Journals (Full paper review)

1. Hisaaki DAIGUJI and Satoru YAMAMOTO, An Efficient Time-marching Scheme for Solving Compressible Euler Equations, Bulletin of JSME, 29-255 (1986-9), 2845-2850.
2. S. YAMAMOTO and H. DAIGUJI, A NUMERICAL METHOD FOR THE TRANSONIC CASCADE FLOW PROBLEM, Computers & Fluids, 19-3/4(1991), 461-478, Pergamon Press.
3. Satoru Yamamoto　and Hisaaki Daiguji, UNSTEADY NAVIER-STOKES SIMULATION OF TURBULENT FLOWS THROUGH A SUPERSONIC COMPRESSOR CASCADE, Proceedings of First Joint ASME/JSME Fluids Engineering Conference-Portland, Numerical Simulation in Turbomachinery ed. by A.A. Hamed, FED-120, (1991-6), 73-79.
4. Satoru YAMAMOTO　and Hisaaki DAIGUJI, NUMERICAL ANALYSES OF UNSTEADY TURBULENT FLOWS THROUGH TRANSONIC TURBINE AND COMPRESSOR CASCADES, Computational Fluid Dynamics JOURNAL, 1-1(1992-4), 91-103.
5. S. YAMAMOTO and H. DAIGUJI, HIGHER-ORDER-ACCURATE UPWIND SCHEMES FOR SOLVING THE COMPRESIBLE EULER AND NAVIER-STOKES EQUATIONS, Computers & Fluids, 22-2/3(1993), 259-270.
6. Tadashi TANUMA, Xin YUAN, Satoru YAMAMOTO and Hisaaki DAIGUJI, Applications of Computational Fluid Dynamics to Large-Scale Turbine Blade Designs, Proceedings of JSME-ASME International Conference on Power Engineering-93, 2(1993-9), 361-366.
7. Satoru YAMAMOTO and Hisaaki DAIGUJI, Computation of Unsteady Transonic Cascade Flow Using the Euler and Navier-Stokes Equations of Contravariant Velocitites, JSME International Journal, Series B, 37-3(1994), 522-530.
8. Tadashi Tanuma, Satoru Yamamoto, Xin Yuan and Hisaaki Daiguji, Navier-Stokes Analysis of Unsteady Transonic Flows through Turbine Cascades
   UNSTEADY AERODYNAMICS AND AEROELASTICITY OF TURBOMACHINES, (1995), 691-707.
9. S.Yamamoto, X. Yuan and H.Daiguji, A Higher-Order CFD Approach to Shock/Vortex Interaction and its Application to Turbomachinery, Proceedings of 1995 Yokohama International Gas Turbine Congress, I (1995), 27-34.
10. T.Tanuma, S.Yamamoto and H.Daiguji, Navier-Stokes Analysis of Unsteady Transonic Flows through Gas Turbine Cascades with Coolant Ejection, Proceedings of 1995 Yokohama International Gas Turbine Congress, II (1995), 25-32.
11. Satoru YAMAMOTO and Hisaaki DAIGUJI, Structure of Unsteady Shock/vortex Interaction behind the Object obtained by the Fourth-order Shock Capturing Method, Proceedings of THE INTERNATIONAL SYMPOSIUM ON MATHEMATICAL MODELLING OF TURBULENT FLOWS,
    (1995), 369-374, JSCFD.
12. Satoru YAMAMOTO and Hisaaki DAIGUJI, Numerical Investigation of Unsteady Shock/turbulent Boundary Layer Interactions in Turbomachinery Proceedings of THE INTERNATIONAL SYMPOSIUM ON MATHEMATICAL MODELLING OF TURBULENT FLOWS, (1995), 363-368, JSCFD.
13. Alexander LEBEDEV, Hisaaki DAIGUJI and Satoru YAMAMOTO, AN APPLICATION OF q-ω TURBULENCE MODEL TO NUMERICAL SIMULATION OF NEAR WAKE FLOW, Computational Fluid Dynamics JOURNAL, 5-4 (1997), 509-525.
14. H. Daiguji, X. Yuan and S.Yamamoto, Stabilization of higher-order high resolution schemes for the compressible Navier-Stokes equations, International Journal of Numerical Methods for Heat & Fluid Flow, 7-2/3 (1997), 250-274.
15. Norinao TAKASU and Satoru YAMAMOTO, Parametric Study of Unsteady Hypersonic Shock/Shock Interference Flow Using Shock-Vortex Capturing Method, Proceedings of International Conference on Fluid Engineering, JSME Centennial Grand Congress, I (1997-7), 431-436.
16. Hideki HAGARI and Satoru YAMAMOTO, Numerical Investigation of Condensation Effect to Unsteady Transonic Viscous Flows in Moist Air, Proceedings of International Conference on Fluid Engineering, JSME Centennial Grand Congress, III (1997-7), 1701-1706.
17. T.Tanuma, N.Shibukawa, and S.Yamamoto, NAVIER-STOKES ANALYSIS OF UNSTEADY TRANSONIC FLOWS THROUGH GAS TURBINE CASCADES WITH AND WITHOUT COOLANT EJECTION, Preprint of the ASME International Gas Turbine & Aeroengine Congress & Exhibition, ASME Paper 97-GT-479, (1997).
18. Satoru Yamamoto, Sintaro Kano and Hisaaki Daiguji, An Efficient CFD Approach for Simulating Unsteady Hypersonic Shock-shock Interference Flows, Computers & Fluids, 27-5/6 (1998), 571-580.
19. Satoru Yamamoto, Norinao Takasu, and Hideo Nagatomo, Numerical Investigation of Shock/Vortex Interaction in Hypersonic Thermochemical Nonequilibrium Flow, Journal of Spacecraft and Rockets, 36-2(1999), 240-246.
20. Satoru YAMAMOTO, Shock-Vortex Capturing Method and it’s Application to Unsteady 3-D Cascade Flow, Computational Fluid Dynamics JOURNAL, 8-2(1999), 341-349.
21. Satoru YAMAMOTO and Tadashi TA NUMA, NUMER ICAL STUDY OF UNSTEADY GAS AND STEAM TURBINE CASCADE FLOWS, Proceedings of the International Gas Turbine Congress 1999 Kobe, I(1999), 489-496
22. Satoru Yamamoto, Hideki Hagari and Mitsuhiro Murayama, Numerical Simulation of Condensation around the 3-D Wing, Transactions of the Japan Society for Aeronautical and Space Sciences, 42-138(2000).
23. Satoru Yamamoto and Hiroshi Terashima, Numerical Study of Unsteady 3D Hypersonic Shock Interference Flows, Computational Fluid Dynamics JOURNAL, Special Number, (2001), 766-770.
24. Hironori Takeda and Satoru Yamamoto, Implicit Time-marching Solution of Partially Ionized Flows in Self-Field MPD Thruster, Transactions of the Japan Society for Aeronautical and Space Sciences, 44-146 (2002), 223-228.
25. Hironori TAKEDA and Satoru YAMAMOTO, Numerical Investigation of Supersonic MPD Viscous Flows with Ionization, JSME International Journal, 45-1(2002), 97-101.
26. Satoru Yamamoto, Numerical Method of Steady and Unsteady Compressible Interdisciplinary Flow Problems, Computational Fluid Dynamics JOURNAL, 11-2 (2002), 234-241.
27. Satoru YAMAMOTO and Daisuke NIIYAMA, Byeong-Rog SHIN, PRECONDITIONED HIGH-RESOLUTION SCHEME FOR GRAVITATIONAL FLOWS WITH CONDENSATION, Proceedings of FEDSM’03, 4th ASME_JSME Joint Fluids Engineering Conference, FEDSM2003-45390, (2003), CD-ROM.
