.12)#9130
  74. Y. Kuwata, K. Suga, Large Eddy Simulation of Turbulence in Porous Media, Proc. 10th Int. ERCOFTAC Symp. Engineering Turbulence Modelling and Measurements, Marbella, Spain (2014.9) S18.1, 8p
  75. H. Arakawa, K. Suga, Numerical Analysis of a 3D Turbulent Serpentine Channel Flow over Permeable Walls, Proc. 10th Int. ERCOFTAC Symp. Engineering Turbulence Modelling and Measurements, Marbella, Spain (2014.9) S2.3
  76. Y. Sakurai, Y. Kuwata, K. Suga, Lattice Boltzmann LES of Conjugate Turbulent Heat Transfer in Square Rod Arrays, Proc. 10th Int. ERCOFTAC Symp. Engineering Turbulence Modelling and Measurements, Marbella, Spain (2014.9) S20.4
  77. Y. Kuwata, Y. Sakurai, K. Suga, Large eddy simulation of turbulent heat transfer in square rod array flows by the lattice Boltzmann method, Proc. ASCHT2015, Busan, Korea (2015.11)ASCHT15-Tue03-002
  78. H. Ysuoka, T. Tamagawa , M. Kaneda, K. Suga, Development of a lattice Boltzmann method for thermal fields in microscopic complex flows, Proc. ASCHT2015, Busan, Korea (2015.11)ASCHT15-Tue07-007
  79. M. Kaneda, A. Tsuji, K. Suga, Effect of magnetic field on heat and fluid flow through heated pipe, Proc. ASCHT2015, Busan, Korea (2015.11)ASCHT15-Mon02-003
  80. Y. Kuwata, K. Suga, DNS of a fully developed turbulent porous channel flow by the lattice Boltzmann method, Proc. 9th Symp. Turbulence and Shear Flow Phenomena, Melbourne, Australia (2015.07)
  81. Y. Kuwata, K. Suga, Turbulent transport in the interface region of porous layer, Turbulence, Heat and Mass Transfer 8 (2015.09)183-186
  82. Y. Kuwata, K. Suga, Improvement of the zonal grid refinement scheme for the lattice Boltzmann method, Proc. 1st Pacific Rim Thermal Eng. Conf., Hawaii, USA (2016.3) PRTEC-14534
  83. A. Ohori, M. Kaneda, K. Suga, Improvement of boundary reconstruction scheme for lattice Boltzmann fluid flow computation, Proc. 1st Pacific Rim Thermal Eng. Conf., Hawaii, USA (2016.3) PRTEC-14909
  84. T. Takahama, H. Yasuoka, M. Kaneda, K. Suga, An investigation on liquid flow characteristics in carbon nanotubes, Proc. 1st Pacific Rim Thermal Eng. Conf., Hawaii, USA (2016.3) PRTEC-14568
  85. Y. Kuwata, K. Suga, Resolved large eddy simulation of turbulence over anisotropic porous media, Proc. 11th Int. ERCOFTAC Symp. Engineering Turbulence Modelling and Measurements, Palermo, Italy (2016.9)
  86. R. Chikasue, Y. Kuwata, K. Suga, LES of turbulent conjugate heat transfer in porous media, Proc. 11th Int. ERCOFTAC Symp. Engineering Turbulence Modelling and Measurements, Palermo, Italy (2016.9)
  87. Masayuki Kaneda, Kazuhiko Suga, Magnetothermal Convection on a Heated/Cooled Pipe Flow of Paramagnetic Fluid, Proc. the Fourth International Forum on Heat Transfer, Sendai, Japan (2016.11)
  88. Masayuki Kaneda, Kazuhiko Suga, Discussion of gas velocity profile in the vicinity of nanochannel wall, Proc. 1st Asian Conf. on Thermal Sciences, Jeju, Korea (2017.3)ACTS-P00299
  89. K. Suga, Y. Kuwata, A lattice Boltzmann method for turbulent flow simulation, Proc. WORKSHOP Direct and Large-Eddy Simulation 11, Pisa, Italy (2017.5)
  90. K. Suga, U. Ho, S. Nakamura, M. Kaneda, A general correlation parameter for turbulent flows over isotropic and anisotropic porous media, Proc. 9th World Conference on Experimental Heat Transfer, Fluid Mechanics and Thermodynamics, Iguazu Falls, Brazil (2017.6)