28. Yasuhiro SASAO and Satoru YAMAMOTO, Numerical Prediction of Humid Effect to Transonic Flows in Turbomachinery, Proceedings of International Gas Turbine Congress 2003 Tokyo, (2003), CD-ROM.
29. Satoru Yamamoto, Onset of Condensation in Vortical Flow over Sharp-edged Delta Wing, AIAA Journal, 41-9 (2003), 1832-1835.
30. Byeong Rog SHIN, Satoru YAMAMOTO and Xin YUAN, APPLICATION OF PRECONDITIONING METHOD TO GAS-LIQUID TWO-PHASE FLOW COMPUTATIONS, ASME Journal of Fluid Engineering, 126-4(2004-7), 605-612.
31. Satoru YAMAMOTO, Daisuke NIIYAMA and Byeong Rog SHIN, A Numerical Method for Natural Convection and Heat Conduction around and in a Horizontal Circular Pipe, International Journal of Heat and Mass Transfer, 47(2004), 5777-5788.
32. Satoru Yamamoto and Daigo Sato, Overrelaxation Applied to Lower-Upper Symmetric Gauss-Seidel Method for Hypersonic Flows, AIAA Journal, 42-9(2004), 1849-1853.
33. Byeong Rog SHIN and Satoru YAMAMOTO, A Preconditioning Method for Two-Phase Flows with Cavitation, Computational Fluid Dynamics JOURNAL, 13-4(2005), 722-729.
34. Satoru Yamamoto, Computation of Practical Flow Problems with Release of Latent Heat, ENERGY The International Journal, 30(2005), 197-208.
35. Satoru Yamamoto, Preconditioning Method for Condensate Fluid and Solid Coupling Problems in General Curvilinear Coordinates, Journal of Computational Physics, 207-1(2005), 240-260.
36. Kei Sakakura, Satoru Yamamoto and Yasuhiro Sasao, Preconditioning Method for Very Slow Flows with Heterogeneous Condensation in Mixing T Junction Channel, Proceedings of ASME Fluids Engineering Summer Conference, FEDSM2005-77073(2005), CD-ROM.
37. Yasuhiro Sasao and Satoru Yamamoto, Numerical Prediction of Unsteady Flows through Turbine Stator-rotor Channels with Condensation, Proceedings of ASME Fluids Engineering Summer Conference, FEDSM2005-77205(2005), CD-ROM.
38. Satoru Yamamoto, Masayuki Toratani and Yasuhiro Sasao, Preconditioning Method applied to Near-critical Carbon-dioxide Flows in Micro-channel, JSME International Journal, 48-3(2005), 532-539,
39. Kei Sakakura and Satoru Yamamoto, Numerical and Experimental Predictions of Heterogeneous Condensate Flow of Moist Air in Cooled Pipe, International Journal of Heat and Fluid Flow, 27-2(2006),220-228..
40. Kentaro Sano, Takanori Iizuka and Satoru Yamamoto, Systolic Architecture for Computational Fluid Dynamics on FPGAs, Proc. IEEE Symposium on Field-Programmable Custom Computing Machines　(FCCM 2007), (2007).
41. Satoru YAMAMOTO, Shinichi YANO, Akira ISHIGAME and Takashi FURUSAWA, A Supercritical-fluids Simulator Applied to Flows of Arbitrary Substance in Arbitrary Conditions, Proceedings of 5th Joint ASME_JSME Fluids Engineering Conference, FEDSM2007-37154 (2007), CD-ROM.
42. Satoru YAMAMOTO and Koichiro MIZUTANI, A Very Simple Immersed Boundary Method Applied to Three-dimensional Incompressile Navier-Stokes Solvers using Staggered Grid, Proceedings of 5th Joint ASME_JSME Fluids Engineering Conference, FEDSM2007-37153(2007), CD-ROM
43. Satoru Yamamoto, Yasuhiro Sasao, Kentaro Sano, Hiroshi Satsuki, Kouichi Ishizaka and Hiroharu Ooyama, Parallel Computation of Condensate Flows through 2-D and 3-D Multistage Turbine Cascades, Proc. International Gas Turbine Congress 2007 Tokyo, (2007), CD-ROM.
44. Kentaro Sano, Yoshiaki Hatsuda, Wang Luzhou, and Satoru Yamamoto, Performance Evaluation of Finite-Difference Time-Domain (FDTD) Computation Accelerated by FPGA-based Custom Computing Machine, Interdisciplinary Information Sciences, 15-1, (2009-3), 67-78.
45. Yasuhiro Sasao, Kazuhiro Monma, Tadashi Tanuma and Satoru Yamamoto, Numerical Prediction of Unsteady Flows through Whole Nozzle-Rotor Cascade Channels with Partical Admission, International Journal of Fluid Machinery and Systems, 2-3, (2009-9), 248-253.
46. Yasuhiro Sasao, Hiroto Kato, Satoru Yamamoto, Hiroshi Satsuki, Hiroharu Ooyama, and Kouichi Ishizaka, Numerical and Experimental Investigations of Unsteady 3-D Flow through Two-stage Cascades in Steam Turbine Model, Proc. Int. Conf. on Power Engineering 2009, No.09-205, (2009), 2-479-2-484.
47. Satoru Yamamoto, Yasuhiro Sasao, Hiroto Kato, Hiroshi Satsuki, Hiroharu Ooyama, and Kouichi Ishizaka, Numerical and Experimental Investigation of Unsteady 3-D Wet-steam Flows through Two-stage Stator-rotor Cascade Channels, Proc. ASME Turbo Expo 2010, GT2010-22796, (2010), CD-ROM.
48. Satoru Yamamoto, Takashi Furusawa, and Ryo Matsuzawa, Numerical Simulation of Supercritical Carbon Dioxide Flows across Critical Point, International Journal of Heat and Mass Transfer, 54-4(2011), 774-782.
49. Satoru Yamamoto, Ryo Matsuzawa, and Takashi Furusawa, Simulation of Thermophysical Flow in Axisymmetric Nozzle with Expansion Chamber, AIChE Journal, 57-10(2011),2629-2635..
50. Tadashi Tanuma, Yasuhiro Sasao, Satoru Yamamoto, Shinji Takada, Yoshiki Niizeki, Naoki Shibukawa and Hiroshi Saeki, Numerical Investigation of Exhaust Diffuser Performances in a Low Pressure Turbine Casings, Proc. ASME Turbo Expo 2011, Vancouver, GT2011-45677, (2011), CD-ROM.Takashi Furusawa and Satoru Yamamoto, Numerical Simulation of Supercritical Water in T-Shaped Channel across Critical Point, Proc. ASME-JSME-KSME Joint Fluids Engineering Conference, Hamamatsu, (2011), CD-ROM.
51. Satoshi Miyake, Yasuhiro Sasao, Satoru Yamamoto, Soichiro Tabata, Toshihiro Miyawaki and Hiroharu Ooyama, Simulation of Unsteady 3-D Wet-steam Flows through Three-stage Stator-rotor Blade Rows with Equilibrium and Nonequilibrium Condensations, Proc. ASME Turbo Expo, GT2012-68828, (2012), CD-ROM.
52. Tadashi Tanuma, Yasuhiro Sasao, Satoru Yamamoto, Yoshiaki Niizeki, Naoki Shibukawa, Hiroshi Saeki, Numerical Investigation of Three-Dimensional Wet Steam Flows in an Exhaust Diffuser with Non-Uniform Inlet Flows from the Turbine Stages in a Steam Turbine, Proc. ASME Turbo Expo, GT2012-69496, (2012), CD-ROM.
53. Yasuhiro Sasao, Tadashi Tanuma , Satoru Yamamoto, Naoki Shibukawa and Yoshiki Niizeki, Introduction of Three Dimensional Wet Steam Flow Analysis for Low Pressure Exhaust Diffuser Design, Proc. the Cambridge Baumann Centenary Conference on Wet Steam Flows, BCC-2012-20, (2012), University of Cambridge, CD-ROM.
54. Satoru Yamamoto, Satoshi Miyake, Takashi Furusawa and Ryo Anan, Simullation of Thermophysical Flows with Non-equilibrium Condensation, Proc. the Cambridge Baumann Centenary Conference on Wet Steam Flows, BCC-2012-22, (2012), University of Cambridge, CD-ROM.
55. Xinrong Su, Satoru Yamamot and Kazuhiro Nakahashi, Analysis of A Meshless Solver for High Reynolds Number Flow, International Journal for Numerical Methods in Fluids, 72,(2013), 505-527.
56. Satoshi Miyake, Satoru Yamamoto, Yasuhiro Sasao, Kazuhiro Momma, Toshihiro Miyawaki and Hiroharu Ooyama, Unsteady Flow Effect on Nonequilibrium Condensation in 3-D Low Pressure Steam Turbine Stages, Proc. ASME Turbo Expo 2013, San Antonio, GT2013-94832, (2013), CD-ROM.
57. Yasuhiro Sasao, Satoshi Miyake, Kenji Okazaki, Satoru Yamamoto and Hiroharu Ooyama, Eulerian-Lagragian Numerical Simulation of Wet Steam Flow through Multi-stage Steam Turbine, Proc. ASME Turbo Expo 2013, San Antonio, GT2013-95945, (2013), CD-ROM.
58. Tadashi Tanuma, Yasuhiro Sasao, Satoru Yamamoto, Yoshiaki Niizeki, Naoki Shibukawa, Hiroshi Saeki, Aerodynamic Interaction Effects from Upstream and Downstream on the Down-flow Type Exhaust Diffuser Performance in A Low Pressure Steam Turbine, Proc. ASME Turbo Expo 2013, San Antonio, GT2013-95901, (2013), CD-ROM.
59. Xinrong Su, Satoru Yamamot and Xin Yuan, On the Accurate Prediction of Tip Vortex: Effect of Numerical Schemes, Proc. ASME Turbo Expo 2013, San Antonio, GT2013-94660, (2013), CD-ROM.
60. Shibo Qi, Takashi Furusawa, Satoru Yamamoto, Kazuhiro Nakahashi, Comparison of Different Wall Bounday Treatments for Preconditioning Method Coupled with Building-cube Method, Procedia Engineering, 61(2013), 298-305.
61. Xinrong Su and Satoru Yamamoto, A New Matrix Dissipation Model for Central Scheme, International Journal for Numerical Methods in Fluids, 74-7(2014), 494-513.
62. Shibo Qi, Takashi Furusawa, Satoru Yamamoto, Numerical Simulation of Supercritical-fluid Flows over Arbitrary Geometry, Bulletin of JSME, Journal of Fluid Science and Technology, 9-1(2014), 1-16.
63. Tadashi Tanuma, Yasuhiro Sasao, Satoru Yamamoto, Yoshiaki Niizeki, Naoki Shibukawa, Hiroshi Saeki, Numerical Investigation of Steam Turbine Exhaust Diffuser Flows and Their Three Dimensional Interaction Effects on Last Stage Efficiencies, Proc. ASME Turbo Expo 2014, Dusseldorf, GT2014-26665, (2014), CD-ROM.
64. Satoshi Miyake, Itsuro Koda, Satoru Yamamoto, Yasuhiro Sasao, Kazuhiro Momma, Toshihiro Miyawaki and Hiroharu Ooyama, Unsteady Wake and Vortex Interactions in 3-D Steam Turbine Low Pressure Final Three Stages, Proc. ASME Turbo Expo 2014, Dusseldorf, GT2014-25491, (2014), CD-ROM.
65. Xinrong Su, Satoru Yamamoto and Kazuhiro Nakahashi, Extending the Building Method to Curvilinear Mesh with Adaptive Mesh Refinement, Journal of Fluid Science and Technology, 9-5(2014), 1-12.
66. Satoru Yamamoto and Takashi Furusawa, Thermophysical Flow Simulations of Rapid Expansion of Supercritical Solutions (RESS), Journal of Supercritical Fluids, 97(2015), 192-201. (Featured online on ‘Advances in Engineering’:https://advanceseng.com/general-engineering/thermophysical-flow-simulations-of-rapid-expansion-of-supercritical-solutions-ress/)
67. Shibo Qi, Takashi Furusawa, Satoru Yamamoto, A Numerical Method applied to Forced and Natural Convection Flows over Arbitrary Geometry, International Journal of Heat and Mass Transfer, 85(2015), 375-389.
68. Satoshi Miyake, Hironori Miyazawa, Satoru Yamamoto, Yasuhiro Sasao, Kazuhiro Momma,Hiroharu Ooyama and Toshihiro Miyawaki, Unsteady Wet-steam Flows through Low Pressure Turbine Final Three Stages considering Blade Number, Proc. ASME Turbo Expo 2015, Montreal, GT2015-42366, (2015), 11 pages.
69. Tadashi Tanuma, Hiroshi Okuda, Gaku Hashimoto, Satoru Yamamoto, Naoki Shibukawa, Kenichi Okuno, Hiroshi Saeki and Tomohiko Tsukuda, Aerodynamic and Structural Numerical Investigation of Unsteady Flow Effects on Last Stage Blades, Proc. ASME Turbo Expo 2015, Montreal, GT2015-43848, (2015), 13 pages.
70. Manabu Yagi, Takahiro Nishioka, Hiromi Kobayashi, Hideo Nishida and Satoru Yamamoto, Effects of Return Channel with Splitter Vanes on Performance of Multistage Centrifugal Compressor, Proc. ASME Turbo Expo 2015, Montreal, GT2015-42442, (2015), 10 pages.
71. Takashi Furusawa, Shibo Qi, Satoru Yamamoto, Numerical Simulation of Three-dimensional Supercritical Water Flows in Hydrothermal Synthesis Reactors with Arbitrary Geometry, Proc. ASME-JSME-KSME Joint Fluids Engineering Conference, AJK2015-03096, (2015), 7 pages.
72. Takashi Furusawa, Hironori Miyazawa and Satoru Yamamoto, Numerical Simulation of Supercritical CO2 Flows in Transonic Turbine and Compressor, Proc. Int. Gas Turbine Congress 2015 Tokyo, (2015), 6 pages.
73. Hironori Miyazawa, Toshiki Iwasaki, Satoshi Miyake, Takashi Furusawa and Satoru Yamamoto, Unsteady Force of Wet-steam Flow on Multi-stage Turbine Long Blade Rows, Proc. Int. Gas Turbine Congress 2015 Tokyo, (2015), 7 pages.
74. Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Yasuhiro Sasao and Hiroharu Ooyama, Unsteady Force on Multi-stage and Multi-passage Turbine Long Blade Rows Induced by Wet-steam Flows, Proc. ASME Turbo Expo 2016, Seoul, GT2016-56360, (2016), 12 pages.
75. Takashi Furusawa, Hironori Miyazawa and Satoru Yamamoto, Numerical Method for Simulating Flows of Supercritical CO2 Compressor with Nonequilibrium Condensation, Proc. ASME Turbo Expo 2016, Seoul, GT2016-56431, (2016), 9 pages.
76. Takashi Furusawa and Satoru Yamamoto, Mathematical Modeling and Computation of High-pressure Steam Condensation in a Transonic Flow, Journal of Fluid Science and Technology, 12-1 (2017), 1-11.
77. Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Numerical Analysis of Condensation Effects on Final-stage Rotor-blade Rows in Low-pressure Steam Turbine, Journal of Fluid Science and Technology, 12-2(2017), 1-12.