  91. K. Suga, Y. Nakagawa, M. Kaneda, Spanwise vortex structure over porous walls in turbulent channel flows, Proc. 10th Int. Symp. Turbulence and Shear Flow Phenomena, Chicago, U.S.A. (2017.7)
  92. T. Matsuo, R. Okabe, M. Kaneda, K. Suga Effect of anisotropic permeability on turbulent flows under porous interfaces Proc. 16th European Turbulence Conference, Stockholm, Sweden (2017.8)1p
  93. H. Fujiwara, M. Kaneda, K. Suga Effect of the Magnetothermal Force on the Natural Convection Heat Transfer from a Vertical Plate Proc. 9th JSME-KSME Thermal and Fluids Eng. Conference, Okinawa, Japan (2017.10.29)5p
  94. Y. Nishiyama, Y. Kuwata, K. Suga Lattice Boltzmann turbulent heat transfer LES of flows over porous interfaces Proc. ASCHT2017, Chennai, India Paper No.73(2017.12)8p
  95. Y. Mori, R. Moritani, M. Kaneda, K. Suga MD simulation of liquid oxygen flows in carbon nanotubes Proc. ASCHT2017, Chennai, India Paper No.52(2017.12)8p
  96. M. Kaneda, K. Suga Effect of magnet layout on magnetothermal convection Proc. ASCHT2017, Chennai, India Paper No.42 (2017.12)6p
  97. Y. Okazaki, Y. Kuwata, M. Kaneda, K. Suga Turbulent transport over anisotropic porous media Proc. IHTC16, Beijing, China IHTC16-21817 (2018.8.14)8p
  98. Y. Kuwata and K. Suga Second moment modelling of conjugate turbulent heat transfer in porous media Proc. IHTC16, Beijing, China IHTC16-22401 (2018.8.14)8p
  99. M. Kaneda, K. Suga Magnetothermal convection of paramagnetic fluid inside open-cell porous media under gravity field Proc. IHTC16, Beijing, China IHTC16-21817 (2018.8.15)7p
  100. Y. Nishiyama, Y. Kuwata and K. Suga Direct numerical simulation of turbulent heat transfer over anisotropic porous media Turbulence, Heat and Mass Transfer 9, Rio de Janeiro, Brazil (2018.7.10-13)pp.217-220
  101. Y. Kuwata, K. Suga and Y. Kawaguchi Macroscopic Modelling of RoughWall Turbulence Based on the Second Moment Closure Turbulence, Heat and Mass Transfer 9, Rio de Janeiro, Brazil (2018.7.10-13)pp.259-262
  102. Y. Okazaki, Y. Kuwata and K. Suga Comparison of turbulence over porous media with and without structural surface roughness Proc. 12th Int. ERCOFTAC Symp. Engineering Turbulence Modelling and Measurements, Montpelier, France (2018.9.26-28)6p
  103. Y. Kuwata and K. Suga Extensive investigation of the influence of wall-permeability on turbulent porous channel flows Proc. 12th Int. ERCOFTAC Symp. Engineering Turbulence Modelling and Measurements, Montpelier, France (2018.9.26-28)6p
  104. T. Sakamoto, Y. Kuwata and K. Suga A study on wall-modeled large eddy simulations by the analytical wall function Proc. The 29th International Symposium on Transport Phenomena (ISTP29) 30 October – 2 November, 2018, Honolulu, USA (2018.10.30-11.2)8p
  105. M. Sugimoto, T. Higa, M. Kaneda and K. Suga “Numerical simulation of falling droplet onto porous media by the conservative Allen-Cahn based phase-field LBM Proc. The 29th International Symposium on Transport Phenomena (ISTP29) 30 October – 2 November, 2018, Honolulu, USA” (2018.10.30-11.2)7p