78. Satoru Yamamoto, Shota Moriguchi, Hironori Miyazawa, Takashi Furusawa, Effect of Inlet Wetness on Transonic Wet-steam and Moist-air Flows in Turbomachinery, International Journal of Heat and Mass Transfer, 19(2018), 720-732..(Featured online on ‘Advances in Engineering’:https://advanceseng.com/free-energy-dominates-nucleation-condensation/)
79. Jorg Startzmann et al.(including Satoru Yamamoto), Results of the International Wet Steam Modeling Project, Proc. IMechE, Part A, Journal of Power and Energy, March, (2018), 21 pages. https://doi.org/10.1177/0957650918758779
80. Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Numerical Investigation of Transonic Supercritical CO2 Flows with Nonequilibrium Condensation in a Laval Nozzle, Proc. 6th International Supercritical CO2 Power Cycles Symposium, (2018), http://sco2symposium.com/www2/sco2/papers2018/fundamentals/097_Paper.pdf.
81. Takashi Furusawa, Hironori Miyazawa and Satoru Yamamoto, Numerical Method for Simulating High Pressure CO2 Flows with Nonequilibrium Condensation, Proc. ASME 2018 Turbo Expo, Lillestrom, GT2018-75592, (2018), 10 pages.
82. Satoru Yamamoto, Steam Turbine Tutrial: A Free Energy Perspective on Homogneous Nucleation Model, GT2018-77505, ASME 2018 Turbo Expo, Lillestrom, June 14, (2018).
83. Shota Moriguchi, Hironori Miyazawa, Takashi Furusawa, and Satoru Yamamoto, Wetness Effect on Transonic Moist-air Flow through a Compressor Rotor, Proc. ASME 2018 5th-Joint US-European Fluid Engineering Division Summer Meeting , Montreal, FEDSM2018-83422, (2018), 10 pages.
84. Akihiro Uemura, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Koichi Yonezawa, Shuichi Umezawa, Effect of Blade Secular Change on Unsteady Flows in Middle Pressure First-Stage Steam Turbines, Proc. ASME 2019 Turbo Expo, Phoenix, GT2019-90644, (2019), 9 pages.
85. Yasuhiro Sasao, Ryo Takata, Satoshi Miyake, Soichiro Tabata, Satoru Yamamoto, Optical Couarse Droplet Measurement and Wet Loss Analysis on the Wet Air Flow Through the Subsonic Blade Cascade Channel, Proc. ASME 2019 Turbo Expo, Phoenix, GT2019-91928, (2019), 12 pages.
86. Takashi Furusawa, Noriyuki Taki, Shuto Yatsuyanagi, Satoru Yamamoto, Takuto Miyaura, Sadatake Tomioka, Numerical Simulation of Supercritical Octane Flows in a Heated Circular Tube with Simple Thermal Cracking Model, Proc. ASME-JSME-KSME 2019 8th Joint Fluids Engineering Conference, San Francicso, AJKFluids2019-4797, (2019), 8 pages.
87. Shota Moriguchi, Takuro Endo, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Numerical Simulation of Unsteady Moist-air Flows through Whole-annulus Rotor Blade Rows in Transonic Compressor, Proc. ASME-JSME-KSME 2019 8th Joint Fluids Engineering Conference, San Francicso, AJKFluids2019-4782, (2019), 9 pages.
88. Takashi Furusawa, Shota Moriguchi, Hironori Miyazawa and Satoru Yamamoto, Real Gas Simulation for High-pressure and Low-pressure Nonequilibrium Condensation in Transonic Flows, Proceedings of Global Power and Propulsion Society, Beijing Conference 2019, GPPS-BJ-2019-009, (2019), 7pages.
89. Akihiro Uemura, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Koichi Yonezawa, Shuichi Umezawa, and Shuichi Ohmori, Simulation of Unsteady Flows through Three-stage Middle Pressure Steam Turbine in Operation, International Conference on Power Engineering-2019, (2019), 1208-1213. also publiched in Mechanical Engineering Journal, 7-4 (2020), 10 pages,  https://doi.org/10.1299/mej.20-00068.
90. Shota Moriguchi, Koki Araki, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Condensation of Moist-air Flow in Transonic Compressor Fan Rotor, Proceedings of International Gas Turbine Congress 2019 Tokyo, IGTC-2019-104, (2019), 8 pages.
91. Takashi Furusawa, Jianming Hao, Shota Moriguchi, Hironori Miyazawa and Satoru Yamamoto, Numerical Investigation of Supercritical CO2 Flow in a Radial Compressor with Real Gas Model, Proceedings of International Gas Turbine Congress 2019 Tokyo, IGTC-2019-106, (2019), 6 pages.
92. Satoru Yamamoto, Akihiro Uemura, Hironori Miyazawa, Takashi Furusawa, Koichi Yonezawa, Shuichi Umezawa, and Shuichi Ohmori, Takeshi Suzuki, A Numerical and Analytical Method for Predicting the Performance of Intermediate-pressure Steam Turbines in Operation, Energy, 198, (2020), https://doi.org/10.1016/j.energy.2020.117380.
93. Hironori Miyazawa, Akihiro Uemura, Takashi Furusawa, Satoru Yamamoto, Koichi Yonezawa, Shuichi Umezawa, Unsteady Flow Simulation through Stator-Rotor Blade Rows in Intermediate-Pressure Steam Turbines with Cutback Blades, Proc. ASME 2020 Turbo Expo, GT2020-14937, (2020),12 pages. https://doi.org/10.1115/GT2020-14937
94. Yasuhiro Sasao, Kiyoshi Segawa, Takeshi Kudo, Ryo Takata, Masaki Osako, Satoru Yamamoto, Wetness Measurement and Droplet Transport Analysis in Actual Steam TEest on A Scaled Low Pressure Turbine, Proc. ASME 2020 Turbo Expo, GT2020-16117, (2020), 12 pages. https://doi.org/10.1115/GT2020-16117
95. Piotr Wisniewski, Slawomir Dykas, Satoru Yamamoto, Importance of Air Humidity and Contaminations in the Internatl and External Transonic Flows, Energies, 13 (2020), 3153, 12 pages, https://doi.org/10.3390/en13123153.
96. Piotr Wisniewski, Slawomir Dykas, Satoru Yamamoto, B Pritz, Numerical Approaches for Moist Air Condensing flows Modelling in the Transonic Regime, International Journal of Heat and Mass Transfer, 162 (2020), 120392, https://doi.org/10.1016/j.ijheatmasstransfer.2020.120392.
97. Shota Moriguchi, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Large Eddy Simulation of a Linear Turbine Cascade with a Trailing Edge Cutback, Energy, 24 (2021), 119694, https://doi.org/10.1016/j.energy.2020.119694.
98. Kazuhiro Komatsu, Hironori Miyazawa, Cheng Yiran, Masayuki Sato, Takashi Furusawa, Satoru Yamamoto, Hiroaki Kobayashi, Detection of Machinery Failure Signs from Big Time-series Data Obtained by Flow Simulation of Intermediate-pressure Turbines, Proc. ASME 2021 Turbo Expo, GT2021-58698, (2021), 11 pages. also publishced in Journal of Engineering for Gas Turbines and Power, 144, (2022), 011007, https://doi.org/10.1115/1.4052142
99. Satoru Yamamoto, Koki Araki, Shota Moriguchi, Hironori Miyazawa, Takashi Furusawa, Koichi Yonezawa, Shuichi Umezawa, and Shuichi Ohmori, Takeshi Suzuki, Effects of Wetness and Humidity on Transonic Compressor of Gas Turbine, International Journal of Heat and Mass Transfer, 178 (2021),121649. https://doi.org/10.1016/j.ijheatmasstransfer.2021.121649
100. Shuto Yatsuyanagi, Takashi Furusawa, Satoru Yamamoto, Takuo Onodera, Sadatake Tomioka, Numerical Investigation of Supercritical n-Dodecane Flows in a Heated Circular Pipe with Thermal Cracking, Proc. ASME Fluids Engineering Division Summer Meeting (FEDSM2021), Virtual Conference, FEDSM2021-65261, (2021), 9 pages.
101. Takashi Furusawa, Kenta Matsui, Shuto Yatsuyanagi, Satoru Yamamoto, Akira Yoko, Tadafumi Adschiri, Turbulent Flow Simulation of Supercritical Hydrothermal Synthesis in T-Shaped Channel, Proc. ASME Fluids Engineering Division Summer Meeting (FEDSM2021), Virtual Conference, FEDSM2021-66023, (2021), 7 pages.
102. Shuto Yatsuyanagi, Takashi Furusawa, Hironori Miyazawa, Satoru Yamamoto, Takuo Onodera, Sadatake Tomioka, Numerical Study of Supercritical Octane Flow with Multicomponent Effects by Pyrolysis, International Journal of Thermal Sciences, 171, (2022), 107103. https://doi.org/10.1016/j.ijthermalsci.2021.107193
103. Shuto Yatsuyanagi, Takashi Furusawa, Satoru Yamamoto, Double-flux Model for Supercritical Multicomponent Flows at Low Mach Numbers with Preconditioning Method, Journal of Computational Physics, 158, (2022), 111091. http://dx.doi.org/10.1016/j.jcp.2022.111091
104. Yasuharu Hagita, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Koichi Yonezawa, Shuichi Umezawa, Shuichi Ohmori, Takeshi Suzuki, The Effect of Partial-Load Operation on a Gas Turbine Compressor of an Advanced Combined Cycle Power Plant, Proc. ASME 2022 Turbo Expo, GT2022-80251, (2022), 12 pages.
105. Takashi Furusawa, Yasuhiro Sasao, Ryo Takata, Hironori Miyazawa, Satoru Yamamoto, Numerical Modeling of Water Droplets in Compressible Two-Phase Flows Based on Eulerian-Eulerian Method, Proc. ASME 2022 Turbo Expo, GT2022-81246, (2022), 9 pages. https://doi.org/10.1115/GT2022-81246
106. Piotr Wiśniewski, Sławomir Dykas, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Modified heat transfer correction function for modeling multiphase condensing flows in transonic regime, International Journal of Heat and Mass Transfer, 201 (2023),123597. http://dx.doi.org/10.1016/j.ijheatmasstransfer.2022.123597
107. Yasuharu Hagita, Riku Hayakawa, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Self-organization of Unsteady Full-Annulus Flows in A Gas Turbine Compressor under Operating Conditions, ASME 2023 Turbo Expo, GT2023-101937, (2023), 11 pages. https://doi.org/10.1115/GT2023-101937

Proceedings (International)

1. Hisaaki Daiguji and Satoru Yamamoto, AN EFFICIENT TIME-MARCHING METHOD FOR SOLVING THE COMPRESSIBLE EULER EQUATIONS, Proceedings of International Symposium on Computational Fluid Dynamics-Tokyo, I (1985), 217-228.
2. Hisaaki DAIGUJI, Yasuo MOTOHASHI and Satoru YAMAMOTO, AN IMPLICIT TIME-MARCHING METHOD FOR SOLVING THE 3-D COMPRESSIBLE EULER EQUATIONS, Proceedings of 10th International Conference on Numerical Methods in Fluid Dynamics, Lecture Notes in Physics, 264(1986), 205-210, Springer-Verlag.
3. Satoru YAMAMOTO, Hisaaki DAIGUJI and Hiroshi ISHIGAKI, AN IMPLICIT TIME-MARCHING SCHEME FOR SOLVING THE COMPRESSIBLE NAVIER-STOKES EQUATIONS, Proceedings of the International Symposium on Computational Fluid Dynamics, Computational Fluid Dynamics, eds. by G., de Vahl Davis and C. Fletcher, (1987-8), 773-784, North-Holland.
4. H. Daiguji, S.Yamamoto and K.Ito, TRANSONIC CASCADE FLOW ANALYSES USING TIME-MARCHING FINITE-DIFFERENCE SCHEMES FOR THE COMPRESSIBLE EULER EQUATIONS, Proceedings of　the Second China-Japan Joint Conference on Fluid Machinery, (1987), 408-415.
5. Hisaaki DAIGUJI and Satoru YAMAMOTO, AN IMPLICIT TIME-MARCHING METHOD FOR SOLVING THE 3-D COMPRESSIBLE NAVIER-STOKES EQUATIONS, Proceedings of 11th International Conference on Numerical Methods in Fluid Dynamics, Lecture Notes in Physics, 323 (1988-6), 210-214, Springer-Verlag.
6. B.R. Shin, S. Yamamoto, T. Ikohagi and H. Daiguji, FRACTIONAL STEP FINITE-DIFFERENCE SCHEMES FOR SOLVING THE INCOMPRESIBLE NAVIER-STOKES EQUATIONS IN CURVILINEAR COORDINATES, Proceedings of Soviet Union-Japan Symposium on Computational Fluid Dynamics, 2(1988-9), 91-97.
7. YAMAMOTO, Satoru and DAIGUJI, Hisaaki, A NUMERICAL METHOD FOR SOLVING THE UNSTEADY COMPRESSIBLE NAVIER-STOKES EQUATIONS, Proceedings of International Symposium on Computational Fluid　Dynamics-Nagoya, II (1989-8), 710-715.
8. S. Yamamoto and H. Daiguji, NAVIER-STOKES ANALYSES OF SEVERAL TYPES OF TRANSONIC CASCADE FLOWS, Proceedings of the Third Japan-China Joint Conference on Fluid Machinery, Osaka, II (1990-4), 423-430.
9. Satoru Yamamoto and Hisaaki Daiguji, A Streamwise TVD Scheme for Solving the Compressible Euler Equations, Proceedings of Third International Conference on Hyperbolic Problems, Uppsala, II (1990-6), 980-991.
10. Satoru Yamamoto and Hisaaki Daiguji, Numerical Simulation of Unsteady Turbulent Flow through Transonic and Supersonic Cascades, Proceedings of 12th International Conference on Numerical Methods in Fluid Dynamics, Lecture Notes in Physics, 371(1990-7), 485-489, Springer-Verlag.
11. S. Yamamoto and H. Daiguji, A HIGHER-ORDER ACCURATE NAVIER-STOKES SOLVER FOR TRANSONIC AND SUPERSONIC FLOWS IN TURBOMACHINERY, Preprint of AIAA/SAE/ASME/ASEE 28th Joint Propulsion Conference and Exhibit, AIAA Paper 92-3044, (1992-7).
12. Hisaaki Daiguji, Satoru Yamamoto and Koichi Ishizaka, NUMERICAL SIMULATION OF SUPERSONIC MIXING LAYERS USING A FOURTH-ORDER ACCURATE SHOCK CAPTURING SCHEME, Proceedings of the 13th International Conference on Numerical Methods in Fluid Dynamics, Lecture Notes in Physics, 414 (1992-7), 315-319, Springer-Verlag.
13. Satoru YAMAMOTO and Hisaaki DAIGUJI, On the 4th-Order Compact MUSCL TVD Scheme Approached to Complex Flow Problems, Proceedings of the 5th International Symposium on Computational Fluid Dynamics, III (1993), 381-386.
14. Xin YUAN, Satoru YAMAMOTO and Hisaaki DAIGUJI, THREE-DIMENSIONAL NAVIER-STOKES SIMULATIONS OF TRANSONIC CASCADE FLOWS CONSIDERING UNSTEADY WAKES, Proceedings of the 5th International Symposium on Computational Fluid Dynamics, III (1993), 421-426.
15. Tadashi TANUMA, Satoru YAMAMOTO, Xin YUAN and Hisaaki DAIGUJI, UNSTEADY NAVIER-STOKES ANALYSIS OF TRANSONIC CASCADE FLOW IN TURBOMACHINERY, Proceedings of the 5th International Symposium on Computational Fluid Dynamics, III (1993), 217-222.