  106. S. Saric, B. Basara, K. Suga, S. Gomboc Analytical wall-function strategy for the modelling of turbulent heat transfer in the automotive CFD applications WCX World Congress Experience-SAE International, Detroit, April 2019 SAE Technical Paper 2019-01-0206 (2019.04)5p
  107. Y. Nishiyama, Y. Kuwata, K. Suga Direct numerical simulation of porous-walled channel flows with k‐type structural roughness Proc. Direct and Large-Eddy Simulation 12, June 5-7, 2019, Madrid, Spain (2019.06)2p
  108. S. Nishimura, K. Hayashi, S. Nakaye, M. Yoshimoto, K. Suga, T. Inamuro Implicit Large-Eddy Simulation of rotating and non-rotating machinery with Cumulant Lattice Boltzmann method aiming for industrial applications 2019 AIAA Aviation and Aeronautics Forum and Exposition (AIAA AVIATION 2019) 17 June – 21 June, 2019, Dallas, Texas U.S.A. (2019.06)16p
  109. K. Suga, Y. Okazaki, T. Matsuo, A. Taneo and Y. Kuwata Measurement of turbulent square duct flows over anisotropic porous media Proc. 11th International Symposium on Turbulence and Shear Flow Phenomena (TSFP11), Southampton, UK, July 30-August 2, 2019 (2019.07)6p
  110. Y. Kuwata, K. Tsuda and K. Suga Direct numerical simulation of conjugate turbulent heat transfer in porous square duct Proc. 11th International Symposium on Turbulence and Shear Flow Phenomena (TSFP11), Southampton, UK, July 30-August 2, 2020 (2019.07)7p
  111. Y. Okazaki, A. Shimizu, Y. Kuwata, K. Suga Structural effect on turbulent drag over porous media Proc. 17th European Turbulence Conference, Sep. 306 2019, Torino, Italy (2019.09) 1p
  112. K. Wada, H. Fujiwara, M. Kaneda and K. Suga Magnetothermal force effect on natural convection through a partially-heated vertical channel Proc. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow, Tokyo, Sep. 3-7, 2019 (2019.09)2p
  113. E. Juntasaro, K. Ngiamsoongnirn, V. Juntasaro and K. Suga Analytical wall function for bypass transition Proc. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow, Tokyo, Sep. 3-7, 2019 (2019.09)2p
  114. M. Sugimoto, M. Kaneda, K. Suga Phase-field lattice Boltzmann method for high density ratio Proc. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow, Tokyo, Sep. 3-7, 2019 (2019.09)2p
  115. Y. Nishiyama, K. Nishino, Y. Kuwata, K. Suga Direct numerical simulation of porous-walled channel flows with k-type structural roughness Proc. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow, Tokyo, Sep. 3-7, 2019 (2019.09)2p
  116. A. Shimizu, Y. Okazaki, Y. Kuwata, K. Suga Turbulence over porous walls with structural roughness of k- and d-types Proc. The 2nd Pacific Rim Thermal Engineering Conference, Maui, Hawaii, USA, Dec. 13-17, 2019 (2019.12.14) PRTEC-24073
  117. M. Sugimoto, M. Kaneda, K. Suga Development of two-phase lattice Boltzmann method on smoothed surfaces Proc. The 2nd Pacific Rim Thermal Engineering Conference, Maui, Hawaii, USA, Dec. 13-17, 2019 (2019.12.17) PRTEC-24118
  118. K. Wada, M. Kaneda, K. Suga Rayleigh-Benard convection of paramagnetic liquid under a magnetic field from block magnets Proc.Asian Pacific Congress on Computational Mechanics (APCOM) 2019, Taipei, Taiwan, Dec. 18-21, 2019 (2019.12.20) APCOM2019-0135