16. Koichi ISHIZAKA, Yasushi SUGITA, Satoru YAMAMOTO and Hisaaki DAIGUJI, A HIGHER-ORDER ACCURATE NAVIER-STOKES SOLVER FOR 3D SUPERSONIC MIXING LAYERS WITH AN EFFICIENT VISUALIZATION ALGORITHM, Proceedings of the 5th International Symposium on Computational Fluid Dynamics, I (1993), 358-363.
17. S.Yamamoto, A. Takahashi, and H.Daiguji, HIGHER-ORDER NUMERICAL SIMULATION OF UNSTEADY SHOCK/VORTEX INTERATIONS, Preprint of 25th AIAA Fluid Dynamics Conference, AIAA Paper 94-2305, (1994).
18. X. Yuan, S. Yamamoto, and H.Daiguji, A Highe-Resolution Shock-Capturing Scheme for Simulating Unsteady Three-Dimensional Transonic Flows in Turbomachinery, 30th AIAA/ASME/SAE/ASEE Joint Propulsion Conference, AIAA Paper 94-3199, (1994).
19. Satoru Yamamoto, Hideo Nagatomo, and Hisaaki Daiguji, An Implicit-Explicit Flux Vector Splitting Scheme for Hypersonic Thermochemical Nonequilibrium Flows, Proceedings of the 14th International Conference on Numerical Methods in Fluid Dynamics, Lecture Notes in Physics, 453 (1994), 314-319, Springer-Verlag.
20. S. Yamamoto and S. Kano, Structure of Bow Shock and Compression Wave Interactions in Unsteady Hypersonic Shock/Shock Interference Flow, Preprint of 1st AIAA Theoretical Fluid Mechanics Meeting, AIAA Paper 96-2152, (1996).
21. Satoru YAMAMOTO, SHOCK-VORTEX CAPTURING METHOD FOR STRONGLY UNSTEADY　FLOW PROBLEMS, Proceedings of 15th International Conference on Numerical Methods in Fluid Dynamics, Lecture Notes In Physics, 490(1996), 590-595, Springer.
22. Satoru Yamamoto, NUMERICAL INVESTIGATION OF STRONGLY NON-LINEAR TRANSONIC FLOW PROBLEMS AROUND THE AIRFOIL, Proceedings of 20th Congress of the International Council of the Aeronautical Science, 1 (1996), 12-18, AIAA.
23. Hideo Nagatomo, Satoru Yamamoto, Hisaaki Daiguji, Numerical Investigation of Shock Interference in Hypersonic Thermochemical Nonequilibrium Flow, Proceedings of the Third ECCOMAS Computational Fluid Dynamics Conference, (1996), 39-44.
24. Byeong Rog Shin and Satoru Yamamoto, Numerical Investigation of Unsteady Turbulent Flow through Transonic Turbine Cascade, Proceedings of the Second Asian Computational Fluid Dynamics Conference, 1(1996), 127-132.
25. Satoru Yamamoto, NUMERICAL INVESTIGATION OF UNSTEADY SHOCK/SHOCK AND SHOCK/VORTEX INTERACTIONS IN NON-PERFECT GAS, Proceedings of 7th International Symposium on Computational Fluid Dynamics, (1997), 640-645.
26. S.Yamamoto and N. Takasu, Numerical Study of Unsteady Shock/Boundary-Layer Interaction Induced by A Blunt Fin, Preprint of 29th AIAA Fluid Dynamics Conference, AIAA Paper 98-2815, (1998).
27. S.　YAMAMOTO and H. HAGARI, Numerical Investigation of Nonequilibrium Condensation Effect around 3-D Transonic Wing in Moist Air, Proceedings of 16th International Conference on Numerical Methods in Fluid Dynamics, Lecture Notes in Physics, 515(1998), 554-559, Springer.
28. Satoru Yamamoto, Norinao Takasu and Hiroshi Terashima, Numerical Study of Unsteady 3D Shock/Shock Interference Flows, Proceedings of the Sixth Japan-Russia Joint Symposium on Computational Fluid Dynamics, (1998-9), 27-30.
29. Satoru Yamamoto, Computation of Unsteady Nonequilibrium Flows In Non-perfect Gas, Proceedings of Fourth KSME-JSME Fluid Engineering Conference, (1998-10), 397-400.
30. Satoru YAMAMOTO and Hiroshi TERASHIMA, FLOW CHARACTERISTICS OF UNSTEADY THREE-DIMENSIONAL TYPE IV SHOCK INTERFERENCE, AIAA Paper 2000-2690, (2000), 1-7.
31. Satoru Yamamoto, Time-marching Method for Complicated Compressible Flow Equations with Source Term, Proceedings of 1st International Conference on Computational Fluid Dynamics, Computational Fluid Dynamics 2000, (2000), 133-138, Springer.
32. Satoru Yamamoto, NUMERICAL STUDY OF NONEQUILIBRIUM CONDENSATION IN UNSTEADY TRANSONIC VISCOUS FLOW PROBLEM, Proceedings of European Congress on Computational Methods in Applied Sciences and Engineering, (2000), CD-ROM.
33. Satoru Yamamoto, Onset of Condensation in Vortical Flow over Sharp-edged Delta Wing, AIAA Paper 2001-2651, (2001).
34. Daigo Sato and Satoru Yamamoto, Implicit Calculation of Condensate Transonic Flows, Proceedings of First International Symposium on Advanced Fluid Information, (2001).
35. Satoru YAMAMOTO, Byeong-Rog SHIN and Daisuke NIIYAMA, Preconditioning Method for Heterogeneous Condensate Flows, Proceedings of the Fifth JSME-KSME Fluids Engineering Conference, (2002), CD-ROM.
36. Satoru Yamamoto and Byeong Rog Shin, Preconditioned Implicit Flux-splitting Scheme for Condensate Flows, Proceedings of 2nd International Conference on Computational Fluid Dynamics, Computational Fluid Dynamics 2002, (2002), 112-117, Springer.
37. Satoru YAMAMOTO, Daisuke NIIYAMA and Byeong Rog SHIN, A Numerical Method for Gravitational Condensate Flows with Structure, Proceedings of the 5th Asian Computational Fluid Dynamics, (2003), CD-ROM.
38. Satoru Yamamoto, Preconditioning Method for Compressible Near-critical Fluids in Micro-channel, Proceedings of 3rd Int. Conf. on Computational Fluid Dynamics-Toronto, (2004-7), 517-522, Springer.
39. Satoru Yamamoto and Byeong Rog Shin, PRECONDITIONED FLUX-SPLITTING METHOD FOR CONDENSATE FLOWS AND NEAR-CRITICAL FLUIDS, ECCOMAS2004-Jyvaskyla, (2004-7), CD-ROM.
40. Kei Sakakura, Yasuhiro Sasao and Satoru Yamamoto, Numerical Analysis of Combined free and Forced Convection of Fluids with Condensate in Parallel Plate Channels, Proceedings of the Sixth KSME-JSME Thermal and Fluids Engineering Conference, (2005-3), CD-ROM.
41. Yasuhiro Sasao and Satoru Yamamoto, Numerical Investigation of Condensate Turbulent Flows in Turbomachinery, Proceedings of the Sixth KSME-JSME Thermal and Fluids Engineering Conference, (2005-3), CD-ROM.
42. Yasuhiro SASAO and Satoru YAMAMOTO and Tadashi TANUMA, Numerical Investigation of Condensation and Turbulence in Turbine Stator-rotor Interaction, Proceedings of 2005 Asian Congress on Gas Turbine, (2005), CD-ROM
43. Kentaro Sano, Takanori Iizuka and Satoru Yamamoto, Massively Parallel Processor based on Systolic Architecture for High-Performance Computation of Difference Schemes, Proceedings of the International Conference on Parallel Computational Fluid Dynamics (ParCFD2006), (2006-5), 174–177.