  119. S. Ando, M. Kaneda, K. Suga Permeability prediction of fibrous porous media by the lattice Boltzmann method with fluid-solid boundary reconstruction InterPore2020, 12th Annual Meeting & Short Courses, Qingdao, China, Aug. 31-Sep. 3, 2020 (2020.09)
  120. Y. Okazaki, Y. Takase, Y. Kuwata, K. Suga Mean velocity profiles over permeable rough walls iTi (interdisciplinary Turbulence initiative) 2021 – conference on Turbulence IX, Bertinoro, Italy, online, Feb. 25-26, 2021 (2021.02)6p
  121. R. Nagura, Y. Kuwata, K. Suga Dissimilarity between heat and momentum transfer of turbulent heat transfer over surfaces with hemisphere protrusions iTi (interdisciplinary Turbulence initiative) 2021 – conference on Turbulence IX, Bertinoro, Italy, online, Feb. 25-26, 2021 (2021.02)6p
  122. M. Sugimoto, T. Miyazaki, Z. Li, M. Kaneda, K. Suga Lattice Boltzmann simulation of liquid falling on horizontal rectangular pillar arrays “13th International Conference on Computational Heat Mass and Momentum Transfer, Paris, France, May 18-21, 2021 (2021.05)
  123. S. Ando, M. Kaneda, K. Suga A Two-way Fluid-Structure Interaction Scheme by Coupling the Lattice Boltzmann Method and the Cosserat Rod Model 14th International Conference on Advanced Computational Engineering and Experimenting, July 4?8, 2021, Marta (online) (2021.07)
  124. M. Morimoto, Y. Okazaki, Y. Kuwata, K. Suga PIV measurement of turbulence over a streamwise preferential porous medium 14th International Symposium on Particle Image Velocimetry, Chicago, USA, August 1-4, 2021 (2021.08)9p

国際会議招待講演等(Invited/Keynote Lectures at International Conferences)

  1. K.Suga, Application of a TCL second moment closure to turbulent duct flows, EF Conf. on Turbulent Heat Transfer III, Anchorage, USA, 2001.3(Keynote).
  2. K.Suga, Y.Pan, A challenge for simulation of fuel injection flows, World Congress on Computational Mechanics WCCM VI, Beijing, China, 2004.9(Invited).
  3. K. Suga, Advanced RANS modelling for engineering turbulent flows, International Workshops on Advances in Computational Mechanics, Tokyo, 2004.11(Invited).
  4. K. Suga, A study towards improving accuracy of large scale industrial flow computatuins, Int. Symp. On Frontiers of Computational Science 2005, Nagoya University, Nagoya, 2005.12(Invited).
  5. K. Suga, Tackling complex turbulent surface phenomena by analytical surface-functions 2nd Asian Symp. Comp. Heat Transfer and Fluid Flow,Jeju, South Korea (2009.10) vol.II, pp19-32.(Keynote)
  6. K. Suga, S. Takenaka, T. Kinjo, S. Hyodo, Lattice Boltzmann Modeling for Nanoscopic Flow Simulation, Int. Conf. Comput. & Experimental Enging and Sciences, 2010, Las Vegas, U.S.A. (2010.3.29) (Keynote)
  7. K. Suga, Y. Kuwata, On the budget terms of the double averaged turbulent stress transport equations in porous media, 1st Int. Conf. on Mechanics, 2013, Taiwan, (2013.11), (Invited)
  8. K. Suga, Turbulence characteristics over permeable walls, 2013 AGU Fall Meeting, San Francisco, U.S.A., (2013.12.13), (Invited)
  9. K. Suga,Turbulence over/inside porous surfaces and challenges to its modelling, XXI Fluid Mechanics Conference, 2014 Krakow Poland (2014.06) (Keynote)
  10. K. Suga, Measurements, Simulations and Modeling of Turbulence and Turbulent Heat Transfer in Porous Medium Flows, 1st Asian Conf. Thermal Sciences 2017 (2017.03) (Plenary)