44. Yasuhiro SASAO and Satoru YAMAMOTO, Parallel Computation of Unsteady Flow with Nonequilibrium CondensationThrough 3-D Multistage Stream Turbine Cascade, Proceedings of the International Conference on Parallel Computational Fluid Dynamics (ParCFD2006),(2006-5), 87–89..
45. Kentaro Sano, Takanori Iizuka and Satoru Yamamoto, Array-based Custom Computing Machine for High-Performance Computational Fluid Dynamics, Proceedings of the 3rd International Symposium on Transdisciplinary Fluid Integration (TFI2006), (2006-6), 33-34.
46. Yasuhiro SASAO and Satoru YAMAMOTO, Numerical Prediction of Wet-steam Flows in 2-D and 3-D Steam-turbine Stator-rotor Cascades, Proceedings of the 3rd International Symposium on Transdisciplinary Fluid Integration (TFI2006), (2006-6), 45-46.
47. Kentaro Sano, Takanori Iizuka and Satoru Yamamoto, “Systolic Computational-Memory Architecture for an FPGA-based Flow Solver,” Proceedings of the 49th IEEE International Midwest Symposium on Circuits and Systems (MWSCAS2006), CDROM(paper#3213, 5pages), (2006-8).
48. Satoru Yamamoto and Atsushi Ito, Numerical Method for Near-critical Fluids of Arbitrary Material, Proceedings of 4th International Conference on Computational Fluid Dynamics-Ghent, (2006), in press.
49. Satoru Yamamoto, Supercomputing of Flows with Complex Physics and the Future Progress, Proc. 5th Teraflops Workshop-Sendai, High Performance Computing on Vector Systems 2007, (2007), 61-69, Springer.
50. Kentaro Sano, Syoichiro Sato, Yasuhiro Sasao and Satoru Yamamoto, “Hybrid Parallel Computation for LU-SGS Implicit Time Integration,” Proceedings of the International Conference on Parallel Computational Fluid Dynamics (ParCFD2007), ( 2007), CD-ROM.
51. Kentaro Sano, Takanori Iizuka and Satoru Yamamoto, Systolic Architecture for Computational Fluid Dynamics on FPGAs, Proceedings of the 15th Annual IEEE Symposium on Field-Programmable Custom Computing Machines (FCCM2007), 107–116, April, 2007
52. Satoru Yamamoto, Yasuhiro Sasao, Shoichiro Sato and Kentaro Sano, Parallel-Implicit Computation of Three-dimensional Multistage Stator-Rotor Cascade Flows with Condensation, Proc. 18th AIAA Computational Fluid Dynamics Conference, AIAA 2007-4460, (2007).
53. Kentaro Sano, Oliver Pell, Wayne Luk and Satoru Yamamoto, FPGA-based Streaming Computation for Lattice Boltzmann Method, Proceedings of the International Conference on Field-Programmable Technology (ICFPT2007), pp.233-236, December, 2007.
54. Takashi Furusawa and Satoru Yamamoto, Accurate Prediction of Transitional Flows among Gas, Liquid and Supercritical Fluids, Proc. 5th Europian Congress on Computational Methods in Applied Sciences and Engineerings, ECCOMAS2008-Venice, (2008-7), CD-ROM.
55. Kentaro Sano and Satoru Yamamoto, Interactive Flow Simulation with FPGA-based Acceleration of 2D Lattice Boltzmann Method,” Proceedings of the 5th European Congress Computational Mrthods in Applied Sciences and Engineering, ECCOMAS2008-Venice, (paper#:a560, 2 pages) (2008-7), CDROM.
56. Satoru Yamamoto and Takashi Furusawa, Numerical Method for Flows of Arbitrary Substance in Arbitrary Conditions, Proc. 5th International Conference on Computational Fluid Dynamics-Seoul, Computational Fluid Dynamics 2008 (2008-7), Springer, 545-550
57. Kentaro Sano and Luzhou Wang and Yoshiaki Hatsuda and Satoru Yamamoto, FPGA-based Custom Computing Machines for High-Performance Comptational Fluid Dynamics, Proc. 5th International Conference on Computational Fluid Dynamics-Seoul, (2008-7), Springer, in press
58. Kazuhiro Monma, Yasuhiro Sasao, Tadashi Tanuma, Satoru Yamamoto, Numerical Investigation of Unsteady Flow through Partial Admission Stage of Steam Turbine, Proc. of 7th JSME-KSME Thermal and Fluids Engineering Conference, (2008-10), CD-ROM.
59. Kentaro Sano, WANG Luzhou, Yoshiaki Hatsuda and Satoru Yamamoto, Scalable FPGA-Array for High-Performance and Power-Efficient Computation Based on Difference Schemes, Proc. the International Workshop on High-Performance Reconfigurable Computing Technology and Applications(HPRCTA’08), digital library (DOI: 10.1109/HPRCTA.2008.4745679, 9 pages), (2008-11).
60. Kentaro Sano, Takeshi Nishikawa, Takayuki Aoki and Satoru Yamamoto, Evaluating Power and Energy Consumption of FPGA-based Custom Computing Machines for Scientific Floating-Point Computation, Proc. the International Conference on Field-Programmable Technology (ICFPT2008), to be published, December, 2008.
61. Satoru Yamamoto, Yasuhiro Sasao, Takashi Furusawa, Ryo Matsuzawa, and Hiroto Kato, Multi-physical CFD Simulations for Condensate Flows and Supercritical-fluid Flows with Phase Change, Proc. 2nd International Symposium on Recent Advances in Thermo-Fluid Engineering, 27-30, (2009)
62. Satoru Yamamoto, Takashi Furusawa, and Ryo Matsuzawa, Supercritical-fluids Simulator(SFS) applied to CO2 and H2O Flows with Phase Change, Proc. International Conference on Supercritical Fluid, Supergreen2009, (2009)., CD-ROM..
63. Takashi Furusawa, Yasuhiro Sasao, Kentaro Sano and Satoru Yamamoto, Acceleration of Supercritical-fluid Flow Computation using an Accurate Look-up Table of Thermophysical Properties, Proc. of the 8th Asian Computational Fluid Dynamics Conference, Hong Kong, (2010), CD-ROM.
64. Satoru Yamamoto, Takashi Furusawa, and Ryo Matsuzawa, Supercritical-fluid Simulations across Critical Point, Proc. 6th International Conference on Computational Fluid Dynamics-St. Petersburg, Computational Fluid Dynamics 2010, (2010), Springer, 661-667.
65. Hiroto Kato, Yasuhiro Sasao, and Satoru Yamamoto, Numerical Study of Unsteady 3-D Condensate Flows in Steam Turbine Multistage, Proc. Seventh Int. Conf. on Fluid Dynamics, (2010-11), 304-305
66. Takashi Furusawa, Ryo Anan, Ryo, Matsuzawa, and Satoru Yamamoto, Supersonic Flow Simulation of Supercritical Fluids Near Critical Point, Proc. Seventh Int. Conf. on Fluid Dynamics, (2010-11), 326-327
67. .Takashi Furusawa and Satoru Yamamoto, Numerical Study of Chemical Reaction in Supercritical Hydrothermal Synthesis Reactor, Proc. Eighth KSME-JSME Thermal and Fluids Engineering Conference, (2012-3), USB-Mem.
68. Satoru Yamamoto and Takashi Furusawa, Simulation of Thermophysical Flows (Plenary Lecture), Proc. Eighth KSME-JSME Thermal and Fluids Engineering Conference, (2012-3), USB-Mem
69. Takashi Furusawa, Satoru Yamamoto,Tadafumi Adschiri and Edward Lester, Numerical Simulation of Supercritical Water Flows in Continuous Hydrothermal Synthesis Reactors, Proc. the 3rd International Solvothermal and Hydrothermal Assoiation Conference, (2012), 6, Invited Paper.
70. Shibo Qi, Takashi Furusawa, Satoru Yamamoto and Kazuhiro Nakahashi, Comparison of Different Wall Boundary Treatments for Preconditioning Method coupled with Building-Cube Method, Proc. 25th International Conference on Parallel Computational Fluid Dynamics(ParCFD), (2013-5),CD-ROM.
71. Xinrong Su, Satoru Yamamoto and Kazuhiro Nakahashi, Extending the Building Cube Method to Curvilinear Mesh with Adaptive Mesh Refinement, Proc. Tenth Int. Conf. on Flow Dynamics, (2013), USB-Mem.
72. Shibo Qi, Kotaro Makino, Takashi Furusawa and Satoru Yamamoto, Numerical Simulation of Supercritical-fluid Flows around Complex Geometry based on SFS+BC, Proc. Tenth Int. Conf. on Flow Dynamics, (2013), USB-Mem.
73. Kotaro Makino, Takashi Furusawa and Satoru Yamamoto, Numerical Simulation of Internal Flows using 3DSFS+BC, Proc. Tenth Int. Conf. on Flow Dynamics, (2013), USB-Mem.
74. Satoshi Miyake, Kenji Okazaki, Takashi Furusawa, Yasuhiro Sasao and Satoru Yamamoto, Parallel Computatikon of Unsteady 3-D Wet-steam Flows in a Low Pressure Steam Turbine Multistage, Proc. 26th Int. Conf. on Parallel CFD, (2014).
75. Takashi Furusawa, Shibo Qi, Kotaro Makino and Satoru Yamamoto, Numerical Method for Simulating Supercritical-fluid Flows in and over Arbitrary Geometry, Proc. 8th Int.Conference on Computational Fluid Dynamics – Chengdu,Computational Fluid Dynamics 2014, Springer, (2014).
76. Shibo Qi, Takashi Furusawa and Satoru Yamamoto, Numerical Simulation of 3-D Supercritical-fluid Flows using BCM and Meshless Method, Proc. Eighth Int. Conference on Flow Dynamics, Sendai, (2014), USB-Mem.
77. Shibo Qi, Takashi Furusawa and Satoru Yamamoto, Three-Dimensional Forced and Natural Convection Flow Simulation based on Cartesian Mesh Method coupled with Meshless Method, Proc. 27th Int. Conference on Parallel CFD, (2015), 60-62.
78. Hironori Miyazawa, Satoshi Miyake and Satoru Yamamoto, Simulation of Unsteady Wet-steam Flow in Low Pressure Turbine Stages considering Blade Number, Proc. 12th Int. Conf. on Flow Dynamics, Sendai, (2015), USB-Mem.
79. Takashi Furusawa, Hironori Miyazawa and Satoru Yamamoto, Numerical Simulation of Transonic Cascade Flows in a Supercritical State, Proc. 12th Int. Conf. on Flow Dynamics, Sendai, (2015), USB-Mem.
80. Y.Sakaguchi, K.Kataumi, H.Matsuoka, O.Watanabe, A.Musa, K.Komatsu, R.Egawa, H.Kobayashi and S.Yamamoto, Performance Optimization of Numerical Turbine for Supercomputer SX-ACE, Parallel CFD, (2016-5).
81. Takashi Furusawa, Kenji Kagaya and Satoru Yamamoto, Numerical Simulation of Three-dimensional Internal Flows of Transcritical Fluid with Cartesian Method Method, Proceedings of 9th JSME-KSME Thermal and Fluids Engineering Conference, (Oct. 2017), CD-ROM.
82. Takashi Furusawa, Hironori Miyazawa, Shota Moriguchi and Satoru Yamamoto, Numerical Analysis of High Pressure CO2 Flows with Nonequilibrium Condensation, Proc. 14th Int. Conf. on Flow Dynamics, Sendai, (2017), USB-Mem
83. .Hironori Miyazawa, Takashi Furusawa and Satoru Yamamoto, Unsteady Effect of Shock Interaction on Long Rotor Blades in LP Steam Turbine, Proc. 14th Int. Conf. on Flow Dynamics, Sendai, (2017), USB-Mem
84. Takashi Furusawa, Hironori Miyazawa, Shota Moriguchi and Satoru Yamamoto, Transonic Flow Simulation of High Pressure CO2 with Nonequilibrium Condensation, Proc. the Asian Congress on Gas Turbines, (2018)
85. Hironori Miyazawa, Takashi Furusawa and Satoru Yamamoto, Simulation of Unsteady Flows through Multistage Stator-rotor Fullannulus Blade Rows in LP Steam Turbine, Proc. 15th Int. Conf. on Flow Dynamics, Sendai, (2018), USB-Mem.
86. Takashi Furusawa, Hironori Miyazawa, Shota Moriguchi and Satoru Yamamoto, Numerical Investigation of Real Gas Effect in High Pressure Flows with Nonequilibrium Condensation, Proc. 15th Int. Conf. on Flow Dynamics, Sendai, (2018), USB-Mem.
87. Shota Moriguchi, Hironori Miyazawa, Takashi Furusawa and Satoru Yamamoto, Effect of Inlet Wetness on Performance of Transonic Compressor Rotor, Proc. 15th Int. Conf. on Flow Dynamics, Sendai, (2018), USB-Mem.
88. Shota Moriguchi, Takuro Endo, Hironori Miyazawa, Takashi Furusawa, Satoru Yamamoto, Numerical Investigation of Transonic Moist-air Flow in Whole-annulus Compressor Blade Rows, Proc. 16th Int. Conf. on Flow Dynamics, Sendai, (2019), USB-Mem.
89. Hironori Miyazawa, Akihiro Uemura, Takashi Furusawa, Satoru Yamamoto, Koichi Yonezawa, Shuichi Umezawa, Numerical Simulation of Unsteady Flows through First-stage Stator and Rotor Blade Rows in Middle Pressure Steam Turbine, Proc. 16th Int. Conf. on Flow Dynamics, Sendai, (2019), USB-Mem.
90. Shuto Yatsuyanagi, Takashi Furusawa, Satoru Yamamoto, Sadatake Tomioka, Numerical Investigation of Octane Flows with Pyrolysis under Supercritical Pressure, Proc. 16th Int. Conf. on Flow Dynamics, Sendai, (2019), USB-Mem.
91. Hironori Miyazawa, Shohei Funahazama, Takashi Furusawa, Satoru Yamamoto, Shuichi Umezawa, Koichi Yonezawa, Shuichi Ohmori, Takeshi, Suzuki, Effect of Cutback Stator Blades on Flows through Three-Stage Blade Rows in Intermediate Pressure Steam Turbine Proc. 17th International Conference on Flow Dynamics, Sendai, (2020.10).
92. Shuto Yatsuyanagi, Takashi Furusawa, Satoru Yamamoto, Sadatake Tomioka,Takuo Onodera, Numerical Investigation of Supercritical Hydrocarbon Flows with Pyrolysis, Proc. 17th International Conference on Flow Dynamics, Sendai, (2020.10)
93. Kenta Matsui, Shuto Yatsuyanagi, Takashi Furusawa, Akira Yoko, Satoru Yamamoto, Tadafumi Adschiri, Numerical Simulation of Turbulent Mixing Flow in Supercritical Hydrothermal Synthesis Reactors, Proc. 18th International Conference on Flow Dynamics, Sendai, (2021.10).
94. Shuto Yatsuyanagi, Takashi Furusawa, Satoru Yamamoto, Sadatake Tomioka, Takuo Onodera, Numerical Study on Supercritical N-Dodecane Flows with Endothermic Pyrolysis Reaction, Proc. 18th International Conference on Flow Dynamics, Sendai, (2021.10).